Help to plot a frequency response of a function
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I need to plot the following S21 function:
S11= 1/(2RojωC -1)
S21 = Ro/((-1/jωC)+Ro) * (1+S11)
I then need to plot the following S21 function:
S11= -RojωC/(RojωC-2)
S21= 1+ S11
The above euqations need to have:
C = 1.5pF
Ro = 50Ω
ω = 2π*(0GHz to 20GHz)
Intervals: 0.1 GHZ
x axis = Freqency
y axis = dB
3 Kommentare
Mathieu NOE
am 5 Dez. 2022
hello
what have you tried so far ?
Jimi Cunningham
am 5 Dez. 2022
Jimi Cunningham
am 5 Dez. 2022
Akzeptierte Antwort
Here is a basic approach (not using any toolbox functions for frequency response), that might give you some ideas of how this can be done in MATLAB
% parameters
C = 1.5e-9 % [Farads]
Ro = 50 % [Ohms]
fRange = [0 20e9] % [frequency range Hz]
interval = 0.1e9 % [plotting interval]
% create vector of frequency values to be evaluated
f = fRange(1):interval:fRange(2)
% convert to radian frequency
omega = 2*pi*f;
j = 1i; % define j (just in case j is used somewhere else as an index)
% evaluate functions at each frequency (vectorized)
S11 = 1.0 ./(2*Ro*j*omega*C -1);
S21 = Ro ./((-1.0 ./(j*omega*C))+Ro) .* (1+S11);
% find the magnitude of S21 and convert to dB
dB = 20*log10(abs(S21));
% plot results
plot(f,dB)
xlabel('frequency [Hz]')
ylabel('S21 [dB]')
Here is what running this code will give you
% parameters
C = 1.5e-9 % [Farads]
Ro = 50 % [Ohms]
fRange = [0 20e9] % [frequency range Hz]
interval = 0.1e9 % [plotting interval]
% create vector of frequency values to be evaluated
f = fRange(1):interval:fRange(2)
% convert to radian frequency
omega = 2*pi*f;
j = 1i; % define j (just in case j is used somewhere else as an index)
% evaluate functions at each frequency (vectorized) note ./, .* for element
% wise operations
S11 = 1.0 ./(2*Ro*j*omega*C -1);
S21 = Ro ./((-1.0 ./(j*omega*C))+Ro) .* (1+S11);
% find the magnitude of S21 and convert to dB
dB = 20*log10(abs(S21));
% plot results
plot(f,dB)
xlabel('frequency [Hz]')
ylabel('S21 [dB]')
5 Kommentare
Jon
am 5 Dez. 2022
Also if you need a quick overall introduction to MATLAB and haven't already done so I recommend taking the MATLAB "On-Ramp" https://www.mathworks.com/learn/tutorials/matlab-onramp.html
Jimi Cunningham
am 6 Dez. 2022
Jon
am 6 Dez. 2022
Glad that helped. If that answered your question please accept the answer so that others will know that an answer is available
Jimi Cunningham
am 8 Dez. 2022
Jon
am 8 Dez. 2022
You can use semilogx for this. A quick way to see the documentation for functions is to type on the command line doc followed by the name of the command. So in this case type on the command line doc semilogx, and you will get all of the details on how to use the function.
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