I have a circuit that I want to gain its transfer function.I've attached a JPG file.

20 Dec 2014
1 Answer
Answer Accepted
Updated 14 Jan 2015
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 Accepted Answer

Shoaibur Rahman
Shoaibur Rahman on 20 Dec 2014

1 vote

Input voltage (across left C) = Vi
Output voltage (across right C) = Vo
Apply voltage divider rule in RL and C (at right) branch:
Vo = ((1/jwC)/(R+jwL+1/jwC))*Vi, that gives the transfer function H:
H(jw) = Vo/Vi = (1/jwC)/(R+jWL+1/jwC) = |Ho(jw)|e^(j*theta0)
where, Ho(jw) = abs(H(jw)) and theta0 = angle(H(jw))
Matlab code:
R = 1; L = 1; C = 1; % use values what you want
w = 0:0.1:10*pi; % define the frequency range
H = 1./(1+w.^2*L*C+1j*w*R*C);
H0 = abs(H);
theta0 = angle(H);
subplot(211), plot(w,H0)
subplot(212), plot(w,theta0)

3 Comments
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vahid torabi
vahid torabi on 5 Jan 2015
Thank you so much for answering me dear Rahman.
vahid torabi
vahid torabi on 6 Jan 2015
Thank you so much sir; but : H = 1./(1-w.^2*L*C+1j*w*R*C) is correct. Am I right??? you wrote 1./(1+w.^2*L*C+1j*w*R*C)!

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