Engineering
Engineering, 11.05.2021 20:50, tianna08

Connect the output of the Function Generator to Channel A on the oscilloscope. Turn the Function Generator and select the sine wave button. Set frequency to 1 kHz and 2 Vp-p. Set the DC offset to 0 V DC. Turn on the oscilloscope and select the GROUND button. Using the Position control on the top, bring your line to the center of the screen. Now select the AC position. Select the TIME/DIV to 0.2 ms and CHANNEL A to 0.5 V/DIV. What was the time period (T) and the frequency of your signal? Select the "GROUND" on the oscilloscope channel A. What change occurred on the oscilloscope Channel A curve plot? Explain. Change the oscilloscope channel A to 1 V/div. What change occurred on the oscilloscope Channel A curve plot? Explain. Change the oscilloscope Time Base to 0.1 ms/div. What change occurred on the oscilloscope Channel A curve plot? What is the period and the frequency of your signal? Compare the results to that of step 4. Return the oscilloscope time base to 0.2m/DIV and CHANNEL A to 0.5V/DIV. Select the Triangular Wave shape on the Function Generator. What change occurred on the oscilloscope curve plot? Select the Square Wave on the Function Generator and run the analysis again. What change occurred on the oscilloscope curve plot? Change the AMPLITUDE on the Function Generator to 2.5 Vp-p What change occurred on the oscilloscope curve plot? Explain. Change the frequency on the Function Generator to 2 kHz. What change occurred on the oscilloscope curve plot? Explain. Change the offset on the Function Generator to 1 V. What change occurred on the oscilloscope curve plot? Explain. Select the DC setting on CHANNEL A of the oscilloscope. What change occurred on the oscilloscope curve plot? Explain.

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Connect the output of the Function Generator to Channel A on the oscilloscope. Turn the Function Gen...

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