I need to present frequency modulation of 2 armonic signals, using only traditional formulas (no fmmod), the modulated signal doesn't look right. Can someone help?

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Stefan Ioan Voinescu
Stefan Ioan Voinescu on 15 Jan 2023
Answered: Vishwa on 24 Mar 2023
This is my code, I have a modulating signal a carrier signal and I need to show FM using a BETA=0.1 (modulation index). These are the only formulas present in my UNI Course :
y=cos(2*pi*Fc*t+B*sin(2*pi*Fm*t)) //GENERAL FORMULA
y=Ac.*cos(Oc*t)-B*Ac.*sin(Wm*t).*sin(Oc*t) //B=0.1
y=Ac.*cos(Oc*t)-(B*Ac)/2.*cos((Oc-Wm)*t)+(B*Ac)/2.*cos((Oc+Wm)*t).
//top is modulating signal,middle is carrier,bottom is modulated
Using these formulas I get the exact same result; I can see that the modulation is not happening, as the modulated signal 'y' has a constant frequency and looks similar to the carrier.
Is there a problem with the formulas, or is my code missing something?
(I am new to MATLAB coding and the teacher told us this problem was difficult, so I am assuming there are extra steps I need to take.)
//CODE STARTS HERE
clc
close all
format long
Fm=10;%modulating frequency
Fc=100;%carrier frequency
Am=3;
Ac=3;
Fs=10000;
B=0.1;%B<0.4
Oc=Fc*2*pi;
Wm=Fm*2*pi;
Ts = 1/Fs;
t = 0 : Ts : 0.2;
xm=Am*sin(2*pi*Fm*t);%modulating signal
xc=Ac*cos(2*pi*Fc*t);%carrier signal
%y=cos(2*pi*Fc*t+B*sin(2*pi*Fm*t)) ; //B<0.4
%y=Ac.*cos(Oc*t)-B*Ac.*sin(Wm*t).*sin(Oc*t);
y=Ac.*cos(Oc*t)-(B*Ac)/2.*cos((Oc-Wm)*t)+(B*Ac)/2.*cos((Oc+Wm)*t)
figure
subplot(3,1,1)
plot(t,xm,'r')
subplot(3,1,2)
plot(t,xc,'b');
subplot(3,1,3)
plot(t,y,'g');
grid
//CODE ENDS HERE

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Answers (1)

Vishwa
Vishwa on 24 Mar 2023
Ran in:
Hi Stefan,
Only your first equation is for frequency modulation rest two are for amplitude modulation, so use that only.
y=cos(2*pi*Fc*t+B*sin(2*pi*Fm*t)) //GENERAL FORMULA
Also it just so happens that your modulation index is very low (B=0.1), so your modulated waveform is visibily indistinguishable from your carrier.
Here is your code with value of modulation index equal to 5.
clc
close all
format long
Fm=10;%modulating frequency
Fc=100;%carrier frequency
Am=3;
Ac=3;
Fs=10000;
B=5;%B<0.4
Oc=Fc*2*pi;
Wm=Fm*2*pi;
Ts = 1/Fs;
t = 0 : Ts : 0.2;
xm=Am*sin(2*pi*Fm*t);%modulating signal
xc=Ac*cos(2*pi*Fc*t);%carrier signal
y=cos(2*pi*Fc*t+B*sin(2*pi*Fm*t)) ; %B<0.4
figure
subplot(3,1,1)
plot(t,xm,'r')
subplot(3,1,2)
plot(t,xc,'b');
subplot(3,1,3)
plot(t,y,'g');
grid
Hope it helps.

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