An inductive load is controlled by an impulse commutation chopper in Fig.1 and peak load current IL-450A at a supply voltage of 220V. The chopping frequency f=275 Hz, commutation capacitor C=60μF and reversing inductance Lm=20μH.The source inductance Ls 8μH, determine: td tc tr=tc+td a) peak Capacitor discharge Current. b) Circuit turn off time. c) Commutation time. d) The maximum instantaneous capacitor voltage. Vects = Vs+ IL LS sin ust Ls 000002 a C T₁ IL T₂ FWD ic oooooL L D₁ fig1 LOAD Vo I

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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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An inductive load is controlled by an impulse commutation chopper in Fig.1 and peak load
current IL-450A at a supply voltage of 220V. The chopping frequency f=275 Hz,
commutation capacitor C=60μF and reversing inductance Lm=20μH.The source inductance
Ls 8μH, determine:
td tc
tr=tc+td
a) peak Capacitor discharge Current. b) Circuit turn off time. c) Commutation time. d) The
maximum instantaneous capacitor voltage.
Vects = Vs+ IL LS sin ust
Ls
000002
a
C
T₁
IL
T₂
FWD
ic
oooooL
L
D₁
fig1
LOAD
Vo
I
Transcribed Image Text:An inductive load is controlled by an impulse commutation chopper in Fig.1 and peak load current IL-450A at a supply voltage of 220V. The chopping frequency f=275 Hz, commutation capacitor C=60μF and reversing inductance Lm=20μH.The source inductance Ls 8μH, determine: td tc tr=tc+td a) peak Capacitor discharge Current. b) Circuit turn off time. c) Commutation time. d) The maximum instantaneous capacitor voltage. Vects = Vs+ IL LS sin ust Ls 000002 a C T₁ IL T₂ FWD ic oooooL L D₁ fig1 LOAD Vo I
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