To simplify setting up the measurements, the Multi Channel oscilloscope software contains a large number of Quick Setups. A Quick Setup contains the basic settings for a specific measurement as well as additional information regarding the selected Quick Setup, like e.g. how the instrument and/or accessories need to be connected. After loading the Quick Setup, that specific measurement can be performed and if needed, small adjustments to the setup can be made.
The Quick Setups are selected and loaded from a Quick Setup selection dialog, opened by clicking the
Quick Setup button 
, selecting the Load Quick Setup option in
the File menu or by pressing hotkey Shift + Ctrl +
O.
Quick Setup selection simulation
The image below is a simulation of the Quick Setup selection dialog in the Multi Channel oscilloscope software, showing all currently available Quick Setups. It allows you to browse the available Quick Setups by clicking the various categories and sub categories. The information area will show the related information on the categories and Quick Setups.
Oscilloscope
Signal logging
Multimeter
Spectrum analyzer
Protocol analyzer
Miscellaneous
Automotive
Classroom
EMI
1 channel
2 channels
4 channels
Mains power
- 1 channel
- 2 channels
- 4 channels
- Mains voltage
- Mains power
Current
Voltage
Resistance
- 1 channel
- 2 channels
- 4 channels
Circuit sweep
CAN bus
I2C
SAE J1939
RS232
SPI
- Current measurements
Duty cycle
Frequency logging
Accelerometer
Encoder
Sensor
Actuator
Combined
Battery
Miscellaneous
Measure duty cycle
Triangular signal
Multiple graphs
0% pre trigger
20% pre trigger
50% pre trigger
80% pre trigger
100% pre trigger
- 0% pre trigger
- 20% pre trigger
- 50% pre trigger
- 80% pre trigger
- 100% pre trigger
- 0% pre trigger
- 20% pre trigger
- 50% pre trigger
- 80% pre trigger
- 100% pre trigger
- 1 phase
3 phase
- Signals up to 500 kHz
- Signals up to 250 kHz
- Singals up to 100 kHz
- Signals up to 50 kHz
- Signals up to 25 kHz
- Signals up to 10 kHz
- Signals up to 5 kHz
- Signals up to 2 kHz
- Signals up to 1 kHz
- Signals up to 500 kHz
- Signals up to 250 kHz
- Signals up to 100 kHz
- Signals up to 50 kHz
- Signals up to 25 kHz
- Signals up to 10 kHz
- Signals up to 5 kHz
- Signals up to 2 kHz
- Signals up to 1 kHz
- Signals up to 500 kHz
- Signals up to 250 kHz
- Signals up to 125 kHz
- Signals up to 50 kHz
- Signals up to 25 kHz
- Signals up to 10 kHz
- Signals up to 5 kHz
- Signals up to 2 kHz
- Signals up to 1 kHz
110 V, 60 Hz- 120 V, 60 Hz
- 220 V, 50 Hz
- 220 V, 60 Hz
- 230 V, 50 Hz
- 240 V, 50 Hz
1 phase
3 phase
AC
DC
- AC
- DC
Current clamp TP-CC80
Current clamp TP-CC400
Current clamp TP-CC600
- Duty cycle
- Duty cycle inverted
Log frequency up to 200 kHz- Log frequency up to 20 kHz
- Log frequency up to 400 Hz
- Acceleration
Displacement
Engine power (dyno)
Vibration analysis
ABS
Acceleration pedal
Air flow
Camshaft
Crankshaft
Lambda
MAP
Temperature
Valve position
Fuel injection
Ignition
Valves
Smooth running test- Engine power (dyno)
Diesel return flow
Relative compression test
Step 1
Open Object tree- Step 2
Create Duty cycle I/O
- Step 3
Connect Ch1
Step 4
Show in graph
Step 5
Change duty cycle
- Step 1
Generate a triangle
- Step 2
Measure frequency spectrum
Step 3
Filter the triangle
Step 4
Integrate the triangle
- Voltage, 50 Hz to 60 Hz
- Voltage, current and power, 50 Hz to 60 Hz
- Current, 50 Hz to 60 Hz
- Voltage, 50 Hz to 60 Hz
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 200 V range (400 Vpp max)
- 400 V range (800 Vpp max)
- 450 V range (900 Vpp max)
- 800 V range (1600 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- 80 V range (160 Vpp max)
- Voltage
- Voltage, current and power
- Current
- Voltage
- 50 MHz, 4 channels
- 25 MHz, 4 channels
- 10 MHz, 4 channels
- 1 MHz, 4 channels
- 50 MHz, 2 channels
- 25 MHz, 2 channels
- 10 MHz, 2 channels
- 1 MHz, 2 channels
- 50 MHz, 4 channels
- 25 MHz, 4 channels
- 10 MHz, 4 channels
- 1 MHz, 4 channels
- 50 MHz, 2 channels
- 25 MHz, 2 channels
- 10 MHz, 2 channels
- 1 MHz, 2 channels
- 50 MHz, 4 channels
- 25 MHz, 4 channels
- 10 MHz, 4 channels
- 1 MHz, 4 channels
- 50 MHz, 2 channels
- 25 MHz, 2 channels
- 10 MHz, 2 channels
- 1 MHz, 2 channels
- 50 MHz, 4 channels
- 25 MHz, 4 channels
- 10 MHz, 4 channels
- 1 MHz, 4 channels
- 50 MHz, 2 channels
- 25 MHz, 2 channels
- 10 MHz, 2 channels
- 1 MHz, 2 channels
- Up to 20 A AC
- Up to 80 A AC
- Up to 20 A DC
- Up to 80 A DC
- Up to 400 A AC
- Up to 40 A AC
- Up to 400 A DC
- Up to 40 A DC
- Up to 200 A AC
- Up to 600 A AC
- Up to 200 A DC
- Up to 600 A DC
Measure momentary
Log pwm signals up to 500 Hz- Log pwm signals up to 20 kHz
- Measure momentary
- Log pwm signals up to 500 Hz
- Log pwm signals up to 20 kHz
Oscilloscope
Measurements in normal oscilloscope mode.
Oscilloscope
Oscilloscope, 1 channel
1 channel measurements in normal oscilloscope mode.
Oscilloscope 1 channel
Oscilloscope, 1 channel, 0% pre trigger.
1 channel measurements in normal oscilloscope mode with 0% pre trigger.
Oscilloscope 1 channel 0% pre trigger
0% of the measurement before the trigger moment 100% of the measurement after the trigger moment
Oscilloscope, 1 channel, 0% pre trigger, 100 ns/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 100 ns/div.
Oscilloscope 1 channel 0% pre trigger 100 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 200 ns/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 ns/div.
Oscilloscope 1 channel 0% pre trigger 200 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 500 ns/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 ns/div.
Oscilloscope 1 channel 0% pre trigger 500 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 1 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 µs/div.
Oscilloscope 1 channel 0% pre trigger 1 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 2 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 µs/div.
Oscilloscope 1 channel 0% pre trigger 2 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 5 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 µs/div.
Oscilloscope 1 channel 0% pre trigger 5 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 10 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 µs/div.
Oscilloscope 1 channel 0% pre trigger 10 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 20 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 µs/div.
Oscilloscope 1 channel 0% pre trigger 20 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 50 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 µs/div.
Oscilloscope 1 channel 0% pre trigger 50 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 100 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 100 µs/div.
Oscilloscope 1 channel 0% pre trigger 100 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 200 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 µs/div.
Oscilloscope 1 channel 0% pre trigger 200 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 500 µs/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 µs/div.
Oscilloscope 1 channel 0% pre trigger 500 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 1 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 ms/div.
Oscilloscope 1 channel 0% pre trigger 1 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 2 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 ms/div.
Oscilloscope 1 channel 0% pre trigger 2 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 5 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 ms/div.
Oscilloscope 1 channel 0% pre trigger 5 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 10 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 ms/div.
Oscilloscope 1 channel 0% pre trigger 10 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 20 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 ms/div.
Oscilloscope 1 channel 0% pre trigger 20 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 200 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 0% pre trigger, 50 ms/div
1 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 ms/div.
Oscilloscope 1 channel 0% pre trigger 50 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 500 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger.
1 channel measurements in normal oscilloscope mode with 20% pre trigger.
Oscilloscope 1 channel 20% pre trigger
20% of the measurement before the trigger moment 80% of the measurement after the trigger moment
Oscilloscope, 1 channel, 20% pre trigger, 100 ns/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 100 ns/div.
Oscilloscope 1 channel 20% pre trigger 100 ns/div DC coupling Auto ranging input range
200 ns before the trigger moment 800 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 200 ns/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 ns/div.
Oscilloscope 1 channel 20% pre trigger 200 ns/div DC coupling Auto ranging input range
400 ns before the trigger moment 1.6 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 500 ns/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 ns/div.
Oscilloscope 1 channel 20% pre trigger 500 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 1 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 µs/div.
Oscilloscope 1 channel 20% pre trigger 1 µs/div DC coupling Auto ranging input range
2 µs before the trigger moment 8 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 2 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 µs/div.
Oscilloscope 1 channel 20% pre trigger 2 µs/div DC coupling Auto ranging input range
4 µs before the trigger moment 16 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 5 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 µs/div.
Oscilloscope 1 channel 20% pre trigger 5 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 10 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 µs/div.
Oscilloscope 1 channel 20% pre trigger 10 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 80 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 20 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 µs/div.
Oscilloscope 1 channel 20% pre trigger 20 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 160 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 50 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 µs/div.
Oscilloscope 1 channel 20% pre trigger 50 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 100 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 100 µs/div.
Oscilloscope 1 channel 20% pre trigger 100 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 800 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 200 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 µs/div.
Oscilloscope 1 channel 20% pre trigger 200 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 1.6 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 500 µs/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 µs/div.
Oscilloscope 1 channel 20% pre trigger 500 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 1 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 ms/div.
Oscilloscope 1 channel 20% pre trigger 1 ms/div DC coupling Auto ranging input range
2 ms before the trigger moment 8 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 2 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 ms/div.
Oscilloscope 1 channel 20% pre trigger 2 ms/div DC coupling Auto ranging input range
4 ms before the trigger moment 16 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 5 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 ms/div.
Oscilloscope 1 channel 20% pre trigger 5 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 10 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 ms/div.
Oscilloscope 1 channel 20% pre trigger 10 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 80 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 20 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 ms/div.
Oscilloscope 1 channel 20% pre trigger 20 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 160 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 20% pre trigger, 50 ms/div
1 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 ms/div.
Oscilloscope 1 channel 20% pre trigger 50 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 400 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger.
1 channel measurements in normal oscilloscope mode with 50% pre trigger.
Oscilloscope 1 channel 50% pre trigger
50% of the measurement before the trigger moment 50% of the measurement after the trigger moment
Oscilloscope, 1 channel, 50% pre trigger, 100 ns/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 100 ns/div.
Oscilloscope 1 channel 50% pre trigger 100 ns/div DC coupling Auto ranging input range
500 ns before the trigger moment 500 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 200 ns/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 ns/div.
Oscilloscope 1 channel 50% pre trigger 200 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 500 ns/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 ns/div.
Oscilloscope 1 channel 50% pre trigger 500 ns/div DC coupling Auto ranging input range
2.5 µs before the trigger moment 2.5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 1 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 µs/div.
Oscilloscope 1 channel 50% pre trigger 1 µs/div DC coupling Auto ranging input range
5 µs before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 2 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 µs/div.
Oscilloscope 1 channel 50% pre trigger 2 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 5 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 µs/div.
Oscilloscope 1 channel 50% pre trigger 5 µs/div DC coupling Auto ranging input range
25 µs before the trigger moment 25 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 10 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 µs/div.
Oscilloscope 1 channel 50% pre trigger 10 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 20 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 µs/div.
Oscilloscope 1 channel 50% pre trigger 20 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 50 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 µs/div.
Oscilloscope 1 channel 50% pre trigger 50 µs/div DC coupling Auto ranging input range
250 µs before the trigger moment 250 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 100 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 100 µs/div.
Oscilloscope 1 channel 50% pre trigger 100 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 200 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 µs/div.
Oscilloscope 1 channel 50% pre trigger 200 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 500 µs/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 µs/div.
Oscilloscope 1 channel 50% pre trigger 500 µs/div DC coupling Auto ranging input range
2.5 ms before the trigger moment 2.5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 1 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 ms/div.
Oscilloscope 1 channel 50% pre trigger 1 ms/div DC coupling Auto ranging input range
5 ms before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 2 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 ms/div.
Oscilloscope 1 channel 50% pre trigger 2 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 5 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 ms/div.
Oscilloscope 1 channel 50% pre trigger 5 ms/div DC coupling Auto ranging input range
25 ms before the trigger moment 25 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 10 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 ms/div.
Oscilloscope 1 channel 50% pre trigger 10 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 20 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 ms/div.
Oscilloscope 1 channel 50% pre trigger 20 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 50% pre trigger, 50 ms/div
1 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 ms/div.
Oscilloscope 1 channel 50% pre trigger 50 ms/div DC coupling Auto ranging input range
250 ms before the trigger moment 250 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger.
1 channel measurements in normal oscilloscope mode with 80% pre trigger.
Oscilloscope 1 channel 80% pre trigger
80% of the measurement before the trigger moment 20% of the measurement after the trigger moment
Oscilloscope, 1 channel, 80% pre trigger, 100 ns/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 100 ns/div.
