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Example 6.3 Full-Bridge Inverter with an RLC Load Finding the Output Voltage and Current of a Single-Phase The bridge inverter in Figure 6.3a has an RLCload with R = 10 N,L = 31.5 mH, and C = 112 µF. The inverter frequency is fo = 60 Hz and de input voltage is V, = 220 V. (a) Express the instan- taneous load current in Fourier series. Calculate (b) the rms load current at the fundamental frequency Io1, (c) the THD of the load current, (d) the power absorbed by the load Po and the fundamental power Po1, (e) the average current of de supply Iş, and (f) the rms and peak current of each transistor. (g) Draw the waveform of fundamental load current and show the conduction intervals of transistors and diodes. Calculate the conduction time of (h) the transistors, (i) the diodes, and (j) the effective load angle 0.

Example 6.3 Full-Bridge Inverter with an RLC Load Finding the Output Voltage and Current of a Single-Phase The bridge inverter in Figure 6.3a has an RLCload with R = 10 N,L = 31.5 mH, and C = 112 µF. The inverter frequency is fo = 60 Hz and de input voltage is V, = 220 V. (a) Express the instan- taneous load current in Fourier series. Calculate (b) the rms load current at the fundamental frequency Io1, (c) the THD of the load current, (d) the power absorbed by the load Po and the fundamental power Po1, (e) the average current of de supply Iş, and (f) the rms and peak current of each transistor. (g) Draw the waveform of fundamental load current and show the conduction intervals of transistors and diodes. Calculate the conduction time of (h) the transistors, (i) the diodes, and (j) the effective load angle 0.

Introductory Circuit Analysis (13th Edition)
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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Example 6.3 Full-Bridge Inverter with an RLC Load Finding the Output Voltage and Current of a Single-Phase The bridge inverter in Figure 6.3a has an RLCload with R = 10 N,L = 31.5 mH, and C = 112 µF. The inverter frequency is fo = 60 Hz and de input voltage is V, = 220 V. (a) Express the instan- taneous load current in Fourier series. Calculate (b) the rms load current at the fundamental frequency Io1, (c) the THD of the load current, (d) the power absorbed by the load Po and the fundamental power Po1, (e) the average current of de supply Iş, and (f) the rms and peak current of each transistor. (g) Draw the waveform of fundamental load current and show the conduction intervals of transistors and diodes. Calculate the conduction time of (h) the transistors, (i) the diodes, and (j) the effective load angle 0.
Transcribed Image Text:Example 6.3 Full-Bridge Inverter with an RLC Load Finding the Output Voltage and Current of a Single-Phase The bridge inverter in Figure 6.3a has an RLCload with R = 10 N,L = 31.5 mH, and C = 112 µF. The inverter frequency is fo = 60 Hz and de input voltage is V, = 220 V. (a) Express the instan- taneous load current in Fourier series. Calculate (b) the rms load current at the fundamental frequency Io1, (c) the THD of the load current, (d) the power absorbed by the load Po and the fundamental power Po1, (e) the average current of de supply Iş, and (f) the rms and peak current of each transistor. (g) Draw the waveform of fundamental load current and show the conduction intervals of transistors and diodes. Calculate the conduction time of (h) the transistors, (i) the diodes, and (j) the effective load angle 0.
V. Vao V. Vho V, + D3 A T, b Vab Fundamental Load a .current, ial Q2 (a) Circuit (b) Waveforms 41. D, Dz Q, 02 D3 D4 0; Q,Y on on on on (c) Load current with highly inductive load
Transcribed Image Text:V. Vao V. Vho V, + D3 A T, b Vab Fundamental Load a .current, ial Q2 (a) Circuit (b) Waveforms 41. D, Dz Q, 02 D3 D4 0; Q,Y on on on on (c) Load current with highly inductive load
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