FIGURE Q1b(i) shows the single-phase half-wave inductive load inverter circuit and its output load current, l[t) is represented in FIGURE Q1b(ii). With the input voltage, Vc = 400 V, displacement angle, 9 = 60º, switching frequency, f: = 60 Hz and output power, Po= 400 W, determine the time, t1. ipi D1 Vac Qi R L Vot) ip2 D2 Vc Q2 FIGURE Q1b(i) (t) T/2 Vo(t) --Va FIGURE Q1b(ii)
FIGURE Q1b(i) shows the single-phase half-wave inductive load inverter circuit and its output load current, l[t) is represented in FIGURE Q1b(ii). With the input voltage, Vc = 400 V, displacement angle, 9 = 60º, switching frequency, f: = 60 Hz and output power, Po= 400 W, determine the time, t1. ipi D1 Vac Qi R L Vot) ip2 D2 Vc Q2 FIGURE Q1b(i) (t) T/2 Vo(t) --Va FIGURE Q1b(ii)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:FIGURE Q1b(i) shows the single-phase half-wave inductive load inverter circuit and its
output load current, Ift) is represented in FIGURE Q1b(ii). With the input voltage,
Vác = 400 V, displacement angle, 9 = 60º, switching frequency, f: = 60 Hz and output
power, Po= 400 W, determine the time, t1.
ipi
Vác
D1
L(t)
L
R
Vo(t)
ip2
Q2
Vác
D2
FIGURE Q1b(i)
L(t)
T/2
Volt)
+Va
--V
FIGURE Q1b(ii)
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