Oscilloscope 1 channel 80% pre trigger 100 ns/div DC coupling Auto ranging input range
800 ns before the trigger moment 200 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 200 ns/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 ns/div.
Oscilloscope 1 channel 80% pre trigger 200 ns/div DC coupling Auto ranging input range
1.6 µs before the trigger moment 400 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 500 ns/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 ns/div.
Oscilloscope 1 channel 80% pre trigger 500 ns/div DC coupling Auto ranging input range
4 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 1 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 µs/div.
Oscilloscope 1 channel 80% pre trigger 1 µs/div DC coupling Auto ranging input range
8 µs before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 2 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 µs/div.
Oscilloscope 1 channel 80% pre trigger 2 µs/div DC coupling Auto ranging input range
16 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 5 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 µs/div.
Oscilloscope 1 channel 80% pre trigger 5 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 10 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 µs/div.
Oscilloscope 1 channel 80% pre trigger 10 µs/div DC coupling Auto ranging input range
80 µs before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 20 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 µs/div.
Oscilloscope 1 channel 80% pre trigger 20 µs/div DC coupling Auto ranging input range
160 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 50 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 µs/div.
Oscilloscope 1 channel 80% pre trigger 50 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 100 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 100 µs/div.
Oscilloscope 1 channel 80% pre trigger 100 µs/div DC coupling Auto ranging input range
800 µs before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 200 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 µs/div.
Oscilloscope 1 channel 80% pre trigger 200 µs/div DC coupling Auto ranging input range
1.6 ms before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 500 µs/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 µs/div.
Oscilloscope 1 channel 80% pre trigger 500 µs/div DC coupling Auto ranging input range
4 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 1 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 ms/div.
Oscilloscope 1 channel 80% pre trigger 1 ms/div DC coupling Auto ranging input range
8 ms before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 2 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 ms/div.
Oscilloscope 1 channel 80% pre trigger 2 ms/div DC coupling Auto ranging input range
16 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 5 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 ms/div.
Oscilloscope 1 channel 80% pre trigger 5 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 10 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 ms/div.
Oscilloscope 1 channel 80% pre trigger 10 ms/div DC coupling Auto ranging input range
80 ms before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 20 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 ms/div.
Oscilloscope 1 channel 80% pre trigger 20 ms/div DC coupling Auto ranging input range
160 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 80% pre trigger, 50 ms/div
1 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 ms/div.
Oscilloscope 1 channel 80% pre trigger 50 ms/div DC coupling Auto ranging input range
400 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger.
1 channel measurements in normal oscilloscope mode with 100% pre trigger.
Oscilloscope 1 channel 100% pre trigger
100% of the measurement before the trigger moment 0% of the measurement after the trigger moment
Oscilloscope, 1 channel, 100% pre trigger, 100 ns/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 100 ns/div.
Oscilloscope 1 channel 100% pre trigger 100 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 200 ns/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 ns/div.
Oscilloscope 1 channel 100% pre trigger 200 ns/div DC coupling Auto ranging input range
2 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 500 ns/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 ns/div.
Oscilloscope 1 channel 100% pre trigger 500 ns/div DC coupling Auto ranging input range
5 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 1 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 µs/div.
Oscilloscope 1 channel 100% pre trigger 1 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 2 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 µs/div.
Oscilloscope 1 channel 100% pre trigger 2 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 5 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 µs/div.
Oscilloscope 1 channel 100% pre trigger 5 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 10 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 µs/div.
Oscilloscope 1 channel 100% pre trigger 10 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 20 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 µs/div.
Oscilloscope 1 channel 100% pre trigger 20 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 50 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 µs/div.
Oscilloscope 1 channel 100% pre trigger 50 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 100 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 100 µs/div.
Oscilloscope 1 channel 100% pre trigger 100 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 200 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 µs/div.
Oscilloscope 1 channel 100% pre trigger 200 µs/div DC coupling Auto ranging input range
2 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 500 µs/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 µs/div.
Oscilloscope 1 channel 100% pre trigger 500 µs/div DC coupling Auto ranging input range
5 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 1 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 ms/div.
Oscilloscope 1 channel 100% pre trigger 1 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 2 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 ms/div.
Oscilloscope 1 channel 100% pre trigger 2 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 5 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 ms/div.
Oscilloscope 1 channel 100% pre trigger 5 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 10 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 ms/div.
Oscilloscope 1 channel 100% pre trigger 10 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 20 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 ms/div.
Oscilloscope 1 channel 100% pre trigger 20 ms/div DC coupling Auto ranging input range
200 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 1 channel, 100% pre trigger, 50 ms/div
1 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 ms/div.
Oscilloscope 1 channel 100% pre trigger 50 ms/div DC coupling Auto ranging input range
500 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels
2 channel measurements in normal oscilloscope mode.
Oscilloscope 2 channels
Oscilloscope, 2 channels, 0% pre trigger.
2 channel measurements in normal oscilloscope mode with 0% pre trigger.
Oscilloscope 2 channels 0% pre trigger
0% of the measurement before the trigger moment 100% of the measurement after the trigger moment
Oscilloscope, 2 channels, 0% pre trigger, 100 ns/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 100 ns/div.
Oscilloscope 2 channels 0% pre trigger 100 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 200 ns/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 ns/div.
Oscilloscope 2 channels 0% pre trigger 200 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 500 ns/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 ns/div.
Oscilloscope 2 channels 0% pre trigger 500 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 1 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 µs/div.
Oscilloscope 2 channels 0% pre trigger 1 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 2 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 µs/div.
Oscilloscope 2 channels 0% pre trigger 2 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscoop, 2 kanalen, 0% pretrigger, 5 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 µs/div.
Oscilloscope 2 channels 0% pre trigger 5 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 10 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 µs/div.
Oscilloscope 2 channels 0% pre trigger 10 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 20 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 µs/div.
Oscilloscope 2 channels 0% pre trigger 20 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 50 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 µs/div.
Oscilloscope 2 channels 0% pre trigger 50 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 100 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 100 µs/div.
Oscilloscope 2 channels 0% pre trigger 100 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 200 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 µs/div.
Oscilloscope 2 channels 0% pre trigger 200 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 500 µs/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 µs/div.
Oscilloscope 2 channels 0% pre trigger 500 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 1 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 ms/div.
Oscilloscope 2 channels 0% pre trigger 1 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 2 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 ms/div.
Oscilloscope 2 channels 0% pre trigger 2 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 5 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 ms/div.
Oscilloscope 2 channels 0% pre trigger 5 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 10 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 ms/div.
Oscilloscope 2 channels 0% pre trigger 10 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 20 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 ms/div.
Oscilloscope 2 channels 0% pre trigger 20 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 200 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 0% pre trigger, 50 ms/div
2 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 ms/div.
Oscilloscope 2 channels 0% pre trigger 50 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 500 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger.
2 channel measurements in normal oscilloscope mode with 20% pre trigger.
Oscilloscope 2 channels 20% pre trigger
20% of the measurement before the trigger moment 80% of the measurement after the trigger moment
Oscilloscope, 2 channels, 20% pre trigger, 100 ns/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 100 ns/div.
Oscilloscope 2 channels 20% pre trigger 100 ns/div DC coupling Auto ranging input range
200 ns before the trigger moment 800 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 200 ns/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 ns/div.
Oscilloscope 2 channels 20% pre trigger 200 ns/div DC coupling Auto ranging input range
400 ns before the trigger moment 1.6 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 500 ns/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 ns/div.
Oscilloscope 2 channels 20% pre trigger 500 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 1 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 µs/div.
Oscilloscope 2 channels 20% pre trigger 1 µs/div DC coupling Auto ranging input range
2 µs before the trigger moment 8 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 2 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 µs/div.
Oscilloscope 2 channels 20% pre trigger 2 µs/div DC coupling Auto ranging input range
4 µs before the trigger moment 16 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 5 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 µs/div.
Oscilloscope 2 channels 20% pre trigger 5 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 10 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 µs/div.
Oscilloscope 2 channels 20% pre trigger 10 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 80 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 20 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 µs/div.
Oscilloscope 2 channels 20% pre trigger 20 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 160 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 50 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 µs/div.
Oscilloscope 2 channels 20% pre trigger 50 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 100 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 100 µs/div.
Oscilloscope 2 channels 20% pre trigger 100 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 800 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 200 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 µs/div.
Oscilloscope 2 channels 20% pre trigger 200 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 1.6 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 500 µs/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 µs/div.
Oscilloscope 2 channels 20% pre trigger 500 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 1 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 ms/div.
Oscilloscope 2 channels 20% pre trigger 1 ms/div DC coupling Auto ranging input range
2 ms before the trigger moment 8 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 2 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 ms/div.
Oscilloscope 2 channels 20% pre trigger 2 ms/div DC coupling Auto ranging input range
4 ms before the trigger moment 16 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 5 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 ms/div.
Oscilloscope 2 channels 20% pre trigger 5 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 10 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 ms/div.
Oscilloscope 2 channels 20% pre trigger 10 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 80 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 20 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 ms/div.
Oscilloscope 2 channels 20% pre trigger 20 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 160 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 20% pre trigger, 50 ms/div
2 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 ms/div.
Oscilloscope 2 channels 20% pre trigger 50 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 400 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger.
2 channel measurements in normal oscilloscope mode with 50% pre trigger.
Oscilloscope 2 channels 50% pre trigger
50% of the measurement before the trigger moment 50% of the measurement after the trigger moment
Oscilloscope, 2 channels, 50% pre trigger, 100 ns/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 100 ns/div.
Oscilloscope 2 channels 50% pre trigger 100 ns/div DC coupling Auto ranging input range
500 ns before the trigger moment 500 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 200 ns/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 ns/div.
Oscilloscope 2 channels 50% pre trigger 200 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 500 ns/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 ns/div.
Oscilloscope 2 channels 50% pre trigger 500 ns/div DC coupling Auto ranging input range
2.5 µs before the trigger moment 2.5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 1 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 µs/div.
Oscilloscope 2 channels 50% pre trigger 1 µs/div DC coupling Auto ranging input range
5 µs before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 2 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 µs/div.
Oscilloscope 2 channels 50% pre trigger 2 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 5 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 µs/div.
Oscilloscope 2 channels 50% pre trigger 5 µs/div DC coupling Auto ranging input range
25 µs before the trigger moment 25 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 10 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 µs/div.
Oscilloscope 2 channels 50% pre trigger 10 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 20 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 µs/div.
Oscilloscope 2 channels 50% pre trigger 20 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 50 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 µs/div.
Oscilloscope 2 channels 50% pre trigger 50 µs/div DC coupling Auto ranging input range
250 µs before the trigger moment 250 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 100 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 100 µs/div.
Oscilloscope 2 channels 50% pre trigger 100 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 200 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 µs/div.
Oscilloscope 2 channels 50% pre trigger 200 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axisg
Oscilloscope, 2 channels, 50% pre trigger, 500 µs/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 µs/div.
Oscilloscope 2 channels 50% pre trigger 500 µs/div DC coupling Auto ranging input range
2.5 ms before the trigger moment 2.5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 1 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 ms/div.
Oscilloscope 2 channels 50% pre trigger 1 ms/div DC coupling Auto ranging input range
5 ms before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 2 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 ms/div.
Oscilloscope 2 channels 50% pre trigger 2 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 5 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 ms/div.
Oscilloscope 2 channels 50% pre trigger 5 ms/div DC coupling Auto ranging input range
25 ms before the trigger moment 25 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 10 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 ms/div.
Oscilloscope 2 channels 50% pre trigger 10 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 20 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 ms/div.
Oscilloscope 2 channels 50% pre trigger 20 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 50% pre trigger, 50 ms/div
2 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 ms/div.
Oscilloscope 2 channels 50% pre trigger 50 ms/div DC coupling Auto ranging input range
250 ms before the trigger moment 250 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger.
2 channel measurements in normal oscilloscope mode with 80% pre trigger.
Oscilloscope 2 channels 80% pre trigger
80% of the measurement before the trigger moment 20% of the measurement after the trigger moment
Oscilloscope, 2 channels, 80% pre trigger, 100 ns/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 100 ns/div.
Oscilloscope 2 channels 80% pre trigger 100 ns/div DC coupling Auto ranging input range
800 ns before the trigger moment 200 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 200 ns/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 ns/div.
Oscilloscope 2 channels 80% pre trigger 200 ns/div DC coupling Auto ranging input range
1.6 µs before the trigger moment 400 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 500 ns/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 ns/div.
Oscilloscope 2 channels 80% pre trigger 500 ns/div DC coupling Auto ranging input range
4 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 1 µs/divv
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 µs/div.
Oscilloscope 2 channels 80% pre trigger 1 µs/div DC coupling Auto ranging input range
8 µs before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 2 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 µs/div.
Oscilloscope 2 channels 80% pre trigger 2 µs/div DC coupling Auto ranging input range
16 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 5 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 µs/div.
Oscilloscope 2 channels 80% pre trigger 5 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 10 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 µs/div.
Oscilloscope 2 channels 80% pre trigger 10 µs/div DC coupling Auto ranging input range
80 µs before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 20 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 µs/div.
Oscilloscope 2 channels 80% pre trigger 20 µs/div DC coupling Auto ranging input range
160 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 50 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 µs/div.
