Data Sheet
8
RIGOL
Super High Sample Bandwidth Ratio
600,000 wfms/s Capture Rate
Bandwidth and the sample rate are two key technical
specifications that engineers take priority in choosing the digital
oscilloscope. Bandwidth determines the maximum frequency
that the oscilloscope can acquire. The higher the bandwidth of
the oscilloscope, the better the oscilloscope can keep the steep,
fast, abundant harmonics components and energies of the signal
under test. The sample rate determines the time interval of the
sample points, which determines the refinement of the outlined
waveforms. The MSO7000/DS7000 series provides a maximum
of 10 GSa/s real-time sample rate and 20X sample rate/bandwidth
ratio for 500 MHz bandwidth, which makes itself far ahead of the
same level products.
While maintaining the super high sample rate of 10 GSa/s, the
MSO7000/DS7000 series also has a maximum of 500 Mpts
memory depth, enabling itself to capture more events in one
acquisition. This provides sufficient time for users to observe while
retaining the waveform details to a large extent. Thus, users can
not only get the detailed information about the waveforms, but
also can take an overview of the waveforms.
Engineers often have to spend a lot of time and efforts in
locating the problem in design and debugging. Therefore,
a proper debugging tool will help engineers to work more
efficiently. MSO7000/DS7000 series digital oscilloscope can
provide the waveform capture rate of up to 600,000 wfms/
s, so that the glitches and infrequent events in waveforms
can be quickly identified, greatly improving the debugging
efficiency for the engineers.
256-level intensity grading display can reflect the
occurrence frequencies of the infrequent events. Its newly
added color persistence function can highlight the signal
of different probabilities with a different color grading. You
can set the persistence time to control the duration time for
the waveforms to be displayed on the screen, so that the
display capability of the infrequent events can be further
enhanced.
Capture occasional exceptional signals in a highly refresh mode.