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20 log10|H(0)|, dB Design a circuit that has the asymptotic magnitude Bode plot shown below. Assume C1 = 0.1uF 32 12 400 4 k 40 k w (rad/s, log scale) 40

20 log10|H(0)|, dB Design a circuit that has the asymptotic magnitude Bode plot shown below. Assume C1 = 0.1uF 32 12 400 4 k 40 k w (rad/s, log scale) 40

Introductory Circuit Analysis (13th Edition)
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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20 log₁0|H(0)|, dB Design a circuit that has the asymptotic magnitude Bode plot shown below. Assume C1 = 0.1uF 32 12 400 4 k 40 k (0 ad/s, log scale) 40
Transcribed Image Text:20 log₁0|H(0)|, dB Design a circuit that has the asymptotic magnitude Bode plot shown below. Assume C1 = 0.1uF 32 12 400 4 k 40 k (0 ad/s, log scale) 40
Table 13.3-2 A Collection of Circuits and Corresponding Network Functions CIRCUIT R₁ R₂ www www HE C₁ C₂ 0₁ 2₁ R₁ R₁ R₁ с M U₁ U₁ R₁ www C₁ R₂ www C R₂ ww R₂ www RL R₂ www C₂ R₁ RL + VO RL VO R₁ VO NETWORK FUNCTION H(o)=-k where H(o)=- where 1 + iz k= 2 p= (0) 1+jp R₂ H(o)=-k where R₁ 1 C₁R₁ 1 C₂ R₂ k 1+j (0) Р R₂ R₁ k= 1 P= CR2 H(o)-k -k (¹ + ja) where R₂ k= R₁ Z = 1 CR1 joo 1+j% k = R₂C 1 p= CR₁ k(jeo) (¹ + i)(¹+₂) H(o)=- where k= C₁R₂ 1 P1 = C₁R1 P2= C₂ R2
Transcribed Image Text:Table 13.3-2 A Collection of Circuits and Corresponding Network Functions CIRCUIT R₁ R₂ www www HE C₁ C₂ 0₁ 2₁ R₁ R₁ R₁ с M U₁ U₁ R₁ www C₁ R₂ www C R₂ ww R₂ www RL R₂ www C₂ R₁ RL + VO RL VO R₁ VO NETWORK FUNCTION H(o)=-k where H(o)=- where 1 + iz k= 2 p= (0) 1+jp R₂ H(o)=-k where R₁ 1 C₁R₁ 1 C₂ R₂ k 1+j (0) Р R₂ R₁ k= 1 P= CR2 H(o)-k -k (¹ + ja) where R₂ k= R₁ Z = 1 CR1 joo 1+j% k = R₂C 1 p= CR₁ k(jeo) (¹ + i)(¹+₂) H(o)=- where k= C₁R₂ 1 P1 = C₁R1 P2= C₂ R2
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