How to plot the spectrum of a high frequency sine wave of above 1GHz

13 Feb 2014
1 Answer
Answer Accepted
Updated 17 Feb 2014
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 Accepted Answer

Wayne King
Wayne King on 13 Feb 2014

1 vote

Do you have the Signal Processing Toolbox:
Fs = 4e9;
t = 0:1/Fs:0.001-(1/Fs);
x = cos(2*pi*1.5e9*t);
[Pxx,F] = periodogram(x,[],length(x),Fs,'power');
plot(F,Pxx)
If you do not, you can use fft()
xdft = fft(x);
xdft = xdft(1:length(x)/2+1); % works for even length x
deltaf = Fs/length(x);
freqvec = 0:deltaf:Fs/2;
plot(freqvec,abs(xdft))
Note that latter is not scaled.

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Praveen kumar
Praveen kumar on 14 Feb 2014
After performing autocorrelation to sinusoidal signal, i'm not getting the spectrum at high frequencies.
Praveen kumar
Praveen kumar on 17 Feb 2014
I have written the following code inorder to determine the Spectrum of autocorrelated noisy sine signal. But, I'm not able to get the spectrum for higher frequencies above 1MHz. Please inform where i have to change the code... close all; clear all; clc; %% Time specifications: Fs = 1e4; % samples per second dt = 1/Fs; % seconds per sample StopTime = 1; % seconds t = (0:dt:StopTime-dt)'; N = size(t,1);
%%Sine wave:
Fc = 1e3; % hertz
x = sin(2*pi*Fc*t);
noisy_x = x + 0.5*randn(size(x));
y = xcorr(noisy_x,5e3,'biased');
display(size(y));
subplot(2,1,1);
plot(t,x);
title('Sine signal');
subplot(2,1,2);
plot(t,noisy_x);
title('Noisy signal');
%%Fourier Transform:
X = fftshift(fft(y));
%%Frequency specifications:
dF = Fs/N; % hertz
f = -Fs/2:dF:Fs/2; % hertz
display(size(f));
display(size(X));
%%Plot the spectrum:
figure;
plot(f,abs(X)/N);
xlabel('Frequency (in hertz)');
title('Autocorrelation spectrum');

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