1.e(t)A)B)B.1)B.2)Given: R1 = 20 k(ohms),R2= 40 k(ohms)C= 1 mFB.3)The figure blow is op-amp circuit:B.4)R₁wwww (rad/s)00.02513w (rad/s)00.025w (rad/s)00.025www.+Determine basic transfer functionFind frequency response of the system.w (rad/s)|G(jw)|00.025eo(t)Degree G (jw) (rad)IG(jw)| dBDegree G (jw)(deg)

Answered: Image /qna-images/answer/23b4d64d-ce1b-4176-99b3-f00dae8710dc.jpg

1. A) B) B.1) B.2) Given: R1 = 20 k(ohms), R2= 40 k(ohms) C= 1 mF Determine basic transfer function Find frequency response of the system. w (rad/s) |G(jw)| 0 0.025 B.3)L The figure blow is op-amp circuit: B.4) R₁ ww w (rad/s) 0 0.025 w (rad/s) 0 0.025 13 w (rad/s) 0 0.025 www R₂ Degree G (jw) (rad) IG(jw)| dB Degree G (jw)(deg)

1. A) B) B.1) B.2) Given: R1 = 20 k(ohms), R2= 40 k(ohms) C= 1 mF Determine basic transfer function Find frequency response of the system. w (rad/s) |G(jw)| 0 0.025 B.3)L The figure blow is op-amp circuit: B.4) R₁ ww w (rad/s) 0 0.025 w (rad/s) 0 0.025 13 w (rad/s) 0 0.025 www R₂ Degree G (jw) (rad) IG(jw)| dB Degree G (jw)(deg)

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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Referring to the output voltage waveform below, find the following:
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For the following zener clipper draw the output waveform Vz1 = 5V, Vz1 = 7V VK = 0.8v lkn ISV V₁₂ 5V 2, 72. -5V Q2 Determine The Output Waveform And Calculate The current and PIV 1kQ 1kQ 10 V 10 si www www Q. For the circuit shown in Figure below (1),find the maximum and minimum values of zener diod current. Live 5 ΚΩ www I IL 15 80-120 V 10 ΚΩ LIR 101 102 1015 S Ne 1 k0 www Iz 50 V U2 -ot V. Fumal inash
A boost converter is required to have an output voltage of 8 V andsupply a load current of 1 A. The input voltage varies from 2.7 to4.2 V. A control circuit adjusts the duty cycle to keep the outputvoltage constant. If the switching frequency is 200 kHz, determine:i. a value for the inductor such that the variation in inductorcurrent is no more than 40% of the average inductor current forall operating conditions.ii. a value for the capacitor such that the output voltage ripple isno more than 2%.iii. in case the OFF period is reduced by 30% for constantfrequency operation, find the new output voltage
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Draw the output on top of the input waveforms for the circuits below. For all circuits in this question, assume that +Vout(max)= +10V and -Vout(max)= -10V .
A boost converter is required to have an output voltage of 8 V and supply a load current of 1 A. The input voltage varies from 2.7 to 4.2 V. A control circuit adjusts the duty ratio to keep the output voltage constant. Select the switching frequency. Determine a value for the inductor such that the variation in inductor current is no more than 40 percent of the average inductor current for all operating conditions. Determine a value of an ideal capacitor such that the output voltage ripple is no more than 2 percent. Determine the maximum capacitor equivalent series resistance for a 2 percent ripple.
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DC to AC 1) Determine the efficiency of the following DC to AC converter (i.e. how much of the energy is in the Ist harmonic?). (on for 10ms (+20V), off for 20ms, on for 10ms (-20V), off for 20ms, repeat) +20V 20ms 20ms 10ms ov 10ms -20V 1) Determine the efficiency of the following DC to AC converter (i.e. how much of the energy is in the Ist harmonic?). +2-V -20V 10ms 20ms Oms 30ms 40ms