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04 | Keysight | Educator’s Oscilloscope Training Kit for InfiniiVision X-Series Oscilloscopes - Data Sheet
Built-in Oscilloscope Training Signals with Step-by-Step Instructions and Tutorial
Keysight recommends that the first six labs (covered in Chapter
2: Basic Oscilloscope and WaveGen Measurements Labs) be
completed by students during their first circuits lab session,
before beginning any assigned circuit design experiments.
Students will learn the following while completing the labs in
Chapter 2 of the training guide:
– Probing basics
– Setting up vertical scaling (V/div)
– Setting up horizontal scaling (s/div)
– Making voltage and timing measurements the old-fashioned
way
– Using cursors for voltage and timing measurements
– Triggering basics
– Averaging waveforms
– Electronically documenting measurement results
– Using the built-in function generator (optional feature)
Figure 3. More complex training signals such as the “digital burst with
infrequent glitch” signal, train students to use some of the scope’s more
advanced triggering and measurement capabilities.
The remaining nine labs (found in Chapter 3: Advanced
Oscilloscope Measurement Labs) provide instructions on
how to trigger on, and make measurements on more complex
signals. These short labs, which are optional and require about
15 minutes each, can be completed by students who want to
learn how to use some of the scope’s more advanced functions.
Alternatively professors may choose to assign specific labs they
consider as important for students to complete. Students will
learn the following while completing the advanced oscilloscope
measurement labs in Chapter 3 of the training guide:
– Using trigger holdoff to trigger on a digital burst signal
– Using pulse-width triggering to trigger on an infrequent
glitch
– Using infinite-persistence display mode to accumulate all
variations of a signal
– Capturing a single-shot event
– Making automatic pulse parametric measurements
– Using the scope’s horizontal zoom mode to perform “gated”
measurements
– Making two channel phase delay measurements
– Using the scope’s XY mode to view Lissajous waveforms
– Using waveform math including Fast Fourier Transformation
(FFT)
– Using the scope’s peak detect mode to overcome
under-sampling
– Using segmented memory to capture multiple low duty cycle
events (optional feature)