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2. For the half-wave uncontrolled rectifier circuit supplying a series resistive- inductive load shown in Figure. The supply voltage is v =v2 X 210 sinwt and the supply frequency is 50 Hz and the load parameter values are: R =20 Q, and XL = 30 Q. The current i for the conduction interval wt = 0 to wt = 6 is given by: Vm [sin(wt – 0) + sin0e¯cot0 .wt] |z| i(@t) -cote %3D where |z|=/R² + (@L)² and tan 0 = wL/R (a) Sketch the load voltage and current waveforms. (b) Calculate the average d.c. load voltage Vdc.

2. For the half-wave uncontrolled rectifier circuit supplying a series resistive- inductive load shown in Figure. The supply voltage is v =v2 X 210 sinwt and the supply frequency is 50 Hz and the load parameter values are: R =20 Q, and XL = 30 Q. The current i for the conduction interval wt = 0 to wt = 6 is given by: Vm [sin(wt – 0) + sin0e¯cot0 .wt] |z| i(@t) -cote %3D where |z|=/R² + (@L)² and tan 0 = wL/R (a) Sketch the load voltage and current waveforms. (b) Calculate the average d.c. load voltage Vdc.

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
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2. For the half-wave uncontrolled rectifier circuit supplying a series resistive- inductive load shown in Figure. The supply voltage is v =v2 X 210 sinwt and the supply frequency is 50 Hz and the load parameter values are: R =20 Q, and XL = 30 Q. The current i for the conduction interval wt = 0 to wt = 6 is given by: Vm [sin(wt – 0)+ sin0e¯cot0 .wt] |z| i(@t) %D where |z|=/R² + (@L)² and tan 0 = wL/R (a) Sketch the load voltage and current waveforms. (b) Calculate the average d.c. load voltage Vdc.
Transcribed Image Text:2. For the half-wave uncontrolled rectifier circuit supplying a series resistive- inductive load shown in Figure. The supply voltage is v =v2 X 210 sinwt and the supply frequency is 50 Hz and the load parameter values are: R =20 Q, and XL = 30 Q. The current i for the conduction interval wt = 0 to wt = 6 is given by: Vm [sin(wt – 0)+ sin0e¯cot0 .wt] |z| i(@t) %D where |z|=/R² + (@L)² and tan 0 = wL/R (a) Sketch the load voltage and current waveforms. (b) Calculate the average d.c. load voltage Vdc.
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