An inductive load is controlled by an impulse commutation chopper in Fig.1 and peak loadcurrent 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 inductanceLs 8μH, determine:td tctr=tc+tda) peak Capacitor discharge Current. b) Circuit turn off time. c) Commutation time. d) Themaximum instantaneous capacitor voltage.Vects = Vs+ IL LS sin ustLs000002aCT₁ILT₂FWDicoooooLLD₁fig1LOADVoI

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Answered: An inductive load is controlled by an…

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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A cable test unit is required to test cables of 5000 pf at 200 kV. The testing transformer available is 230 V/50 kV, 15 kVA with 2.5% resistance and 6% reactances. Determine the inductance required for resonant testing and input voltage to the testing transformer. Assume the resistance of inductor and leads to be 2.5%.
A chopper circuit has an inductive load of 2ohm resistance and 10mH inductance. If the source voltage is 20 V and the frequency of the chopper is set to 100Hz and the on-time to 5 ms. Determine the average voltage and current, maximum and minimum load currents.
A DC-DC Chopper Circuit with an RL Load has an output current waveform shown below with a duty cycle of 50% and 1ms period. If it has a resistance of lohm and an inductance of 10mH, find the source voltage. output 5A -current 2A ten toff
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A capacitor C is connected in series with a 400 resistor across a supply of frequency 60 Hz. A current of 3 A flows and the circuit impedance is 500. Calculate: (a) the value of capacitance, C, (b) the supply voltage, (c) the phase angle between the supply voltage and current, (d) the p.d. across the resistor, and (e) the p.d. across the capacitor. Draw the Phasor diagram.
Letter d, e, f, g, h
A certain impedance is given by 1012° N. Does the current lead or lag the voltage, and by how many degrees? Fill in the blanks. The current the voltage by
Consider circuit of Figure 9. The synthesized frequency generator produces 2-kHz sinewave with amplitude 2.0 V. Identify the DC component of vR and the amplitude of the AC component of vR. You should assume that the capacitor be modeled as a short circuit to an AC signal. The capacitor modeled as an open circuit to a DC signal Exercise: а can always be can 0.2 uF 2 V 50 kQ VR Synthesized Frequency Generator Figure 9: Circuit with a DC and AC voltage sources, capacitor, and resistor w
b) A capacitor C is connected in series with a 40 O resistor across a supply of frequency 60 Hz. A current of 3A flows and the circuit impedance is 50 N, Calculate: (i) the value of capacitance, C, (ii) the supply voltage, (ii) the phase angle between the supply voltage and current, (iv) the p.d. across the resistor, (v) the p.d. across the capacitor.
A single-phase AC voltage controller has a resistive load R = 10 Ohm, and the RMS input voltage is Vs = 230 V, 60 Hz. The delay angle is 120 degree. Then the RMS output voltage is: Select one: O a. 101 V O b. 39 V O c. None of the above O d. 143 V O e. 215 V
An inductive coil of resistance 15 ohms and inductance 0.2H is connected in parallel with a 100 micro farad capacitor to a variable frequency supply. Find the frequency at which the total current taken is in phase with the supply voltage. What is this value of this current if the voltage is 200v. Draw a phase diagram
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