Oscilloscope 2 channels 80% pre trigger 50 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 100 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 100 µs/div.
Oscilloscope 2 channels 80% pre trigger 100 µs/div DC coupling Auto ranging input range
800 µs before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 200 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 µs/div.
Oscilloscope 2 channels 80% pre trigger 200 µs/div DC coupling Auto ranging input range
1.6 ms before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 500 µs/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 µs/div.
Oscilloscope 2 channels 80% pre trigger 500 µs/div DC coupling Auto ranging input range
4 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 1 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 ms/div.
Oscilloscope 2 channels 80% pre trigger 1 ms/div DC coupling Auto ranging input range
8 ms before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 2 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 ms/div.
Oscilloscope 2 channels 80% pre trigger 2 ms/div DC coupling Auto ranging input range
16 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 5 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 ms/div.
Oscilloscope 2 channels 80% pre trigger 5 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 10 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 ms/div.
Oscilloscope 2 channels 80% pre trigger 10 ms/div DC coupling Auto ranging input range
80 ms before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 20 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 ms/div.
Oscilloscope 2 channels 80% pre trigger 20 ms/div DC coupling Auto ranging input range
160 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 80% pre trigger, 50 ms/div
2 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 ms/div.
Oscilloscope 2 channels 80% pre trigger 50 ms/div DC coupling Auto ranging input range
400 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger.
2 channel measurements in normal oscilloscope mode with 100% pre trigger.
Oscilloscope 2 channels 100% pre trigger
100% of the measurement before the trigger moment 0% of the measurement after the trigger moment
Oscilloscope, 2 channels, 100% pre trigger, 100 ns/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 100 ns/div.
Oscilloscope 2 channels 100% pre trigger 100 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 200 ns/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 ns/div.
Oscilloscope 2 channels 100% pre trigger 200 ns/div DC coupling Auto ranging input range
2 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 500 ns/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 ns/div.
Oscilloscope 2 channels 100% pre trigger 500 ns/div DC coupling Auto ranging input range
5 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 1 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 µs/div.
Oscilloscope 2 channels 100% pre trigger 1 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 2 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 µs/div.
Oscilloscope 2 channels 100% pre trigger 2 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 5 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 µs/div.
Oscilloscope 2 channels 100% pre trigger 5 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 10 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 µs/div.
Oscilloscope 2 channels 100% pre trigger 10 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 20 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 µs/div.
Oscilloscope 2 channels 100% pre trigger 20 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 50 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 µs/div.
Oscilloscope 2 channels 100% pre trigger 50 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 100 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 100 µs/div.
Oscilloscope 2 channels 100% pre trigger 100 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 200 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 µs/div.
Oscilloscope 2 channels 100% pre trigger 200 µs/div DC coupling Auto ranging input range
2 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 500 µs/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 µs/div.
Oscilloscope 2 channels 100% pre trigger 500 µs/div DC coupling Auto ranging input range
5 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 1 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 ms/div.
Oscilloscope 2 channels 100% pre trigger 1 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 2 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 ms/div.
Oscilloscope 2 channels 100% pre trigger 2 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 5 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 ms/div.
Oscilloscope 2 channels 100% pre trigger 5 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 10 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 ms/div.
Oscilloscope 2 channels 100% pre trigger 10 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 20 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 ms/div.
Oscilloscope 2 channels 100% pre trigger 20 ms/div DC coupling Auto ranging input range
200 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 2 channels, 100% pre trigger, 50 ms/div
2 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 ms/div.
Oscilloscope 2 channels 100% pre trigger 50 ms/div DC coupling Auto ranging input range
500 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels
4 channel measurements in normal oscilloscope mode.
Oscilloscope 4 channels
Oscilloscope, 4 channels, 0% pre trigger.
4 channel measurements in normal oscilloscope mode with 0% pre trigger.
Oscilloscope 4 channels 0% pre trigger
0% of the measurement before the trigger moment 100% of the measurement after the trigger moment
Oscilloscope, 4 channels, 0% pre trigger, 200 ns/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 ns/div.
Oscilloscope 4 channels 0% pre trigger 200 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 500 ns/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 ns/div.
Oscilloscope 4 channels 0% pre trigger 500 ns/div DC coupling Auto ranging input range
0 s before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 1 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 µs/div.
Oscilloscope 4 channels 0% pre trigger 1 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 2 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 µs/div.
Oscilloscope 4 channels 0% pre trigger 2 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 5 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 µs/div.
Oscilloscope 4 channels 0% pre trigger 5 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 10 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 µs/div.
Oscilloscope 4 channels 0% pre trigger 10 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 20 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 µs/div.
Oscilloscope 4 channels 0% pre trigger 20 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 50 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 µs/div.
Oscilloscope 4 channels 0% pre trigger 50 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 100 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 100 µs/div.
Oscilloscope 4 channels 0% pre trigger 100 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 200 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 200 µs/div.
Oscilloscope 4 channels 0% pre trigger 200 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 500 µs/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 500 µs/div.
Oscilloscope 4 channels 0% pre trigger 500 µs/div DC coupling Auto ranging input range
0 s before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 1 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 1 ms/div.
Oscilloscope 4 channels 0% pre trigger 1 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 2 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 2 ms/div.
Oscilloscope 4 channels 0% pre trigger 2 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 5 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 5 ms/div.
Oscilloscope 4 channels 0% pre trigger 5 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 10 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 10 ms/div.
Oscilloscope 4 channels 0% pre trigger 10 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 20 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 20 ms/div.
Oscilloscope 4 channels 0% pre trigger 20 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 200 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 0% pre trigger, 50 ms/div
4 channel measurements in normal oscilloscope mode with 0% pre trigger and 50 ms/div.
Oscilloscope 4 channels 0% pre trigger 50 ms/div DC coupling Auto ranging input range
0 s before the trigger moment 500 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger.
4 channel measurements in normal oscilloscope mode with 20% pre trigger.
Oscilloscope 4 channels 20% pre trigger
20% of the measurement before the trigger moment 80% of the measurement after the trigger moment
Oscilloscope, 4 channels, 20% pre trigger, 200 ns/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 ns/div.
Oscilloscope 4 channels 20% pre trigger 200 ns/div DC coupling Auto ranging input range
400 ns before the trigger moment 1.6 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 500 ns/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 ns/div.
Oscilloscope 4 channels 20% pre trigger 500 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 1 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 µs/div.
Oscilloscope 4 channels 20% pre trigger 1 µs/div DC coupling Auto ranging input range
2 µs before the trigger moment 8 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 2 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 µs/div.
Oscilloscope 4 channels 20% pre trigger 2 µs/div DC coupling Auto ranging input range
4 µs before the trigger moment 16 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 5 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 µs/div.
Oscilloscope 4 channels 20% pre trigger 5 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 10 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 µs/div.
Oscilloscope 4 channels 20% pre trigger 10 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 80 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 20 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 µs/div.
Oscilloscope 4 channels 20% pre trigger 20 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 160 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 50 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 µs/div.
Oscilloscope 4 channels 20% pre trigger 50 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 100 µs/divv
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 100 µs/div.
Oscilloscope 4 channels 20% pre trigger 100 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 800 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 200 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 200 µs/div.
Oscilloscope 4 channels 20% pre trigger 200 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 1.6 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 500 µs/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 500 µs/div.
Oscilloscope 4 channels 20% pre trigger 500 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 1 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 1 ms/div.
Oscilloscope 4 channels 20% pre trigger 1 ms/div DC coupling Auto ranging input range
2 ms before the trigger moment 8 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 2 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 2 ms/div.
Oscilloscope 4 channels 20% pre trigger 2 ms/div DC coupling Auto ranging input range
4 ms before the trigger moment 16 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 5 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 5 ms/div.
Oscilloscope 4 channels 20% pre trigger 5 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 10 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 10 ms/div.
Oscilloscope 4 channels 20% pre trigger 10 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 80 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 20 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 20 ms/div.
Oscilloscope 4 channels 20% pre trigger 20 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 160 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 20% pre trigger, 50 ms/div
4 channel measurements in normal oscilloscope mode with 20% pre trigger and 50 ms/div.
Oscilloscope 4 channels 20% pre trigger 50 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 400 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger.
4 channel measurements in normal oscilloscope mode with 50% pre trigger.
Oscilloscope 4 channels 50% pre trigger
50% of the measurement before the trigger moment 50% of the measurement after the trigger moment
Oscilloscope, 4 channels, 50% pre trigger, 200 ns/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 ns/div.
Oscilloscope 4 channels 50% pre trigger 200 ns/div DC coupling Auto ranging input range
1 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 500 ns/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 ns/div.
Oscilloscope 4 channels 50% pre trigger 500 ns/div DC coupling Auto ranging input range
2.5 µs before the trigger moment 2.5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 1 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 µs/div.
Oscilloscope 4 channels 50% pre trigger 1 µs/div DC coupling Auto ranging input range
5 µs before the trigger moment 5 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 2 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 µs/div.
Oscilloscope 4 channels 50% pre trigger 2 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 5 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 µs/div.
Oscilloscope 4 channels 50% pre trigger 5 µs/div DC coupling Auto ranging input range
25 µs before the trigger moment 25 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 10 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 µs/div.
Oscilloscope 4 channels 50% pre trigger 10 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 50 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 20 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 µs/div.
Oscilloscope 4 channels 50% pre trigger 20 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 50 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 µs/div.
Oscilloscope 4 channels 50% pre trigger 50 µs/div DC coupling Auto ranging input range
250 µs before the trigger moment 250 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 100 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 100 µs/div.
Oscilloscope 4 channels 50% pre trigger 100 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 500 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 200 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 200 µs/div.
Oscilloscope 4 channels 50% pre trigger 200 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 500 µs/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 500 µs/div.
Oscilloscope 4 channels 50% pre trigger 500 µs/div DC coupling Auto ranging input range
2.5 ms before the trigger moment 2.5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 1 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 1 ms/div.
Oscilloscope 4 channels 50% pre trigger 1 ms/div DC coupling Auto ranging input range
5 ms before the trigger moment 5 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 2 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 2 ms/div.
Oscilloscope 4 channels 50% pre trigger 2 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 5 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 5 ms/div.
Oscilloscope 4 channels 50% pre trigger 5 ms/div DC coupling Auto ranging input range
25 ms before the trigger moment 25 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 10 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 10 ms/div.
Oscilloscope 4 channels 50% pre trigger 10 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 50 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 20 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 20 ms/div.
Oscilloscope 4 channels 50% pre trigger 20 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 50% pre trigger, 50 ms/div
4 channel measurements in normal oscilloscope mode with 50% pre trigger and 50 ms/div.
Oscilloscope 4 channels 50% pre trigger 50 ms/div DC coupling Auto ranging input range
250 ms before the trigger moment 250 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger.
4 channel measurements in normal oscilloscope mode with 80% pre trigger.
Oscilloscope 4 channels 80% pre trigger
80% of the measurement before the trigger moment 20% of the measurement after the trigger moment
Oscilloscope, 4 channels, 80% pre trigger, 200 ns/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 ns/div.
Oscilloscope 4 channels 80% pre trigger 200 ns/div DC coupling Auto ranging input range
1.6 µs before the trigger moment 400 ns after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 500 ns/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 ns/div.
Oscilloscope 4 channels 80% pre trigger 500 ns/div DC coupling Auto ranging input range
4 µs before the trigger moment 1 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 1 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 µs/div.
Oscilloscope 4 channels 80% pre trigger 1 µs/div DC coupling Auto ranging input range
8 µs before the trigger moment 2 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 2 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 µs/div.
Oscilloscope 4 channels 80% pre trigger 2 µs/div DC coupling Auto ranging input range
16 µs before the trigger moment 4 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 5 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 µs/div.
Oscilloscope 4 channels 80% pre trigger 5 µs/div DC coupling Auto ranging input range
40 µs before the trigger moment 10 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 10 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 µs/div.
Oscilloscope 4 channels 80% pre trigger 10 µs/div DC coupling Auto ranging input range
80 µs before the trigger moment 20 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 20 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 µs/div.
Oscilloscope 4 channels 80% pre trigger 20 µs/div DC coupling Auto ranging input range
160 µs before the trigger moment 40 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 50 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 µs/div.
Oscilloscope 4 channels 80% pre trigger 50 µs/div DC coupling Auto ranging input range
400 µs before the trigger moment 100 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 100 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 100 µs/div.
Oscilloscope 4 channels 80% pre trigger 100 µs/div DC coupling Auto ranging input range
800 µs before the trigger moment 200 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 200 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 200 µs/div.
Oscilloscope 4 channels 80% pre trigger 200 µs/div DC coupling Auto ranging input range
1.6 ms before the trigger moment 400 µs after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 500 µs/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 500 µs/div.
Oscilloscope 4 channels 80% pre trigger 500 µs/div DC coupling Auto ranging input range
4 ms before the trigger moment 1 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 1 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 1 ms/div.
Oscilloscope 4 channels 80% pre trigger 1 ms/div DC coupling Auto ranging input range
8 ms before the trigger moment 2 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 2 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 2 ms/div.
Oscilloscope 4 channels 80% pre trigger 2 ms/div DC coupling Auto ranging input range
16 ms before the trigger moment 4 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 5 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 5 ms/div.
