Overview
CSA7000 Series, TDS7000 Series, & TDS6000 S eries Instruments User Manual
3-5
Tasks or topics
Page no.ContentsSection titleSubtasks or subtopics
Data Processing
(Calculat ion)
Taking Measurement s
(Cont.)
To Connect the Probe
Calibration Fixture
Connecting the probe calibration and
deskew fixture to the instrument
3--173
(Cont.)
To Calibrate Probes Improving measurement accuracy by
calibrating your probes
3--177
To Compensate Passive
Probes
Compensating passive probes 3--180
To Deskew Channels Adjusting delay between channels 3--181
Serial Mask Testing Pointer to mask testing information 3--184
Math (+. --, /, *, Chs, Exx,
≡,,≠,,>,<,
Creating and Using Math
Waveforms
Functions for processing waveforms,
extracting segments of waveforms, etc.
3--185
Intg, Diff, F
bs,Sin,Cos,
Tan, Mi n, Max, Ceil, Floor,
Sin
Cos
T
n
Sinh
Defining Math Waveforms Overview of performing math operation on
waveforms
3--186
,
,
,
,
Cosh, Tanh, Average,
Invert, Sqrt, Log 10, Log e,
ToDefineaMath
Waveform
Defining math waveforms 3--194
p,
gn
tu
e,
e
,
Phase, and Imag)
Operations on Math
Waveforms
Overview of measuring and adjusting
math waveforms
3--197
To Use Math Waveforms Example setups for measuring and
adjusting math waveforms
3--198
Spectral Math operations Defining Spectral Math
Waveforms
Functions for frequency domain analysis
of your waveforms.
3--202
To Select a Predefined
Spectral Math Waveform
Selecting a predefined spectral math
waveform
3--230
To Define A Spectral Math
Waveform
Setup to define a spectral math waveform 3--231
Spectral Math Example An example of performing spectral
analysis of a signal
3--239
Optimizing
Measurement
Accuracy
Instrument compensation
and compensation or
calibration of probes
Optimizing Measurement
Accuracy
Procedures for compensating the instru-
ment, compensating passive probes, and
calibrating active, voltage probes
3--171
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