毕业论文 基于matlab的PSK通信系统仿真

时间:2018-05-23 17:36:39
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文件名称:毕业论文 基于matlab的PSK通信系统仿真

文件大小:589KB

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更新时间:2018-05-23 17:36:39

matlab PSK 调制与解调

clear all; close all; fs=8e5;%抽样频率 fm=20e3;%基带频率 n=2*(6*fs/fm); final=(1/fs)*(n-1); fc=2e5; % 载波频率 t=0:1/fs:(final); Fn=fs/2;%耐奎斯特频率 %用正弦波产生方波 %========================================== twopi_fc_t=2*pi*fm*t; A=1; phi=0; x = A * cos(twopi_fc_t + phi); % 方波 am=1; x(x>0)=am; x(x<0)=-1; figure(1) subplot(321); plot(t,x); axis([0 2e-4 -2 2]); title('基带信号'); grid on car=sin(2*pi*fc*t);%载波 ask=x.*car;%载波调制 subplot(322); plot(t,ask); axis([0 200e-6 -2 2]); title('PSK信号'); grid on; %===================================================== vn=0.1; noise=vn*(randn(size(t)));%产生噪音 subplot(323); plot(t,noise); grid on; title('噪音信号'); axis([0 .2e-3 -1 1]); askn=(ask+noise);%调制后加噪 subplot(324); plot(t,askn); axis([0 200e-6 -2 2]); title('加噪后信号'); grid on; %带通滤波 %====================================================================== fBW=40e3; f=[0:3e3:4e5]; w=2*pi*f/fs; z=exp(w*j); BW=2*pi*fBW/fs; a=.8547;%BW=2(1-a)/sqrt(a) p=(j^2*a^2); gain=.135; Hz=gain*(z+1).*(z-1)./(z.^2-(p)); subplot(325); plot(f,abs(Hz)); title('带通滤波器'); grid on; Hz(Hz==0)=10^(8);%avoid log(0) subplot(326); plot(f,20*log10(abs(Hz))); grid on; title('Receiver -3dB Filter Response'); axis([1e5 3e5 -3 1]); %滤波器系数 a=[1 0 0.7305];%[1 0 p] b=[0.135 0 -0.135];%gain*[1 0 -1] faskn=filter(b,a,askn); figure(2) subplot(321); plot(t,faskn); axis([0 100e-6 -2 2]); title('通过带通滤波后输出'); grid on; cm=faskn.*car;%解调 subplot(322); plot(t,cm); axis([0 100e-6 -2 2]); grid on; title('通过相乘器后输出'); %低通滤波器 %================================================================== p=0.72; gain1=0.14;%gain=(1-p)/2 Hz1=gain1*(z+1)./(z-(p)); subplot(323); Hz1(Hz1==0)=10^(-8);%avoid log(0) plot(f,20*log10(abs(Hz1))); grid on; title('LPF -3dB response'); axis([0 5e4 -3 1]); %滤波器系数 a1=[1 -0.72];%(z-(p)) b1=[0.14 0.14];%gain*[1 1] so=filter(b1,a1,cm); so=so*10;%add gain so=so-mean(so);%removes DC component subplot(324); plot(t,so); axis([0 8e-4 -3.5 3.5]); title('通过低通滤波器后输出'); grid on; %Comparator %====================================================== High=2.5; Low=-2.5; vt=0;%设立比较标准 error=0; len1=length(so); for ii=1:len1 if so(ii) >= vt Vs(ii)=High; else Vs(ii)=Low; end end Vo=Vs; subplot(325); plot (t,Vo), title('解调后输出信号'), axis([0 2e-4 -5 5]) grid on; xlabel('时间 (s)'), ylabel('幅度(V)'),


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