Oscilloscope 4 channels 80% pre trigger 5 ms/div DC coupling Auto ranging input range
40 ms before the trigger moment 10 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 10 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 10 ms/div.
Oscilloscope 4 channels 80% pre trigger 10 ms/div DC coupling Auto ranging input range
80 ms before the trigger moment 20 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 20 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 20 ms/div.
Oscilloscope 4 channels 80% pre trigger 20 ms/div DC coupling Auto ranging input range
160 ms before the trigger moment 40 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 80% pre trigger, 50 ms/div
4 channel measurements in normal oscilloscope mode with 80% pre trigger and 50 ms/div.
Oscilloscope 4 channels 80% pre trigger 50 ms/div DC coupling Auto ranging input range
400 ms before the trigger moment 100 ms after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger.
4 channel measurements in normal oscilloscope mode with 100% pre trigger.
Oscilloscope 4 channels 100% pre trigger
100% of the measurement before the trigger moment 0% of the measurement after the trigger moment
Oscilloscope, 4 channels, 100% pre trigger, 200 ns/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 ns/div.
Oscilloscope 4 channels 100% pre trigger 200 ns/div DC coupling Auto ranging input range
2 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 500 ns/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 ns/div.
Oscilloscope 4 channels 100% pre trigger 500 ns/div DC coupling Auto ranging input range
5 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 1 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 µs/div.
Oscilloscope 4 channels 100% pre trigger 1 µs/div DC coupling Auto ranging input range
10 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 2 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 µs/div.
Oscilloscope 4 channels 100% pre trigger 2 µs/div DC coupling Auto ranging input range
20 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 5 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 µs/div.
Oscilloscope 4 channels 100% pre trigger 5 µs/div DC coupling Auto ranging input range
50 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 10 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 µs/div.
Oscilloscope 4 channels 100% pre trigger 10 µs/div DC coupling Auto ranging input range
100 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 20 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 µs/div.
Oscilloscope 4 channels 100% pre trigger 20 µs/div DC coupling Auto ranging input range
200 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 50 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 µs/div.
Oscilloscope 4 channels 100% pre trigger 50 µs/div DC coupling Auto ranging input range
500 µs before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 100 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 100 µs/div.
Oscilloscope 4 channels 100% pre trigger 100 µs/div DC coupling Auto ranging input range
1 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 200 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 200 µs/div.
Oscilloscope 4 channels 100% pre trigger 200 µs/div DC coupling Auto ranging input range
2 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 500 µs/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 500 µs/div.
Oscilloscope 4 channels 100% pre trigger 500 µs/div DC coupling Auto ranging input range
5 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 1 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 1 ms/div.
Oscilloscope 4 channels 100% pre trigger 1 ms/div DC coupling Auto ranging input range
10 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 2 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 2 ms/div.
Oscilloscope 4 channels 100% pre trigger 2 ms/div DC coupling Auto ranging input range
20 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 5 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 5 ms/div.
Oscilloscope 4 channels 100% pre trigger 5 ms/div DC coupling Auto ranging input range
50 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 10 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 10 ms/div.
Oscilloscope 4 channels 100% pre trigger 10 ms/div DC coupling Auto ranging input range
100 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 20 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 20 ms/div.
Oscilloscope 4 channels 100% pre trigger 20 ms/div DC coupling Auto ranging input range
200 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Oscilloscope, 4 channels, 100% pre trigger, 50 ms/div
4 channel measurements in normal oscilloscope mode with 100% pre trigger and 50 ms/div.
Oscilloscope 4 channels 100% pre trigger 50 ms/div DC coupling Auto ranging input range
500 ms before the trigger moment 0 s after the trigger moment
Hint speed buttons:
- F3 / F4: Decrease / increase sample frequency
- F5 / F6: Decrease / increase Volt/div
- F11 / F12: Decrease / increase record length
- Cursor keys: Zoom and scroll time axis
Mains power
Measuring mains power.
Accessoires used:
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- These measurements and procedures are examples / measuring suggestions and are no prescribed protocols.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
1 phase
Measuring 1 phase mains power in oscilloscope mode.
1 phase AC voltage with frequencies from 50 Hz to 60 Hz
Measuring 1 phase mains voltage in oscilloscope mode.
The oscilloscope shows a time domain graph and a meter displays RMS, mean and frequency values.
Accessories used:
Instructions:
- Channel 1 connected to the Differential probe SI-9002 which is set to 1:200 attenuation.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
1 phase mains voltage, current and power with frequencies from 50 Hz to 60 Hz.
Measuring 1 phase mains voltage, current and power in oscilloscope mode.
The oscilloscope shows a time domain graph of voltage, current and power and a meter displays RMS, mean and frequency values.
Accessories used:
Instructions:
- Channel 1 connected to the Differential probe SI-9002 which is set to 1:200 attenuation.
- Channel 2 connected to the Current clamp TP-CC80 which is set to the 20 A AC range, zero it before measuring.
More information on using the Differential probe SI-9002
More information on using the Current clamp TP-CC80
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
3 phase
Measuring 3 phase mains power in oscilloscope mode.
3 phase current with frequencies from 50 Hz to 60 Hz
Measuring 3 phase mains current in oscilloscope mode.
The oscilloscope shows a time domain graph and a meter displays RMS, mean and frequency.
Accessories used:
Instructions:
- Channels 1, 2 and 3 are each connected to a Current clamp TP-CC80 which are set to the 20 A AC range, zero them before measuring.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
3 phase mains voltage with frequencies from 50 Hz to 60 Hz
Measuring 3 phase mains voltage in oscilloscope mode.
The oscilloscope shows a time domain graph and a meter displays RMS, mean and frequency.
Accessories used:
Instructions:
- Channel 1, 2 and 3 are each connected to an Differential probe SI-9002, which are set to 1:200 attenuation.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging
Measurements in data logger mode.
Data logger
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
Signal logging, 1 channel
1 channel measurements in data logger mode.
Data logger 1 channel
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
Signals logging, 1 channel, up to 500 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 500 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 500 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 500 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 500 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 500 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 1 channel 1 MHz sample frequency 20 seconds block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 250 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 250 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, for 40 seconds with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, for 40 seconds with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 250 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 250 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 250 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, 30 seconds block sizewith an input range of 400 V range (800 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 250 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 1 channel 500 kHz sample frequency 30 seconds block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 100 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 100 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz,400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 100 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 100 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 100 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 100 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 100 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 1 channel 200 kHz sample frequency 1 minute block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 50 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 50 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz,40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 50 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 50 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 50 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 50 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 50 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 1 channel 100 kHz sample frequency 2 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 25 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 25 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 25 kHz80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 25 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 25 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 25 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 25 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, 5 minutes block sizewith an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 1 channel 50 kHz sample frequency 5 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 10 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 10 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 8 V input range DC coupling
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz,40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 10 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 10 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 10 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 10 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 10 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 1 channel 20 kHz sample frequency 10 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 5 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 5 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 5 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 5 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 5 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 5 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 5 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 1 channel 10 kHz sample frequency 15 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 2 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 2 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 2 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 2 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 2 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 2 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 2 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 1 channel 4 kHz sample frequency 15 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 1 kHz
1 channel measurements in data logger mode. Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 1 channel, up to 1 kHz, 200 mV range (400 mVpp max)
1 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 400 mV range (800 mVpp max)
1 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 800 mV range (1.6 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 2 V range (4 Vpp max)
1 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 4 V range (8 Vpp max)
1 channel measurements in data logger mode, for with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 8 V range (16 Vpp max)
1 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 20 V range (40 Vpp max)
1 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 40 V range (80 Vpp max)
1 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 1 channel, up to 1 kHz, 80 V range (160 Vpp max)
1 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 1 kHz, 200 V range (400 Vpp max)
1 channel measurements in data logger mode, with an input range of 200 V range (400 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 200 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 1 kHz, 400 V range (800 Vpp max)
1 channel measurements in data logger mode, with an input range of 400 V range (800 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 400 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 1 kHz, 450 V range (900 Vpp max)
1 channel measurements in data logger mode, with an input range of 450 V range (900 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 450 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 1 channel, up to 1 kHz, 800 V range (1600 Vpp max)
1 channel measurements in data logger mode, with an input range of 800 V range (1600 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 1 channel 2 kHz sample frequency 15 minutes block size 800 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels
2 channel measurements in data logger mode.
Data logger 2 channels
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
Signal logging, 2 channels, up to 500 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues uninterrupted with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 500 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz,4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 500 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 2 channels 1 MHz sample frequency 20 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 250 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 250 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 30 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 250 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 2 channels 500 kHz sample frequency 30 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 100 kHz
2 channel measurements in data logger mode Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 100 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, for 100 seconds with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 100 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 100 kHz can be measured.
Data logger 2 channels 200 kHz sample frequency 1 minute block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 50 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 50 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 50 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 2 channels 100 kHz sample frequency 2 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 25 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 25 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 25 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 2 channels 50 kHz sample frequency 5 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 10 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 10 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, an input range of 40 V range (80 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 10 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 2 channels 20 kHz sample frequency 10 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 5 kHz
2 channel measurements in data logger mode Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 5 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 5 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 2 channels 10 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 2 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 2 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 2 kHz,80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 2 channels 4 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 2 channels, up to 1 kHz
2 channel measurements in data logger mode. Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 2 channels, up to 1 kHz, 200 mV range (400 mVpp max)
2 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 400 mV range (800 mVpp max)
2 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 800 mV range (1.6 Vpp max)
2 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 2 V range (4 Vpp max)
2 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 4 V range (8 Vpp max)
2 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 8 V range (16 Vpp max)
2 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 20 V range (40 Vpp max)
2 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 40 V range (80 Vpp max)
2 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 2 channels, up to 1 kHz, 80 V range (160 Vpp max)
2 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 2 channels 2 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels
4 channel measurements in data logger mode.
Data logger 4 channels
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
Signal logging, 4 channels, up to 500 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 500 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 500 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 500 kHz can be measured.
Data logger 4 channels 1 MHz sample frequency 20 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 20 seconds. When a block of 20 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 250 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 250 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 250 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 250 kHz can be measured.
Data logger 4 channels 500 kHz sample frequency 30 seconds block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 30 seconds. When a block of 30 seconds is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 125 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 125 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 125 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 125 kHz can be measured.
Data logger 4 channels 250 kHz sample frequency 1 minute block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 50 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 50 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 50 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 50 kHz can be measured.
Data logger 4 channels 100 kHz sample frequency 2 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 2 minutes. When a block of 2 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 25 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 25 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 25 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 25 kHz can be measured.
Data logger 4 channels 50 kHz sample frequency 5 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 5 minutes. When a block of 5 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 10 kHz
4 channel measurements in data logger mode Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 10 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 10 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 10 kHz can be measured.
Data logger 4 channels 20 kHz sample frequency 10 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 10 minutes. When a block of 10 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 5 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 5 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 5 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 5 kHz can be measured.
Data logger 4 channels 10 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 2 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 2 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 2 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 2 kHz can be measured.
Data logger 4 channels 4 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Signal logging, 4 channels, up to 1 kHz
4 channel measurements in data logger mode. Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Signal logging, 4 channels, up to 1 kHz, 200 mV range (400 mVpp max)
4 channel measurements in data logger mode, with an input range of 200 mV range (400 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 200 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 400 mV range (800 mVpp max)
4 channel measurements in data logger mode, with an input range of 400 mV range (800 mVpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 400 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 800 mV range (1.6 Vpp max)
4 channel measurements in data logger mode, with an input range of 800 mV range (1.6 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 800 mV input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 2 V range (4 Vpp max)
4 channel measurements in data logger mode, with an input range of 2 V range (4 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 2 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 4 V range (8 Vpp max)
4 channel measurements in data logger mode, with an input range of 4 V range (8 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 4 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 8 V range (16 Vpp max)
4 channel measurements in data logger mode, with an input range of 8 V range (16 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 8 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 20 V range (40 Vpp max)
4 channel measurements in data logger mode, with an input range of 20 V range (40 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 20 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 40 V range (80 Vpp max)
4 channel measurements in data logger mode, with an input range of 40 V range (80 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 40 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
Signal logging, 4 channels, up to 1 kHz, 80 V range (160 Vpp max)
4 channel measurements in data logger mode, with an input range of 80 V range (160 Vpp max). Signals with frequencies up to 1 kHz can be measured.
Data logger 4 channels 2 kHz sample frequency 15 minutes block size 80 V input range DC coupling
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
Hint: Drag the right scrollbar slider edge in the lower graph to change the zoom factor or use Ctrl + left mouse button to zoom in. Press the U key to undo zoom.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage
Logging mains voltage.
These quick setups allow to log mains voltage, using a TP450 or Handyprobe HP3. Each individual cycle of the mains voltage is logged, as well as the RMS value and the frequency of the mains voltage. Results are automatically logged to disk.
There are Quick Setups available for several common mains voltage systems.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- These measurements and procedures are examples / measuring suggestions and are no prescribed protocols.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 110V AC, 60 Hz
1 channel measurement in data logger mode, setup for 110 V AC 60 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 120V AC, 60 Hz
1 channel measurement in data logger mode, setup for 120 V AC 60 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 220V AC, 50 Hz
1 channel measurement in data logger mode, setup for 220 V AC 50 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage.
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 220V AC, 60 Hz
1 channel measurement in data logger mode, setup for 220 V AC 60 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage.
