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- Please Set Up Circuit In Orcad And Simulate The Screenshot Of Results 1 (56.97 KiB) Viewed 37 times
c. Repeat Part 2(b) when the applied square wave is -4 V. =2,31 -V₂-9₁7-E-Q Vo=-12-2017 V. (calculated) = -3 d. Using the results of Parts 2(b) and 2(c) sketch the expected waveform for u, using the horizontal axis of Fig. 5.2 as the V, = 0 V line. Use a vertical sensitivity of 1 V/cm and a horizontal sensitivity of 0.2 ms/cm. Sketch of V from calculated results: OV-+++++ Figure 5-2 e. Using the sensitivities provided in Part 2(d) set the input square wave and record v, on Fig. 5.3 using the oscilloscope. Be sure to preset the V, = 0 V line using the GND position of the coupling switch (and the DC position to view the waveform). Sketch of V from measured results: Figure 5-3 O V
How does the waveform of Fig. 5.3 compare with the predicted result of Fig. 5.2? f. Reverse the battery of Fig. 5.1 and, using the measured values of R, E, and VT, calculate the level of V, for the time interval when V₁ = +4 V. V. (calculated) = g. Repeat Part 2(f) for the time interval when V; = -4 V. ed) = h. Using the results of Parts 2(f) and 2(g) sketch the expected waveform for u, using the horizontal axis of Fig. 5.4 as the V₁ = 0 V line. Use the same sensitivities provided in Part 2(d)., Sketch of V from calculated results: O V++++++++++++ Figure 5-4 i. Set the input square wave and record u, on Fig. 5.5 using the oscilloscope. Be sure to preset the V, = 0 V line using the GND position of the coupling switch (and the DC position to view the waveform). How does the waveform of Fig. 5.4 compare with the predicted result of Fig. 5.5?