3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test C...
3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test Circuit. 5 LTspice Simulation » Use LTspice to simulate the circuit shown in Figure 1. . The AC voltage source should have an amplitude of 5V and a frequency of 60Hz. When you enter the parameters in LTspice, you should see them displayed on the schematic as follows SINE(0 5 60000 1000) * Graph the waveforms for the AC voltage source, V1, V2, V3, and V4. . Note the amplitude of each sinusoidal waveform * Next, compute the phase shift of V1, V2, V3, and V4 relative to the AC voltage source. To compute the phases, use the following formula: Time Shift 360° × Sinusoid Period Measure the Time Shift between the peak of one sine wave relative to the peak of the AC voltage source . Finally, write the AC source, V1, V2, V3, and V4 in phasor form
3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test Circuit. 5 LTspice Simulation » Use LTspice to simulate the circuit shown in Figure 1. . The AC voltage source should have an amplitude of 5V and a frequency of 60Hz. When you enter the parameters in LTspice, you should see them displayed on the schematic as follows SINE(0 5 60000 1000) * Graph the waveforms for the AC voltage source, V1, V2, V3, and V4. . Note the amplitude of each sinusoidal waveform * Next, compute the phase shift of V1, V2, V3, and V4 relative to the AC voltage source. To compute the phases, use the following formula: Time Shift 360° × Sinusoid Period Measure the Time Shift between the peak of one sine wave relative to the peak of the AC voltage source . Finally, write the AC source, V1, V2, V3, and V4 in phasor form