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 230V AC, 50 Hz
1 channel measurement in data logger mode, setup for 230 V AC 50 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage.
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains voltage logging, 240V AC, 50 Hz
1 channel measurement in data logger mode, setup for 240 V AC 50 Hz mains voltage. The measurement shows the actual mains voltage signal (each individual cycle), the RMS value and the frequency of the mains voltage.
Data logger 1 channel 15 minute block size
In data logger mode, the input signals are measured continuously, uninterrupted for a specified time. No time gaps will occur in the measured signals. The measured signals are immediately shown.
The setup measures in blocks of 15 minutes. When a block of 15 minutes is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Mains power
Measuring mains power.
Accessoires used:
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- These measurements and procedures are examples / measuring suggestions and are no prescribed protocols.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
1 phase
Measuring 1 phase mains power in data logger mode.
1 phase mains voltage logging
Measure 1 phase mains voltage in data logger mode.
The data logger shows a time domain graph and a meter displays RMS, mean and frequency.
The data logger measures in chunks of 1 hour which are automatically saved to disk.
Accessories used:
Instructions:
- Channel 1 connected to the Differential probe SI-9002 which is set to 1:200 attenuation.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
1 phase mains voltage, current and power logging
Measuring 1 phase mains voltage, current and power in data logger mode.
The data logger shows a time domain graph and a meter displays RMS, mean and frequency.
The data logger measures in chunks of 1 hour which are automatically saved to disk.
Accessories used:
Instructions:
- Channel 1 connected to the Differential probe SI-9002 which is set to 1:200 attenuation.
- Channel 2 connected to the Current clamp TP-CC80 which is set to the 20 A AC range, zero it before measuring.
More information on using the Differential probe SI-9002
More information on using the Current clamp TP-CC80
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
3 phase
Measuring 3 phase mains power in data logger mode.
3 phase mains current logging
Measuring 3 phase mains current in data logger mode.
The data logger shows a time domain graph and a meter displays RMS, mean and frequency.
The data logger measures in chunks of 1 hour which are automatically saved to disk.
Accessories used:
Instructions:
- Channel 1, 2 and 3 are each connected to a Current clamp TP-CC80 which is set to the 20 A AC range, zero them before measuring.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
3 phase mains voltage logging
Measuring 3 phase mains voltage in data logger mode.
The data logger shows a time domain graph and a meter displays RMS, mean and frequency.
The data logger measures in chunks of 1 hour which are automatically saved to disk.
Accessories used:
Instructions:
- Channel 1, 2 and 3 are each connected to a Differential probe SI-9002 which are set to 1:200 attenuation.
SAFETY WARNING:
- Measuring voltages over 30 V AC RMS, 42 V AC peak and 60 V DC is dangerous and needs to be carried out by qualified professionals.
- Keep a clean working environment when performing measurements.
- This measurement and procedure is an example / measuring suggestion and is no prescribed protocol.
- TiePie engineering can not anticipate the safety actions that need to be taken to protect persons and appliances. Before starting a measurement, check which safety measures need to be applied.
Multimeter
Measure current, voltage or resistance in multimeter mode.
Current measurements require a Current clamp TP-CC80 connected to Ch1.
Voltage measurements are performed using Ch1 of the oscilloscope.
Resistance measurements are performed with Ch1 of the oscilloscope with SureConnect technology.
Multimeter, current
Measure current in multimeter mode, using a Current clamp TP-CC80.
Multimeter, AC current
Measure AC current in multimeter mode, using a Current clamp TP-CC80.
Multimeter, AC current, frequencies up to 50-60 Hz
Measure AC current with frequencies up to 50-60 Hz in multimeter mode, using a Current clamp TP-CC80.
Channel 1 is connected to the Current clamp TP-CC80 which is set to the 80 A AC range.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
More information on current measurements
More information on the multimeter
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC current, frequencies up to 1 kHz
Measure AC current with frequencies up to 1 kHz in multimeter mode, using a Current clamp TP-CC80.
Channel 1 is connected to the Current clamp TP-CC80 which is set to the 80 A AC range.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
More information on current measurements
More information on the multimeter
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC current, frequencies up to 20 kHz
Measure AC current with frequencies up to 20 kHz in multimeter mode, using a Current clamp TP-CC80.
Channel 1 is connected to the Current clamp TP-CC80 which is set to the 80 A AC range.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
More information on current measurements
More information on the multimeter
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, DC current
Measure DC current in multimeter mode, using a Current clamp TP-CC80.
Channel 1 is connected to the Current clamp TP-CC80, which is set to the 80 A DC range.
Shown are:
- RMS value (in a gauge meter)
- Mean value
- Maximum - minimum value
- Maximum value
More information on current measurements
More information on the multimeter
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC voltage, frequencies up to 50-60 Hz
Measure AC voltage with frequencies up to 50-60 Hz in multimeter mode with channel 1.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC voltage, frequencies up to 1 kHz
Measure AC voltage with frequencies up to 1 kHz in multimeter mode with channel 1.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC voltage, frequencies up to 20 kHz
Measure AC voltage with frequencies up to 20 kHz in multimeter mode with channel 1.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, AC voltage, frequencies up to 1 MHz
Measure AC voltage with frequencies up to 1 MHz in multimeter mode with channel 1.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Signal frequency
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, DC voltage
Measure DC voltage in multimeter mode with channel 1.
Shown are:
- RMS value (on a gauge meter)
- Mean value
- Maximum - minimum value
- Maximum value
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Multimeter, resistance
Measure resistance in multimeter mode.
Connect the channel 1 probe over the resistor or potentiometer to measure its resistance.
Shown are:
- Mean value (on a gauge meter)
- Mean value
- Maximum value
Hint:
Place your mouse on a meter display and use the right mouse button to change settings.
Spectrum analyzer
Measure frequency components of a signal in spectrum analyzer mode.
The spectrum analyzer uses the FFT I/O.
Spectrum analyzer, 1 channel
Measure the frequency components of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 500 MHz
Measure frequency components up to 500 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 1 GHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 250 MHz
Measure frequency components up to 250 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 500 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 100 MHz
Measure frequency components up to 100 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 200 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 50 MHz
Measure frequency components up to 50 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 100 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 25 MHz
Measure frequency components up to 25 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 50 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 10 MHz
Measure frequency components up to 10 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 20 MHz sample frequency 200 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 2.5 MHz
Measure frequency components up to 2.5 MHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 5 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 250 kHz
Measure frequency components up to 250 kHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 500 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 1 channel, 0 Hz to 100 kHz
Measure frequency components up to 100 kHz of 1 signal in spectrum analyzer mode.
Spectrum analyzer 1 channel 200 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels
Measure the frequency components of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 250 MHz
Measure frequency components up to 250 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 500 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 100 MHz
Measure frequency components up to 100 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 200 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 50 MHz
Measure frequency components up to 50 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 100 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 25 MHz
Measure frequency components up to 25 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 50 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 10 MHz
Measure frequency components up to 10 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 20 MHz sample frequency 200 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 2.5 MHz
Measure frequency components up to 2.5 MHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 5 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 250 kHz
Measure frequency components up to 250 kHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 500 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 2 channels, 0 Hz to 100 kHz
Measure frequency components up to 100 kHz of 2 signals in spectrum analyzer mode.
Spectrum analyzer 2 channels 200 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels
Measure the frequency components of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 100 MHz
Measure frequency components up to 100 MHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 200 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 50 MHz
Measure frequency components up to 50 MHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 100 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 25 MHz
Measure frequency components up to 25 MHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 50 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 12.5 MHz
Measure frequency components up to 12.5 MHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 25 MHz sample frequency 131 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 2.5 MHz
Measure frequency components up to 2.5 MHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 5 MHz sample frequency 100 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 250 kHz
Measure frequency components up to 250 kHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 500 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Spectrum analyzer, 4 channels, 0 Hz to 100 kHz
Measure frequency components up to 100 kHz of 4 signals in spectrum analyzer mode.
Spectrum analyzer 4 channels 200 kHz sample frequency 20 kSamples record length Blackman-Harris FFT window Autoranging input range AC coupling
Time domain and frequency domain are displayed in separate graphs.
Circuit sweep
Perform a frequency sweep to determine the frequency response of a circuit.
Circuit sweep from 4 MHz to 40 MHz
Perform a frequency sweep from 4 MHz to 40 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 3 MHz to 30 MHz
Perform a frequency sweep from 3 MHz to 30 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 2 MHz to 20 MHz
Perform a frequency sweep from 2 MHz to 20 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 1 MHz to 10 MHz
Perform a frequency sweep from 1 MHz to 10 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 500 kHz to 5 MHz
Perform a frequency sweep from 500 kHz to 5 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 100 kHz to 1 MHz
Perform a frequency sweep from 100 kHz to 1 MHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 10 kHz to 100 kHz
Perform a frequency sweep from 10 kHz to 100 kHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
Circuit sweep from 20 Hz to 20 kHz
Perform a frequency sweep from 20 Hz to 20 kHz to determine the frequency response of a circuit.
An oscilloscope graph shows the time domain of the sweep, both input and output of the circuit.
A spectrum analyzer graph shows the frequency spectrum of the sweep, both input and output of the circuit. An additional line in the graph shows the gain of the circuit.
Connect the
- AWG output to the circuit input
- Ch1 to the circuit input
- Ch2 to the circuit output
CAN analyzer
Analyze data transferred on a CAN bus.
CAN uses a differential bus to transport the data. To measure and analyzer the CAN communication, the scope can be connected in three different ways:
- using one single ended input channel, connected to the CAN-high signal and CAN-GND
- using two single ended input channels, connected to respectively the CAN-high and CAN-low signal and CAN-GND
- using one differential input channel, connected to the CAN-high and CAN-low signal
1 single ended channel
Analyze data transferred on a CAN bus, measured using 1 single ended input channel, connected to CAN-high and CAN-GND.
The CAN bus can operate at different bit rates, select the appropriate bit rate.
1 single ended channel, CAN bitrate 10 kb/s
Analyze data transferred on a 10 kb/s CAN bus, measured using 1 single ended channel.
Connect the positive probe to CAN-high and negative probe to CAN-GND.
1 single ended channel, CAN bitrate 125 kb/s
Analyze data transferred on a 125 kb/s CAN bus, measured using 1 single ended channel.
Connect the positive probe to CAN-high and negative probe to CAN-GND.
1 single ended channel, CAN bitrate 250 kb/s
Analyze data transferred on a 250 kb/s CAN bus, measured using 1 single ended channel.
Connect the positive probe to CAN-high and negative probe to CAN-GND.
1 single ended channel, CAN bitrate 500 kb/s
Analyze data transferred on a 500 kb/s CAN bus, measured using 1 single ended channel.
Connect the positive probe to CAN-high and negative probe to CAN-GND.
1 single ended channel, CAN bitrate 1Mb/s
Analyze data transferred on a 1 Mb/s CAN bus, measured using 1 single ended channel.
Connect the positive probe to CAN-high and negative probe to CAN-GND.
2 single ended channels
Analyze data transferred on a CAN bus, measured using 2 single ended channels connected to respectively CAN-high and CAN-low and to CAN-GND.
The CAN bus can operate at different bit rates, select the appropriate bit rate.
2 channels, CAN bitrate 10 kb/s
Analyze data transferred on a 10 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN_GND.
2 channels, CAN bitrate 125 kb/s
Analyze data transferred on a 125 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN_GND.
2 channels, CAN bitrate 250 kb/s
Analyze data transferred on a 250 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN_GND.
2 channels, CAN bitrate 500 kb/s
Analyze data transferred on a 500 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN_GND.
2 channels, CAN bitrate 1 Mb/s
Analyze data transferred on a 1 Mb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN_GND.
1 differential channel
Analyze data transferred on a CAN bus, measured using 1 differential channel connected to CAN-high and CAN-low.
The CAN bus can operate at different bit rates, select the appropriate bit rate.
1 differential channel, CAN bitrate 10 kb/s
Analyze data transferred on a 10 kb/s CAN bus, measured using 1 differential channel.
Connect the positive probe to CAN-high and the negative probe to CAN-low.
1 differential channel, CAN bitrate 125 kb/s
Analyze data transferred on a 125 kb/s CAN bus, measured using 1 differential channel.
Connect the positive probe to CAN-high and the negative probe to CAN-low.
1 differential channel, CAN bitrate 250 kb/s
Analyze data transferred on a 250 kb/s CAN bus, measured using 1 differential channel.
Connect the positive probe to CAN-high and the negative probe to CAN-low.
1 differential channel, CAN bitrate 500 kb/s
Analyze data transferred on a 500 kb/s CAN bus, measured using 1 differential channel.
Connect the positive probe to CAN-high and the negative probe to CAN-low.
1 differential channel, CAN bitrate 1Mb/s
Analyze data transferred on a 1 Mb/s CAN bus, measured using 1 differential channel.
Connect the positive probe to CAN-high and the negative probe to CAN-low.
I2C analyzer
Analyze data transferred via an I2C bus.
Besides I2C busses, the I2C analyzer also supports related buses like SMBus, ACCESS.bus and TWI.
I2C Low speed mode (10 kHz)
Analyze data transferred on an I2C bus operating in low speed mode (10 kHz).
Channel 1 = SCL Channel 2 = SDA
I2C Standard mode (100 kHz)
Analyze data transferred on an I2C bus operating in standard mode (100 kHz).
