130 Keysight InfiniiVision 1200 X-Series and EDUX1052A/G Oscilloscopes User's Guide
13 Acquisition Control
When you press [Single], the display is cleared, the trigger mode is temporarily
set to Normal (to keep the oscilloscope from auto-triggering immediately), the
trigger circuitry is armed, the [Single] key is illuminated, and the oscilloscope
waits until a trigger condition occurs before it displays a waveform.
When the oscilloscope triggers, the single acquisition is displayed and the
oscilloscope is stopped (the [Run/Stop] key is illuminated in red). Press [Single]
again to acquire another waveform.
If the oscilloscope doesn't trigger, you can press the [Force] key to trigger on
anything and make a single acquisition.
To display the results of multiple acquisitions, use persistence. See "To set or
clear persistence" on page 85.
Single vs. Running
and Record Length
The maximum data record length is greater for a single acquisition than when the
oscilloscope is running (or when the oscilloscope is stopped after running):
• Single — Single acquisitions always use the maximum memory available — at
least twice as much memory as acquisitions captured when running — and the
oscilloscope stores at least twice as many samples. At slower time/div settings,
because there is more memory available for a single acquisition, the acquisition
has a higher effective sample rate.
• Running — When running (versus taking a single acquisition), the memory is
divided in half. This lets the acquisition system acquire one record while
processing the previous acquisition, dramatically improving the number of
waveforms per second processed by the oscilloscope. When running, a high
waveform update rate provides the best representation of your input signal.
To acquire data with the longest possible record length, press the [Single] key.
For more information on settings that affect record length, see "Length
Control" on page 219.
Overview of Sampling
To understand the oscilloscope's sampling and acquisition modes, it is helpful to
understand sampling theory, aliasing, oscilloscope bandwidth and sample rate,
oscilloscope rise time, oscilloscope bandwidth required, and how memory depth
affects sample rate.
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