Consider the half-wave inductive-load rectifier circuit of Fig. 2 with R-L load and vs = 110√2sinut V, w = 60Hz, L = 800 mH, and R = 100 22. Find Calculate: (a) (d) (e) (f) the expression for i(t), the time when it becomes zero, the average load current, the peak inductor current, the rms current in the inductor, the average power delivered to the load. a Figure 2: L R. + Vo

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Consider the half-wave inductive-load rectifier circuit of Fig. 2 with R-L load and vs = 110√2sinut V,
w = 60Hz, L = 800 mH, and R = 100 22. Find
Calculate:
(a)
(d)
(e)
(f)
the expression for i(t),
the time when it becomes zero,
the average load current,
the peak inductor current,
the rms current in the inductor,
the average power delivered to the load.
a
Figure 2:
L
R.
+
Vo
Transcribed Image Text:Consider the half-wave inductive-load rectifier circuit of Fig. 2 with R-L load and vs = 110√2sinut V, w = 60Hz, L = 800 mH, and R = 100 22. Find Calculate: (a) (d) (e) (f) the expression for i(t), the time when it becomes zero, the average load current, the peak inductor current, the rms current in the inductor, the average power delivered to the load. a Figure 2: L R. + Vo
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