Channel 1 = SCL Channel 2 = SDA
I2C Fast mode (400 kHz)
Analyze data transferred on an I2C bus operating in fast mode (400 kHz).
Channel 1 = SCL Channel 2 = SDA
I2C Fast mode plus (1 MHz)
Analyze data transferred on an I2C bus operating in fast mode plus (1 MHz).
Channel 1 = SCL Channel 2 = SDA
I2C High speed mode (4.3 MHz)
Analyze data transferred on an I2C bus operating in high speed mode (4.3 MHz).
Channel 1 = SCL Channel 2 = SDA
I2C Ultra fast mode (5 MHz)
Analyze data transferred on an I2C bus operating in Ultra fast mode (5 MHz).
Channel 1 = SCL Channel 2 = SDA
1 (differential) channel
Analyze J1939 messages transferred via a CAN bus with J1939 protocol, measured using 1 (differential) channel.
J1939 (250 kb/s) 1 (differential) channel
Analyze J1939 messages transferred on a 250 kb/s CAN bus, measured using 1 (differential) channel.
Differential measurement: Connect the positive probe to CAN-high and negative probe to CAN-low. Set the CAN analyzer midlevel to 0.7 V.
Single ended measurement: Connect the positive probe to CAN-high and negative probe to CAN-GND. Set the CAN analyzer midlevel to 3 V.
J1939 (500 kb/s) 1 (differential) channel
Analyze J1939 messages transferred on a 500 kb/s CAN bus, measured using 1 (differential) channel.
Differential measurement: Connect the positive probe to CAN-high and negative probe to CAN-low. Set the CAN analyzer midlevel to 0.7 V.
Single ended measurement: Connect the positive probe to CAN-high and negative probe to CAN-GND. Set the CAN analyzer midlevel to 3 V.
2 channels
Analyze J1939 messages transferred via a CAN bus with J1939 protocol, measured using 2 channels.
J1939 (250 kb/s) 2 channels
Analyze J1939 messages transferred on a 250 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN-GND.
J1939 (500 kb/s) 2 channels
Analyze J1939 messages transferred on a 500 kb/s CAN bus, measured using 2 channels.
Connect the positive probe of channel 1 to CAN-high, the positive probe of channel 2 to CAN-low and the negative probes of both channels to CAN-GND.
Serial analyzer
Analyze data transferred via a serial bus.
The serial analyzer supports RS232 serial interfaces, as well as related interfaces like RS485, MIDI, DMX and other compatible buses.
TxD or RxD (1 channel)
Analyze TxD or RxD data transferred via a serial bus, measured using 1 channel.
Serial, TxD or RxD, 110 baud
Analyze TxD or RxD data transferred via a 110 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 300 baud
Analyze TxD or RxD data transferred via a 300 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 1200 baud
Analyze TxD or RxD data transferred via a 1200 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 2400 baud
Analyze TxD or RxD data transferred via a 2400 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 4800 baud
Analyze TxD or RxD data transferred via a 4800 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 9600 baud
Analyze TxD or RxD data transferred via a 9600 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 19200 baud
Analyze TxD or RxD data transferred via a 19200 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 38400 baud
Analyze TxD or RxD data transferred via a 38400 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 57600 baud
Analyze TxD or RxD data transferred via a 57600 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
Serial, TxD or RxD, 115200 baud
Analyze TxD or RxD data transferred via a 115200 baud serial bus, measured using 1 channel.
Channel 1 = TxD or RxD
TxD and RxD (2 channels)
Analyze TxD and RxD data transferred via a serial bus, measured using 2 channels.
Serial, TxD and RxD, 110 baud
Analyze TxD and RxD data transferred via a 110 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 300 baud
Analyze TxD and RxD data transferred via a 300 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 1200 baud
Analyze TxD and RxD data transferred via a 1200 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 2400 baud
Analyze TxD and RxD data transferred via a 2400 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 4800 baud
Analyze TxD and RxD data transferred via a 4800 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 9600 baud
Analyze TxD and RxD data transferred via a 9600 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 19200 baud
Analyze TxD and RxD data transferred via a 19200 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 34800 baud
Analyze TxD and RxD data transferred via a 34800 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 57600 baud
Analyze TxD and RxD data transferred via a 57600 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
Serial, TxD and RxD, 115200 baud
Analyze TxD and RxD data transferred via a 115200 baud serial bus, measured using 2 channels.
Channel 1 = TxD Channel 2 = RxD
SPI decoder
Analyze data transferred via SPI.
Supported SPI modes are:
- Mode 0
- Mode 1
- Mode 2
- Mode 3
Both two channel measurements (clock and data) and four channel measurements (clock, data, miso, mosi, !CS) can be analyzed.
SPI decoder, Mode 0
Analyze data transferred via SPI, Mode 0:
Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Both two channel measurements (clock and data) and four channel measurements (clock, data, miso, mosi, !CS) can be analyzed.
Setups for different maximum SPI rates are available.
SPI decoder, Mode 0, 50 MHz, 4 channels
Analyze data transferred via 50 MHz SPI, Mode 0, measuring 4 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 25 MHz, 4 channels
Analyze data transferred via 25 MHz SPI, Mode 0, measuring 4 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 10 MHz, 4 channels
Analyze data transferred via 10 MHz SPI, Mode 0, measuring 4 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 1 MHz, 4 channels
Analyze data transferred via 1 MHz SPI, Mode 0, measuring 4 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 50 MHz, 2 channels
Analyze data transferred via 50 MHz SPI, Mode 0, measuring 2 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 25 MHz, 2 channels
Analyze data transferred via 25 MHz SPI, Mode 0, measuring 2 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 10 MHz, 2 channels
Analyze data transferred via 10 MHz SPI, Mode 0, measuring 2 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 0, 1 MHz, 2 channels
Analyze data transferred via 1 MHz SPI, Mode 0, measuring 2 channels
Mode 0: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1
Analyze data transferred via SPI, Mode 1:
Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Both two channel measurements (clock and data) and four channel measurements (clock, data, miso, mosi, !CS) can be analyzed.
Setups for different maximum SPI rates are available.
SPI decoder, Mode 1, 50 MHz, 4 channels
Analyze data transferred via 50 MHz SPI, Mode 1, measuring 4 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 25 MHz, 4 channels
Analyze data transferred via 25 MHz SPI, Mode 1, measuring 4 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 10 MHz, 4 channels
Analyze data transferred via 10 MHz SPI, Mode 1, measuring 4 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 1 MHz, 4 channels
Analyze data transferred via 1 MHz SPI, Mode 1, measuring 4 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 50 MHz, 2 channels
Analyze data transferred via 50 MHz SPI, Mode 1, measuring 2 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 25 MHz, 2 channels
Analyze data transferred via 25 MHz SPI, Mode 1, measuring 2 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 10 MHz, 2 channels
Analyze data transferred via 10 MHz SPI, Mode 1, measuring 2 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 1, 1 MHz, 2 channels
Analyze data transferred via 1 MHz SPI, Mode 1, measuring 2 channels
Mode 1: Clock Polarity (CPOL) = 0, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2
Analyze data transferred via SPI, Mode 2:
Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Both two channel measurements (clock and data) and four channel measurements (clock, data, miso, mosi, !CS) can be analyzed.
Setups for different maximum SPI rates are available.
SPI decoder, Mode 2, 50 MHz, 4 channels
Analyze data transferred via 50 MHz SPI, Mode 2, measuring 4 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 25 MHz, 4 channels
Analyze data transferred via 25 MHz SPI, Mode 2, measuring 4 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 10 MHz, 4 channels
Analyze data transferred via 10 MHz SPI, Mode 2, measuring 4 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 1 MHz, 4 channels
Analyze data transferred via 1 MHz SPI, Mode 2, measuring 4 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 50 MHz, 2 channels
Analyze data transferred via 50 MHz SPI, Mode 2, measuring 2 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 25 MHz, 2 channels
Analyze data transferred via 25 MHz SPI, Mode 2, measuring 2 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 10 MHz, 2 channels
Analyze data transferred via 10 MHz SPI, Mode 2, measuring 2 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 2, 1 MHz, 2 channels
Analyze data transferred via 1 MHz SPI, Mode 2, measuring 2 channels
Mode 2: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 0
Ch1 : Clock Ch2 : Data
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3
Analyze data transferred via SPI, Mode 3:
Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Both two channel measurements (clock and data) and four channel measurements (clock, data, miso, mosi, !CS) can be analyzed.
Setups for different maximum SPI rates are available.
SPI decoder, Mode 3, 50 MHz, 4 channels
Analyze data transferred via 50 MHz SPI, Mode 3, measuring 4 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 25 MHz, 4 channels
Analyze data transferred via 25 MHz SPI, Mode 3, measuring 4 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 10 MHz, 4 channels
Analyze data transferred via 10 MHz SPI, Mode 3, measuring 4 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
The channels are connected using X10 attenuating probes.
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 1 MHz, 4 channels
Analyze data transferred via 1 MHz SPI, Mode 3, measuring 4 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Miso Ch3 : Mosi Ch4 : Chip select (!CS)
Triggering is done on Ch4: Chip select.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 50 MHz, 2 channels
Analyze data transferred via 50 MHz SPI, Mode 3, measuring 2 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 25 MHz, 2 channels
Analyze data transferred via 25 MHz SPI, Mode 3, measuring 2 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 10 MHz, 2 channels
Analyze data transferred via 10 MHz SPI, Mode 3, measuring 2 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
The channels are connected using X10 attenuating probes.
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
SPI decoder, Mode 3, 1 MHz, 2 channels
Analyze data transferred via 1 MHz SPI, Mode 3, measuring 2 channels
Mode 3: Clock Polarity (CPOL) = 1, Clock Phase (CPHA) = 1
Ch1 : Clock Ch2 : Data
Triggering is done on Ch1: Clock.
The decoded SPI data is shown in a table.
SPI bit order is set to MSB first. SPI word size is set to 8 bit.
Further settings can be made to set the proper bit order and word size, for more information, read more...
Miscellaneous measurements
This category contains templates for miscellaneous measurements, like e.g.
- Current measurmeents using current clamps
- Duty cycle measurements on PWM signals
- Frequency logging measurements
- Acceleration measurements
- Encoder measurements
Current measurements
Measure current in oscilloscope mode, using a TiePie engineering current clamp or a universal current clamp.
Current clamp TP-CC80
Measure current in oscilloscope mode using a Current clamp TP-CC80.
AC current up to 20 A
Measure AC current up to 20 A in oscilloscope mode using a Current clamp TP-CC80.
Connect the Current clamp TP-CC80 to channel 1, switch it on in the 20 A AC range and zero it before measuring.
AC current up to 80 A
Measure AC current up to 80 A in oscilloscope mode using a Current clamp TP-CC80.
Connect the Current clamp TP-CC80 to channel 1, switch it on in the 80 A AC range and zero it before measuring.
DC current up to 20 A
Measure DC current up to 20 A in oscilloscope mode using a Current clamp TP-CC80.
Connect the Current clamp TP-CC80 to channel 1, switch it on in the 20 A DC range and zero it before measuring.
DC current up to 80 A
Measure DC current up to 80 A in oscilloscope mode using a Current clamp TP-CC80.
Connect the Current clamp TP-CC80 to channel 1, switch it on in the 80 A DC range and zero it before measuring.
Current clamp TP-CC400
Measure current in oscilloscope mode using a TP-CC400 current clamp.
AC current up to 400 A
Measure AC current up to 400 A in oscilloscope mode using a TP-CC400 current clamp.
Connect the current clamp TP-CC400 to channel 1, switch it on in the 400 A AC range and zero it before measuring.
AC current up to 40 A
Measure AC current up to 40 A in oscilloscope mode using a TP-CC400 current clamp.
Connect the current clamp TP-CC400 to channel 1, switch it on in the 40 A AC range and zero it before measuring.
DC current up to 400 A
Measure DC current up to 400 A in oscilloscope mode using a TP-CC400 current clamp.
Connect the current clamp TP-CC400 to channel 1, switch it on in the 400 A DC range and zero it before measuring.
DC current up to 40 A
Measure DC current up to 40 A in oscilloscope mode using a TP-CC400 current clamp.
Connect the current clamp TP-CC400 to channel 1, switch it on in the 40 A DC range and zero it before measuring.
Current clamp TP-CC600
Measure current in oscilloscope mode using a Current clamp TP-CC600.
AC current up to 200 A
Measure AC current up to 200 A in oscilloscope mode using a Current clamp TP-CC600.
Connect the Current clamp TP-CC600 to channel 1, switch it on in the 200 A AC range and zero it before measuring.
AC current up to 600 A
Measure AC current up to 600 A in oscilloscope mode using a Current clamp TP-CC600.
Connect the Current clamp TP-CC600 to channel 1, switch it on in the 600 A AC range and zero it before measuring.
DC current up to 200 A
Measure DC current up to 200 A in oscilloscope mode using a Current clamp TP-CC600.
Connect the Current clamp TP-CC600 to channel 1, switch it on in the 200 A DC range and zero it before measuring.
DC current up to 600 A
Measure DC current up to 600 A in oscilloscope mode using a Current clamp TP-CC600.
Connect the Current clamp TP-CC600 to channel 1, switch it on in the 600 A DC range and zero it before measuring.
