Need help?Do you have a question about the Hantek DSO5102P and is the answer not in the manual?
General| Brand | Hantek |
|---|---|
| Model | DSO5102P |
| Category | Test Equipment |
| Language | English |
Provides precautions to avoid injury and damage to the product and connected equipment.
Provides instructions for installing the oscilloscope, including ventilation requirements.
Outlines steps for performing a quick functional check of the oscilloscope.
Guides on connecting the probe to Channel 1 and the probe compensation connector.
Details manual probe compensation adjustment for accurate measurements.
Covers Autoset, saving, and recalling oscilloscope setups.
Introduces basic concepts of triggering for waveform acquisition and display.
Explains real-time and equivalent acquisition modes and their settings.
Introduces methods for measuring waveforms using graticule, cursors, and auto-measurement.
Describes how the oscilloscope performs automatic calculations for measurements.
Details how to use horizontal controls for scale and position adjustment.
Details controls for displaying, scaling, and positioning waveforms.
Explains using Math FFT to convert time-domain signals to frequency components.
How to use cursors to measure amplitude and frequency in FFT spectrum.
Details how to define triggers using menus and front-panel controls.
Accessing trigger menus and options for edge trigger.
How to trigger on aberrant pulses based on width conditions.
Triggering based on signal rise or fall times.
Performing automatic measurements on waveforms.
Setting acquisition parameters like category, mode, and averages.
Displaying the cursor menu for measurements.
Describes the functions of AUTOSET, SINGLE SEQ, RUN/STOP, HELP, DEFAULT SETUP, and Save to USB.
Automatically sets oscilloscope controls for a usable display of input signals.
Demonstrates taking fast measurements of frequency, period, and amplitude.
Using automatic measurements for signal parameters.
Using cursors to measure time and amplitude of a waveform.
Measuring the width of a pulse signal using cursors.
Measuring pulse rise time between 10% and 90% levels.
Analyzing noisy signals and eliminating random noise.
Capturing aperiodic signals like pulses and glitches using single-shot acquisition.
Verifying pulse width consistency with theoretical values.
Monitoring video signals and achieving stable display with video trigger.
Using slope trigger to observe signal rise and fall times.
Measuring long pulse signals using overtime trigger.
Provides solutions for common oscilloscope startup and display issues.
To Next Page
