Figure 7.5 Measurement Schematic Diagram Of Phase Deviation - Rigol DHO900 User Manual

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• Grid: Please refer to
NOTE
Advanced settings are not available for now. The current settings can produce the best display.
Phase Deviation Measurement
In this mode, you can use the Lissajous method to measure the phase deviation of the
two input signals whose frequencies are the same. The following figure shows the
measurement schematic diagram of phase deviation.
According to sinƟ=A/B or C/D, Ɵ is the phase deviation angle between the two
channels. The definitions of A, B, C, and D are shown in the figure above. The phase
deviation angle is obtained, that is:
Ɵ=±arcsin(A/B) or ±arcsin(C/D)
If the principal axis of the ellipse is within Quadrant I and III, the phase deviation
angle obtained should be within Quadrant I and IV, namely within (0 to π/2) or (3π/2
to 2π). If the principal axis of the ellipse is within Quadrant II and IV, the phase
deviation angle obtained should be within Quadrant II and III, namely within (π/2 to
π) or (π to 3π/2).
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When "None" is selected for "Source Z", the blanking function is disabled,
and you can only see the X-Y waveforms.
When you select "CH1-CH4" for "Source Z", the blanking function is
enabled. The Z-axis input from the external connector determines whether
to display the X-Y waveforms. When Z is high (the input level is greater than
0 V), the X-Y waveforms are displayed; when Z is low (the input level is
smaller than 0 V), the waveforms are hidden.
To Set the Screen Grid

Figure 7.5 Measurement Schematic Diagram of Phase Deviation

Acquisition System
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DHO800 User Guide
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