Measure current using a universal current clamp
Measure AC or DC current in oscilloscope mode using a universal current clamp.
Refer to the manual or datasheet of the current clamp for the sensitivity of the current clamp.
Sensitivity is 1 mV/A or 1000 A/V
Measure current in oscilloscope mode using a universal current clamp with a sensitivity of 1 mV/A or 1000 A/V.
Connect the current clamp to channel 1, switch it on and zero it before measuring.
Sensitivity is 5 mV/A or 200 A/V
Measure current in oscilloscope mode using a universal current clamp with a sensitivity of 5 mV/A or 200 A/V.
Connect the current clamp to channel 1, switch it on and zero it before measuring.
Sensitivity is 10 mV/A or 100 A/V
Measure current in oscilloscope mode using a universal current clamp with a sensitivity of 10 mV/A or 100 A/V.
Connect the current clamp to channel 1, switch it on and zero it before measuring.
Sensitivity is 50 mV/A or 20 A/V
Measure current in oscilloscope mode using a universal current clamp with a sensitivity of 50 mV/A or 20 A/V.
Connect the current clamp to channel 1, switch it on and zero it before measuring.
Sensitivity is 100 mV/A or 10 A/V
Measure current in oscilloscope mode using a universal current clamp with a sensitivity of 100 mV/A or 10 A/V.
Connect the current clamp to channel 1, switch it on and zero it before measuring.
Duty cycle
Measure the duty cycle of a pulse width modulated (PWM) signal of your motor controller, LED driver or switch mode power supply and show it as percentage versus time.
Duty cycle is defined as the ratio between the time that a signal is "active" and the period. It is usually expressed as a percentage.
When a signal is "active high", a standard duty cycle measurement is required. When a signal is "active low", an inverted duty cycle measurement is required.
Unique:
This unique duty cycle measurement allows you to measure the variation of a duty cycle signal in time.
Applications:
- PWM motor controller : let the motor accelerate and decellerate and watch the motor profile
- PWM LED controller: record the dimming behavior of the LED controller and check its linearity
- PWM power supply: connect different loads and measure the voltage control
Measure momentary duty cycle
Measures and displays the duty cycle of "active high" pulse width modulated signals with frequencies between 10 Hz and 1 kHz.
Duty cycle value is displayed both in a large gauge meter and a numerical meter.
Ch1 is used to measure the pulse width modulated signal.
Log the duty cycle of pwm signals up to 500 Hz
Log the duty cycle of an "active high" pulse width modulated signal with pulse frequencies up to 500 Hz and display the duty cycle changes versus time.
Ch1 is used to measure the pulse width modulated signal.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Log the duty cycle of pwm signals up to 20 kHz
Log the duty cycle of an "active high" pulse width modulated signal with pulse frequencies up to 20 kHz and display the duty cycle changes versus time.
Ch1 is used to measure the pulse width modulated signal.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Duty cycle inverted
Measure the duty cycle of "active low" pulse width modulated signals.
Measure momentary duty cycle
Measures and displays the duty cycle of "active high" pulse width modulated signals with frequencies between 10 Hz and 1 kHz.
Duty cycle value is displayed both in a large gauge meter and a numerical meter.
Ch1 is used to measure the pulse width modulated signal.
Log the duty cycle of pwm signals up to 500 Hz
Log the duty cycle of an "active low" pulse width modulated signal with pulse frequencies up to 500 Hz and display the duty cycle changes versus time.
Ch1 is used to measure the pulse width modulated signal.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Log the duty cycle of pwm signals up to 20 kHz
Log the duty cycle of an "active low" pulse width modulated signal with pulse frequencies up to 20 kHz and display the duty cycle changes versus time.
Ch1 is used to measure the pulse width modulated signal.
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Log the frequency change of a signal against time.
Measure and log the frequency changes of signals. The frequency changes are displayed against time in a graph.
Log the frequency of signals up to 200 kHz
Log the frequency of a signal with frequencies up to 200 kHz and display the frequency changes versus time.
Ch1 is used to measure the signal. More information on frequency measuring
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Log the frequency of signals up to 20 kHz
Log the frequency of a signal with frequencies up to 20 kHz and display the frequency changes versus time.
Ch1 is used to measure the signal. More information on frequency measuring
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Log the frequency of signals up to 400 Hz
Log the frequency of a signal with frequencies up to 400 Hz and display the frequency changes versus time.
Ch1 is used to measure the signal. More information on frequency measuring
The setup measures in blocks of 1 minute. When a block of 1 minute is measured, it is automatically saved to disk and the measurement continues with the next block. The measurement is stored with date and time of starting the measurement as name.
When the measurement is ready, the total measurement can be reviewed by loading the corresponding index file via the File menu and option Load data collector index file... More information on collecting data
Accelerometer measurements
Measurement applications with the TiePie engineering Accelerometer Accelerometer TP-ACC20.
Acceleration measurement
Measure acceleration in two directions using the Accelerometer Accelerometer TP-ACC20.
- Connect the D-sub connector of the Accelerometer TP-ACC20 to the extension connector at the rear of the instrument.
- Connect the x axis output connector (red) of the Accelerometer TP-ACC20 to Ch1 of the instrument.
- Connect the y axis output connector (yellow) of the Accelerometer TP-ACC20 to Ch2 of the instrument.
- Place the Accelerometer Accelerometer TP-ACC20 on a level surface, with the label facing up.
Displacement measurement
Measure displacement in two diretions using the Accelerometer Accelerometer TP-ACC20.
- Connect the D-sub connector of the Accelerometer TP-ACC20 to the extension connector at the rear of the instrument.
- Connect the x axis output connector (red) of the Accelerometer TP-ACC20 to Ch1 of the instrument.
- Connect the y axis output connector (yellow) of the Accelerometer TP-ACC20 to Ch2 of the instrument.
- Place the Accelerometer Accelerometer TP-ACC20 on a level surface, with the label facing up.
Engine power measurement
Turn your scope into a portable dyno.
Measure the engine power of a car or bike while driving the vehicle, using the Accelerometer Accelerometer TP-ACC20. The measured engine power is given in kW and hp.
For information on performing this test, read the measurement instructions.
Unique:
With this portable dyno tester you can determine the engine power of each car or bike in just a few minutes. This measurement is not found with any other oscilloscope.
Vibration analysis measurement
Measure (wanted or unwanted) vibration in a mechanical system in two directions using the Accelerometer Accelerometer TP-ACC20 and show the frequency spectrum of the vibration in a graph.
The position of a peak in the spectrum indicates the vibration frequency. The height of a peak in the spectrum indicates the vibration amplitude at that frequency.
- Connect the D-sub connector of the Accelerometer TP-ACC20 to the extension connector at the rear of the instrument.
- Connect the x axis output connector (red) of the Accelerometer TP-ACC20 to Ch1 of the instrument.
- Connect the y axis output connector (yellow) of the Accelerometer TP-ACC20 to Ch2 of the instrument.
- Place the Accelerometer Accelerometer TP-ACC20 on a level surface, with the label facing up.
Encoder measurements
Measure the A and B signal of an incremental encoder (quadrature encoder) and show the relative position in a graph.
Templates are available for measuring the encoder position in a single, short measurement of 2 seconds and for a long continuous measurement of 20 seconds.
Single encoder position measurement
Perform a single, 2 seconds long measurement on the A and B signals of an incremental encoder and display the relative position change in a graph.
Connect:
- encoder signal A to Ch1
- encoder signal B to Ch2
Continuous encoder position measurement
Perform a 20 seconds long continuous measurement on the A and B signals of an incremental encoder and display the relative position change in a graph.
Connect:
- encoder signal A to Ch1
- encoder signal B to Ch2
Automotive
Automotive related measurements.
Sensor
Measurements on commonly found automotive sensors.
ABS sensors
Measurements on ABS sensors.
ABS sensor Hall effect
Lab scope measurement at an Hall effect ABS sensor on a wheel that is turned by hand.
Channel 1 is connected to the ABS sensor signal. Channel 2 is connected to the ABS sensor power supply.
ABS sensor inductive
Lab scope measurement at an inductive ABS sensor on a wheel that is turned by hand.
Channel 1 is connected to the ABS sensor.
Acceleration pedal sensors
Measurements at acceleration pedal sensors.
Acceleration pedal sensor
Lab scope measurement at an acceleration pedal position sensor, with the key turned on and no running engine.
Channel 1 is connected to signal output 1 of the acceleration pedal position sensor. Channel 2 is connected to signal output 2 of the acceleration pedal position sensor. Channel 3 is connected to power input 1 of the acceleration pedal position sensor. Channel 4 is connected to power input 2 of the acceleration pedal position sensor.
Air flow sensors
Measurements at air flow sensors.
Mass Air Flow (MAF) vane sensor
Lab scope measurement on an air flow sensor of a running engine under various conditions.
Channel 1 is connected to the signal line of the sensor. Channel 2 is connected to the power line of the sensor.
Mass Air Flow (MAF) hot wire sensor
Lab scope measurement on a Mass Air Flow (MAF) of a running engine under various conditions.
Channel 1 is connected to the signal line of the sensor. Channel 2 is connected to the power line of the sensor.
Camshaft sensors
Measurements at camshaft sensors.
Camshaft sensor Hall
Lab scope measurement at a Hall effect camshaft sensor during cranking of an engine.
Channel 1 is connected to the signal line of the sensor. Channel 2 is connected to the power line of the sensor.
Camshaft sensor inductive, starting engine
Lab scope measurement on an inductive camshaft sensor during cranking an engine.
Channel 1 is connected to the signal line of the sensor.
Camshaft sensor inductive, running engine
Lab scope measurement at an inductive camshaft sensor on an idling engine.
Channel 1 is connected to the signal line of the sensor.
Crankshaft sensors
Measurements at crankshaft sensors.
Crankshaft sensor Hall
Lab scope measurement at a Hall effect crankshaft sensor during cranking of an engine.
Channel 1 is connected to the signal line of the sensor. Channel 2 is connected to the power line of the sensor.
Crankshaft sensor inductive, starting engine
Lab scope measurement on an inductive crankshaft sensor during cranking an engine.
Channel 1 is connected to the signal line of the sensor.
Crankshaft sensor inductive, running engine
Lab scope measurement at an inductive crankshaft sensor on an idling engine.
Channel 1 is connected to the signal line of the sensor.
Lambda sensors
Measurements at lambda sensors.
Broadband lambda sensor, voltage
Lab scope voltage measurement at a broadband oxygen sensor of an idling engine at operating temperature.
Channel 1 is connected over the pump cell of the sensor. Channel 2 is connected over the measuring cell of the sensor. Channel 3 is connected to the heater of the sensor.
Broadband lambda sensor, current
Lab scope current measurement at a broadband oxygen sensor of an idling engine at operating temperature.
Channel 1 is connected over the pump cell of the sensor. Channel 2 is connected over the measuring cell of the sensor. Channel 3 is connected to the heater of the sensor.
The resistance in the sensor must be determined before the measurement and its value must be entered in the setting.
Lambda sensor (zirconia)
Lab scope measurement at a zirconia lambda sensor of an idling engine at operating temperature.
Channel 1 is connected to the signal line of the sensor. Channel 2 is connected to the heater of the sensor.
Manifold Absolute Pressure sensors
Measurements at MAP sensors.
Manifold Absolute Pressure (MAP) sensor
Lab scope measurement at a Manifold Absolute Pressure (MAP) sensor of an engine operating under various conditions.
Channel 1 is connected to the signal line of the MAP sensor. Channel 2 is connected to the power line of the MAP sensor.
Temperature sensors
Measurements at temperature sensors.
Coolant temperature sensor
Lab scope measurement at a coolant temperature sensor of an engine in a warming up stage.
Channel 1 is connected to the sensor output.
Valve position sensors
Measurements at valve position sensors.
Exhaust Gas Recirculation valve position sensor
Lab scope measurement at the EGR valve position sensor of an engine at different operating temperature and different speeds.
Channel 1 is connected to the signal output of the sensor.
Channel 2 is connected to the power input of the sensor.
Throttle valve position sensor single
Lab scope measurement at a single throttle valve position sensor, with the key turned on and engine off.
Channel 1 is connected to the signal line of the sensor.
Channel 2 is connected to the power line of the sensor.
Throttle valve position sensor dual
Lab scope measurement at a dual throttle valve position sensor, with the key turned on and engine off.
Channel 1 is connected to signal line 1 of the sensor.
Channel 2 is connected to signal line 2 of the sensor.
Channel 3 is connected to the power line of the sensor.
Actuator
Measurements on commonly found automotive actuators.
Fuel injection
Measurements at fuel injectors.
Direct diesel injection servo hydraulic voltage and current
Lab scope measurement of the voltage over and current through a servo hydraulic diesel injector of an idling engine at operating temperature.
Channel 1 is connected to the injector.
Channel 2 is connected to a Current clamp TP-CC80 in 20 A DC input range, zero it before measuring.
Direct petrol injection voltage and current
Lab scope measurement of the voltage over and current through a direct petrol injector of an idling engine at operating temperature.
Channel 1 is connected to the injector.
Channel 2 is connected to a Current clamp TP-CC80 in 20 A DC input range, zero it before measuring.
Indirect injection voltage and current
Lab scope measurement of the voltage over and current through a direct injector of an idling engine at operating temperature.
