At time t = 0 the capacitor in the circuit of Fig. 1 has an initial voltage of Vo V with polarity asmarked and the inductor current is zero. The diode in the circuit is ideal.The switch (Sw) is closed at time t= 0 and opened after t= 0.5 ms. At the time at which theinductor current goes to zero, the switch is closed again and opened 0.5 ms later. What is thevalue of the capacitor voltage and the time when the inductor current goes to zero again after thesecond opening of the switch.Data is given in µH, µF, N and V as:[L, C, R, RLoad, Vo, Vin] = [400, 100, 0.5, 10, 15, 30]+VinLRSwCFigure 1: Circuit Diagram for Q-1RLoad

The given circuit diagram is shown below,

Answered: At time t = 0 the capacitor in the…

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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Answer: + There are two questions, first about an ideal diode and then about a modeled diode. For the modeled diode, the voltage across its terminals is 0.7V when it is "on". Which of the following statements are true about the ideal diode above? a. It is possible for i to be positive. b. If i= 0, then v ≤ 0. c. If i > 0, then the diode can be replaced by an independent current source. d. If v = 0, then the diode can be replaced by an independent current source. e. If i = 0, then the diode can be replaced by an independent current source. f. It is impossible for v to be negative. g. None of these statements is true. Enter a single string of letters, in alphabetical order ("abcdef"). V Answer: Which of the following statements are true about the modeled diode above? a. If i= 0, then the diode can be replaced by a open circuit. b. It is possible for i to be equal to 0. c. If v = 0, then i = 0. d. If v<0, then the diode can be replaced by a open circuit. e. If v = 0, then the diode can be…
The diode in the circuit below has a turn-on voltage of VD(on) = 0.7 V. (a) Given the input waveform below, sketch the corresponding output waveform and explain the function of the circuit. C₁ AV₂ ·∞+N-T4Y5 ww Rs P₁ZZ Vo The function of the circuit is SAMPEAM t (b) If the capacitor C₁ is 1 µF, calculate how much charge is stored in the capacitor in steady state.
a) To what value R must be adjusted in the following circuit to make IZ = 70 mA. Assume VZ =20 V at 65 mA and ZZ = 23 Ω. What is the Zener voltage at 70o C, if it has a positive TC of 0.08 %/oC.? b) Using a Complete diode model, find the diode current (ID), diode voltage (VD), and output voltage (Vo) for the diode circuit shown below. Given that: Vs = 20 V, RL=3 kΩ , Barrier Potential VF = 0.3 V , and r’d = 70 Ω. If the diode was reversed and IR = 200 µA, Determine the diode reverse voltage (VR)

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