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For you to switch to this instrument, click on the “Network Analyzer” from the menu list as illustrated. The small white squares allows you to run/stop the instrument without having that instrument in the current display.
Starts and stops the capture of Network Analyzer Instrument. Alternatively, the capture can be started and stopped by clicking on the small white square at the right of the instrument on the left side menu.
Shows or hides the control menu.
Sets the reference channel for the network analyzer from the oscilloscope probes 1+ and 2+ to act as the phase reference.
Allows the user to change the amplitude and offset of the generated signal. The amplitude can be set to any value within the range of 1uV to 10 V. The offset value can be changes from -5 V to 5 V.
Allows you to adjust the view of the displays whether in Bode, Nyquist, or Nichols plot. By default, as you switch to this instrument, the minimum/maximum magnitude is set to -90 dB/10dB, but this can be set to any value within the range of -120 dB to 120 dB. The minimum/maximum phase value is set to -180/180 degrees by default but this can be changed to any value within -180 to 180 degrees. You can adjust these values before, during or after you click run. This is for viewing the plot effectively.
Bode Plot shows the Frequency response of a system in two parts, one part is the Bode magnitude plot that contains magnitude expressed in dB across the frequencies set from the control menu and the Bode phase plot expressing the phase shift.
Bode plot display may be modified from the available configurations in Frequency Sweep Settings and Display Settings from the Control menu.
After capturing the signal, the graph may be zoomed in on the desired location by holding and dragging on the minimum and maximum desired value of the magnitude and frequency like shown below. This works on both the Bode magnitude plot and Bode phase plot.
The default view that is set from the control menu may be returned by clicking the right-mouse button.
Scopy network analyzer also features another way of showing the frequency response of a system, it is through the Nyquist diagram. Nyquist diagram is a polar plot of the frequency response that displays the amplitude in dB and phase angle on a single plot to determine if the system is stable or unstable. Display Settings control the Nyquist diagram by adjusting the minimum and maximum magnitude to the desired value.
Nichols plot is another method of picturing frequency responses of systems. As you can see in the illustration, the Nichols plot shows the gain magnitude on a logarithmic scale (dB) in the y-axis and the phase on linear scale (degrees) in the x-axis. You can determine the gain and phase margins graphically and easily using this plot. The gain margin can be graphically determined by getting the absolute value of the magnitude axis intersect. The phase margin is determined by the distance between the origin and the phase axis intersect. The settings you applied to the controls when plotting either in bode or Nyquist will also reflect in the Nichols plot.
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