Table #2 Complete all voltages and currents in the table according to the circuit inFigure 2VoltagesCurrentsV1 (0) =i1 (0*) =Vi (0*)=i1 (0*) =V2 (0')=i2 (0') =V2 (0*)=i2 (0*) =V3 (0')=i3 (0') =V3 (0*)=i3 (0*) =V4 (0')=14 (0') =%3DV4 (0*)=14 (0*) =Vc (0)=İL (0')=Vc (0*)=İL (0*) =VL (0')=is (0) =VL (0*)=is (0*) =Vsw (0)=Vsw (0*)= #2. Form the circuit shown in Figure 2, (1) Drawn the circuit respect to the switchactions which are before (t = 0") and after (t = 0*). (2) Also, you need to calculate allvoltages and currents with respect to the required time as listed in the Table #2 and(3) If we are going to use a BJT for this application instead of a mechanical switch,What is your recommendation for rated voltage and rated current of a BJT ? and why?V, = 9 V , R = 200 2 , R2 = 170 N , R3 = 320 NR = 260 N , L=15 mH , C = 25 nFVt = 0i,(1)R4v.(t)v. (1) i.(1)+i, (1)\+.+CV4v, (e)3R, v,(1)ZR2SwLti:(1).v,(1) –ww-R.i,()i,(1)Figure 2: Circuit for question #2

Answered: Image /qna-images/answer/3be465f4-410f-4dd8-8e26-f7028ae54d2b.jpg

Answered: #2. Form the circuit shown in Figure 2,…

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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Q2/ D'Arsnoval moving coil meter that modified to measure AC current with full wave rectifier, if the forward rectifier resistance is 502 , and its reverse resistance is infinity find: 1. R.. 2. The devise sensitivity for measuring DC voltage. 3. The devise sensitivity for measuring AC voltage Rs E =10 V, rm.s IT Lah2 It =1mA Rahi=400 2 Rhy 100 2 Rm = 500 2
please Exercise 1 c and d
please answer with written solution. thank you
Q1 a. Consider you have to choose b/w the Full-Wave Bridge Rectifier (FWBR) & Center-Tapped Full Wave Rectifier (CT-FWR) in one of your semester Lab projects. (1) Discuss the advantages of FWBR over CT-FWR which will justify, why to select the FWBR.
Design a full wave rectifier based on the circuit shown in Figure 5 below: N: N2 D3 RL ww US D, Figure 5 The required specification for the full wave rectifier circuit includes the peak output voltage of 5 V, deliver 100 mA to the load R1, and produce an output with a ripple of not more than 5 percent. An input line voltage of 220 V (ms), 50 Hz is available. Given V, =0.7 V. (d) Calculate v, (max). (e) Find the required turn ratio for the transformer. (1) Determine the Peak Inverse Voltage (PIV). (g) What is the effective load resistance? (h) Determine the required capacitance of the filter capacitor.
Three Phase Uncontrolled Half Wave Rectifiers find the value of Voltage and Currents (output de and Root Mean Square) with all the proved, then sketch the curve from 0-2 on these axes (vs, vo, ia, ib, ic, io) explain its operation.
D₁ R₁ W D₂Z R3 R₂ Reverse Biased D1 lo Forward Biased V₂ D2 Reverse Forward Biased lo Biased 0.7V Assume R₁ = R₂ = R3 = 5k, V₁ = 5V, and V₂ = 15V for the above circuit. The diodes' IV characteristics are also shown above. Based on the IV characteristic plots, what are the cut-off voltages of D1 and D2? VD1, cutoff [V] VD2,cutoff [V]
An AC voltage controller with common cathode has O a. two diodes to be conducted at a time b. one SRC to be controller at a time O c. two SRC to be controller at a time O d. four diodes to be conducted at a time
A rectifier voltmeter uses a full wave rectifier. The meter has an internal resistance of 50 N and requires a current of 1 mA for full scale deflection. The rectifiers each have zero forward resistance and infinite reverse resistance. Calculate the multiplier resistance required for full scale meter deflection with 10 V a.c.
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An ideal battery of terminal voltage 22 volts charges two practical batteries connected in parallel to each other. The parallel connection of the said practical batteries is connected across the ideal battery. The two practical batteries have the following specifications: 10 volts, 0.2 ohm; 8 volts, 0.5 ohm. Determine the total power dissipated by the internal resistances of the practical batteries.

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