This instrument supports mathematical combination and functional transformations of waveforms it acquires. The next figure
shows this concept:
You create math waveforms to support the analysis of your channel and reference waveforms. By combining and transforming
source waveforms and other data into math waveforms, you can derive the data view that your application requires. Create math
waveforms that result from:
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Mathematical operations on one or several waveforms: add, subtract, multiply, and divide.
■
Functional transformations of waveforms, such as integration, differentiation, and so on.
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Spectral analysis of waveforms, such as testing impulse response.
Measurement scalars can be used in math expressions. For example, you can measure the average of a waveform (using the
measurement capabilities of the instrument) and subtract it from the original waveform to define a new math waveform. For
example: Ch1 - mean(amplitude(Ch1)).
Measurement concepts
MSO54, MSO56, MSO58, MSO58LP, MSO64 Help
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Summary of Contents for 6 series
Page 24: ...Product documents and support 4 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 42: ...Options 22 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 54: ...Install your instrument 34 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 84: ...Getting acquainted with your instrument 64 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 102: ...Configure the instrument 82 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 148: ...Advanced triggering 128 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 154: ...Zooming on waveforms 134 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 438: ...Waveform acquisition concepts 418 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 448: ...Waveform display concepts 428 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...
Page 518: ...Index 498 MSO54 MSO56 MSO58 MSO58LP MSO64 Help ...