In the circuit given below, Cin = Cb = 4.7 µF, CL = 10 nF, R1 = 68 kn, R2 = 22 kn. RD = 2.2 k2, RS = 140 0 and f = 10 kHz. In this case, find the lower and upper corner frequencies of the circuit.unegore devrenbelene)Note-1: The voltage gain in the middle band frequency is Avide) = 27 dB. (NotetNote-2: The gain of the circuit is given as below for A = 0. (Nate kser-ng(Rol/)sCin Rin1+ sCin Rin (1+ sC;Rp)(sC„Rs + (1+ gmRs))Rin-9mRp(1 + sC,Rs)А,Rin ++ (Rs//5c,ImsCinR1RDVoutVDDCLCin버 M1VinG12V1R2RSCbO a. fs1 = 0 Hz, fs2 = 338,63 Hz, fp1 = 2.04 Hz, fp2 = 7.23 kHz, and fp3 = 821,27 HzO b. fs1 = 0 Hz, fs2 = 241,88 Hz, fp1 = 1,63 Hz, fp2 = 5,78 kHz, and fp3 = 586,62 HzO fs1 = 0 Hz, fs2 = 241,88 Hz, fp1 = 2.04 Hz, fp2 = 7.23 kHz, and fp3 = 586,62 HzO d. fs1 = 0 Hz, fs2 = 435,38 Hz, fp1 = 2.04 Hz, fp2 = 7.23 kHz, and fp3 = 1055,91 HzO e. fs1 = 0 Hz, fs2 = 387,00 Hz, fp1 = 2.04 Hz, fp2 = 7.23 kHz, and fp3 = 938,59 Hz

Given the expression of overall gain of the circuit:…

ind trie IOW bulemee) ansindaki herilim Note-1: The voltage gain in the middle band frequency is Avide) = 27 dB. (Notet Note-2: The gain of the circuit is given as below for A = 0. (Nat - (Rpl/ 0) -ImRp(1 + sC,R3) Rin sCinRin A, 1+ sCin Rin (1 + sC¿Rp)(sC„Rs + (1+ gmRs)) 1 Rin + sCin Im + (Rs// 5 R1 RD Vout D VDD CL Cin K M1 Vin G 12

ind trie IOW bulemee) ansindaki herilim Note-1: The voltage gain in the middle band frequency is Avide) = 27 dB. (Notet Note-2: The gain of the circuit is given as below for A = 0. (Nat - (Rpl/ 0) -ImRp(1 + sC,R3) Rin sCinRin A, 1+ sCin Rin (1 + sC¿Rp)(sC„Rs + (1+ gmRs)) 1 Rin + sCin Im + (Rs// 5 R1 RD Vout D VDD CL Cin K M1 Vin G 12

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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