Consider the current pulse i(t) shown in Figure 1a. The current begins at zero, becomes 10.0 A between t = 0 and t = 200μs , and then is zero once again. This pulse is applied to the input of the partial circuit shown in Figure 1b. Determine the current in the inductor at time t = 156μs.
Consider the current pulse i(t) shown in Figure 1a. The current begins at zero, becomes 10.0 A between t = 0 and t = 200μs , and then is zero once again. This pulse is applied to the input of the partial circuit shown in Figure 1b. Determine the current in the inductor at time t = 156μs.
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Author:Robert L. Boylestad
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Consider the current pulse i(t) shown in Figure 1a. The current begins at zero, becomes 10.0 A between t = 0 and t = 200μs , and then is zero once again. This pulse is applied to the input of the partial circuit shown in Figure 1b. Determine the current in the inductor at time t = 156μs.
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Transcribed Image Text:i (A)
10
a
20
5
0
100 200
t (us)
i(t)
100 Ω
b
Figure 1. RL Circuit.
10.0 mH
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