Channel 1 is connected to the injector.
Channel 2 is connected to a Current clamp TP-CC80 in 20 A DC input range, zero it before measuring.
Ignition
Measurements at ignition systems.
COP ignition
Labscope measurement on a Coil On Plug ignition system.
Channel 1 is connected to a Coil-on-Plug probe TP-COP750.
Valves
Measurements at valve control systems.
Canister purge valve
Lab scope measurement of the canister purge valve signal voltage of an idling engine at operating temperature.
Channel 1 is connected to the control line of the canister purge valve.
Channel 2 is connected to the power supply of the canister purge valve.
DC motor of an EGR valve
Lab scope measurement of the voltage over a DC motor of an Exhaust Gas Recirculation valve of a running engine at operating temperature.
Channel 1 is connected over the DC motor.
Idle air control valve
Labscope measurement of the idle air control valve under following conditions: key on, starting engine, running idle and key off.
Channel 1 is connected to the opening solenoid.
Channel 2 is connected to the closing solenoid.
Channel 3 in connected to the power supply of idle air control valve.
Throttle valve control motor DC
Lab scope measurement of the signal voltage of a throttle valve control motor, measured with the key on and engine off.
Channel 1 is connected over the motor.
Throttle valve position stepper motor
Lab scope measurement of throttle valve position stepper motor control signals of a revved engine at operating temperature.
Channel 1 is connected to pole pair 1 of the stepper motor. Channel 2 is connected to pole pair 2 of the stepper motor. Channel 3 is connected to pole pair 3 of the stepper motor. Channel 4 is connected to pole pair 4 of the stepper motor.
An additional line in the graph shows the calculated throttle valve position.
Combined
Measurements on combinations of automotive sensors and actuators.
Turbo pressure regulation system
Lab scope measurement on the turbo charge pressure regulation system of a car during acceleration.
Channel 1 is connected to the DC motor of the waste gate valve. Channel 2 is connected to the position sensor of the waste gate valve. Channel 3 is connected to the turbo pressure sensor.
EGR valve DC motor and position sensor
Lab scope measurement of the Exhaust Gas Recirculation valve position DC motor and EGR valve position sensor of an engine under various conditions.
Channel 1 is connected to the DC motor of the EGR valve. Channel 2 is connected to the control signal of the EGR valve position sensor. Channel 3 is connected to the power signal of the EGR valve position sensor.
An additional line shows the calculated DC motor position.
Fuel pressure sensor and fuel metering valve
Lab scope measurement on the singal lines of the fuel pressure sensor and fuel metering valve of an engine under various conditions.
Channel 1 is connected to the signal line of the fuel pressure sensor. Channel 2 is connected to the control line of the fuel metering valve.
The fuel metering valve control line duty cycle signal is translated to a position signal and shown in the graph.
Battery
Voltage and current measurements at a vehicle battery.
Voltage and current when starting the engine.
Labscope measurement of the voltage over and current trough the battery of a car with starting the engine.
Channel 1 is connected to the car battery terminals.
Channel 2 is connected to a Current clamp TP-CC600 set to the 600 A DC range, zero it before the measurement and clamp it around the positive battery cable.
Voltage and current with running engine.
Labscope measurement of the voltage over and current trough the battery of a car with idling engine. A meter shows the RMS and average values of the voltage and current.
Channel 1 is connected to the car battery terminals.
Channel 2 is connected to a Current clamp TP-CC600 set to the 200 A DC range, zero it before the measurement and clamp it around the positive battery cable.
Miscellaneous
Smooth running test
Smooth running test at 1800 RPM
A lab scope measurement of a smooth engine running test at 1800 RPM to check the condition of main input and output signal from an engine management system.
Channel 1 is connected to the crankshaft sensor. Channel 2 is connected to the camshaft sensor. Channel 3 is connected to the signal voltage at an injector. Channel 4 is connected to the ingnition trigger signal.
Smooth running test at idle
A lab scope measurement of a smooth engine running test at idle to check the condition of main input and output signal from an engine management system.
Channel 1 is connected to the crankshaft sensor. Channel 2 is connected to the camshaft sensor. Channel 3 is connected to the signal voltage at an injector. Channel 4 is connected to the ingnition trigger signal.
Engine power measurement
Turn your scope into a portable dyno.
Measure the engine power of a car or bike while driving the vehicle, using the Accelerometer Accelerometer TP-ACC20. The measured engine power is given in kW and hp.
For information on performing this test, read the measurement instructions.
Unique:
With this portable dyno tester you can determine the engine power of each car or bike in just a few minutes. This measurement is not found with any other oscilloscope.
Diesel return flow
With a Diesel Return Flow Sensor RFS400 the return flow from common rail diesel injectors is measured.
Relative compression test
Performing a relative compression test with just a lab scope and current clamp.
Classroom
In this classroom several features of our software and instruments are shown. In step by step guides is shown how to set up these measurements.
There are guides available for
- Measuring Duty cycle of a PWM signal
- Generate a triangular singal and perform several calculations on it
- Open multiple graphs and show various properties of a signal
The steps to measure duty cycle
Measuring duty cycle can be done by performing a few steps:
1. Open the object tree 2. Create a duty cycle I/O 3. Connect the input signal 4. Show the duty cycle in a graph
This explanation expects that the generator output of the instrument is connected to channel 1.
Step 1: Open the object tree
The first step is to open the Object tree by clicking the object tree button on the toolbar.
Step 2: Create a Duty cycle I/O
The second step is to create a Duty cycle I/O.
- right-click the I/Os item in the Object tree
- select the Duty cycle I/O from the popup menu
Step 3: Connect channel 1 to the I/O
Step three is to connect channel 1 with the Duty cycle I/O. This is simply done by dragging the Ch1 item in the object tree on the duty cycle I/O in the object tree.
Step 4: Show the duty cycle in the graph
Step four is to show the duty cycle in a graph.
To do that, simply drag the duty cycle I/O from the object tree to the graph and drop it there.
Step 5: Change the duty cycle
This final step changes the duty cycle of the input signal by adjusting the signal symmetry of the generator, from 50% to 40%.
This can be done by clicking at the lower half of the "5" in the symmetry readout of the generator.
Generate, measure and process a trianglular signal
This guide shows how to generate, measure and process a triangular signal.
This is done in the following steps:
1 Generate the trianglular signal and measure it with the scope 2 Add a spectrum analyzer and measure the frequency spectrum of the trianglular signal 3 Add a Low Pass Filter 4 Integrate the triangular signal into a sine wave.
Step 1: Generate a triangular signal.
Setup the Arbitrary waveform generator to generate a trianglular signal and display that in the scope.
The generator is set up to:
- Triangle signal type
- 140 kHz signal frequency
- 10 V amplitude
- 0 V offset
- 50 % symmetry
- 0 ° starting phase angle
The scope is set up to show the first few periods (40 µs) of the triangular signal.
Step 2: Measure the frequency spectrum of the triangle
Add a spectrum analyzer to the main window and show the frequency spectrum of the triangular signal in it.
The following steps are performed:
- Create a new graph
- Create an FFT I/O which will calculate the frequency spectrum
- Connect the FFT I/O to Channel 1
- Show the calculated frequency spectrum in the new graph
- Zoom in on the frequency spectrum
Read more information on:
Step 3: Filter the trianglular signal
Add a low pass filter to the system and show the frequency spectrum of the filtered triangular signal using a second spectrum analyzer.
The following steps are performed:
- Create a new graph
- Create Low Pass Filter I/O and set it up
- Create an FFT I/O
- Connect the Filter I/O to Ch1
- Connect the new FFT I/O to the Filter I/O
- Show the spetrum of the filtered signal in the new graph
- Zoom in at the frequency spectrum
Read more information on the Low Pass Filter I/O
Step 4: Integrate the triangle
Add an integrator to the system and convert the triangular signal of Ch1 into a sine wave and show it in a new graph.
The following steps are performed:
- Create a new graph
- Create an Integrate I/O
- Connect the Integrate I/O to Ch1
- Show the integrated signal in the new graph
- Zoom in at the integrated signal
Read more infrmation on the Integrate I/O
Create and use multiple graphs
The software supports an unlimited number of graphs, which can show any signal that is available.
New graphs are easily created by clicking the [+] button on the toolbar.
One signal can be shown in multiple graphs where each graph can be zoomed in at a different part of the signal.
The graphs can also all show different signals or different calculations of a signal.
This section shows a few examples of the possibilities of the software, using multiple graphs.
Eight graphs
This example shows eight graphs with each a different signal.
- Ch1 signal
- Ch2 signal
- Ch1 filtered with a Low Pass filter of 10 kHz
- The frequency spectrum of Ch1
- The Ch1 signal limited between -1 V and 1 V, by a Limiter I/O
- Math channel: Ch1 + Ch2
- XY graph of Ch1 and Ch1 filtered by a Low Pass Ffilter
- The Absolute value of Ch1
To create multiple graphs, click the [+] button on the main toolbar.
16 graphs
This example shows 16 graphs with each a different signal.
- Ch1 signal
- Ch2 signal
- Ch1 filtered with a Low Pass filter of 10 kHz
- The frequency spectrum of the filtered Ch1 signal
- The Ch1 signal limited between -1 V and 1 V, by a Limiter I/O
- Ch1 and Ch2 and the Math channel: Ch1 + Ch2
- The Absolute value of Ch1
- Math channel Ch1 * Ch2 * the Absolute value of Ch1 * the limited Ch1
- The maximum values of Ch1
- The Math channel: Ch1 - Ch2
- The frequency spectrums of Ch1 and Ch2
- The Ch1 signal on a logarithmic voltage scale
- XY graph of Ch1 and Ch1 filtered by a Low Pass Filter
- Math channel: Ch1 * Ch2 * gain and offset compensated Ch1
- Math channel: the Absolute values of Ch1 added to the low pass filtered Ch1
- Math channel: the differentiated signal of Ch1
To create multiple graphs, click the [+] button on the main toolbar.
EMI pre compliance tests
Perform an EMI pre compliance test on a circuit or device.
The test is performed with a Handyscope HS6 DIFF-1000 with EMI option and the EMI probe set.
The EMI pre-compliance tests can be performed in different frequency ranges.
EMI precompliance test 500 MHz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 500 MHz.
The resolution bandwith determines how detailed the measured frequency spectrum is. A smaller resolution bandwidth gives a more detailed frequency spectrum, but the refresh rate of the measurements will be lower.
EMI pre-compliance test 500 MHz, resolution bandwidth 1907 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 500 MHz. Resolution bandwidth is 1.907 kHz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI pre-compliance test 500 MHz, resolution bandwidth 953.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 500 MHz. Resolution bandwidth is 953.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI pre-compliance test 500 MHz, resolution bandwidth 476.8 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 500 MHz. Resolution bandwidth is 476.8 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI pre-compliance test 500 MHz, resolution bandwidth 238.4 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 500 MHz. Resolution bandwidth is 238.4 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 250 MHz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 250 MHz.
The resolution bandwith determines how detailed the measured frequency spectrum is. A smaller resolution bandwidth gives a more detailed frequency spectrum, but the refresh rate of the measurements will be lower.
EMI precompliance test 250 MHz, resolution bandwidth 953.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 250 MHz.
Resolution bandwidth is 953.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 250 MHz, resolution bandwidth 476.3 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 250 MHz.
Resolution bandwidth is 476.3 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 250 MHz, resolution bandwidth 238.4 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 250 MHz.
Resolution bandwidth is 238.4 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 250 MHz, resolution bandwidth 119.2 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 250 MHz.
Resolution bandwidth is 119.2 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 100 MHz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 100 MHz.
The resolution bandwith determines how detailed the measured frequency spectrum is. A smaller resolution bandwidth gives a more detailed frequency spectrum, but the refresh rate of the measurements will be lower.
EMI precompliance test 100 MHz, resolution bandwidth 381.5 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 100 MHz.
Resolution bandwidth is 381.5 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 100 MHz, resolution bandwidth 190.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 100 MHz.
Resolution bandwidth is 190.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 100 MHz, resolution bandwidth 95.4 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 100 MHz.
Resolution bandwidth is 95.4 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 100 MHz, resolution bandwidth 47.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 100 MHz.
Resolution bandwidth is 47.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 50 MHz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 50 MHz.
The resolution bandwith determines how detailed the measured frequency spectrum is. A smaller resolution bandwidth gives a more detailed frequency spectrum, but the refresh rate of the measurements will be lower.
EMI precompliance test 50 MHz, resolution bandwidth 190.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 50 MHz.
Resolution bandwidth is 190.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 50 MHz, resolution bandwidth 95.4 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 50 MHz.
Resolution bandwidth is 95.4 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 50 MHz, resolution bandwidth 47.7 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 50 MHz.
Resolution bandwidth is 47.7 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
EMI precompliance test 50 MHz, resolution bandwidth 23.8 Hz
Perform an EMI pre compliance test on a circuit or device, with a frequency range up to 50 MHz.
Resolution bandwidth is 23.8 Hz.
A spectrum analyzer graph shows the frequency spectrum of the measured signals.
An oscilloscope graph shows the time domain of the measured signal.
Connect the required EMI probe using the antenna cables and the grounded attenuator to Ch1. Make sure to connect the extra ground lead of the attenuator to the ground socket at the front panel of the Handyscope HS6 DIFF.
