1. Build and simulate the circuit in Figure 23-2 of Lab Instruction 23 using PSP
ID: 3349513 • Letter: 1
Question
1. Build and simulate the circuit in Figure 23-2 of Lab Instruction 23 using PSPICE Show voltages across Ri, L1, and Source Sine-wave generator n -5.0 kHz 100 H Vs-1.0 V Figure 23-2 DC DC offset used in an Operating Point Analysis. (Default 0) Magnitude AC the magnitude of the source when used in an AC Small Signal Analysis. (Default 1) Magnitude AC Phase the phase of the source when used in an AC Small Signal Analysis. (Default-o Offset DC offset voltage of the signal generator (in Volts).(Default O) Amplitude peak amplitude of the sinusoid (in Volts). (Default 1 Frequency frequency of the sinusoidal output voltage (in Hz. (Default-IKL Delay delay time until the source voltage commences (in seconds). (Default-O the rate at which the sinusoid decreases/increases in amplitude (in 1/seconds). A positive value results in an exponentially decreasing amplitude: a negative value gives an increasing amplitude. A zero (0) value gives a constant amplitude sine wave. (Default-o. Phase phase shift of the sinusoid at time zero (in Degrees) (Default-o) Parameters of VSIN 2. Compute the total inductance of two 100 mH inductors in series and the total inductance of two 100 mH inductors in parallel.Explanation / Answer
2. Two 100 mH inductors are in series
i,.e,. L1=L2 = 100 mH
Total series indutance L = L1+L2
=100+100
= 200 mH
Therefore L = 200 mH
When two are connected in parallel L = L1*L2/L1+L2
= 100*100/200
= 50
Therefore parallel inductance L = 50 mH
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