代码搜索:分集增益
找到约 717 项符合「分集增益」的源代码
代码结果 717
www.eeworm.com/read/188554/8528920
ini adjargu.ini
; 调整热电池采集器的增益和校准的参数
[Argument]
DC_GAIN=19.5
AC_REFVOLTAGE=2.43
AC_GAIN=10.0/9.2
[配置]
电池型号=SD-1
激活门限=23.5
[数据目录]
默认路径=E:\BattTest V2.1\Debug\Data
www.eeworm.com/read/163197/10171384
m example6_26.m
k1=16.7/0.125;
z1=[0];
p1=[-1.25 -4 -16];
[num,den]=zp2tf(z1,p1,k1);
figure(1)
ngrid('new');
nichols(num,den);
title('Nichols 曲线图');
xlabel('开环相位');
ylabel('开环增益');
www.eeworm.com/read/161098/10451550
m ex0618.m
% Ex0618 绘制开环传递函数的根轨迹
num=1 ;
den=[conv([1,4],conv([1 -2+4i],[1 -2-4i])),0]
G=tf(num,den)
rlocus(G) %绘制根轨迹
[r,k]=rlocus(G) %得出闭环极点和增益
www.eeworm.com/read/460020/7258796
m example6_26.m
k1=16.7/0.125;
z1=[0];
p1=[-1.25 -4 -16];
[num,den]=zp2tf(z1,p1,k1);
figure(1)
ngrid('new');
nichols(num,den);
title('Nichols 曲线图');
xlabel('开环相位');
ylabel('开环增益');
www.eeworm.com/read/442577/7649280
m add_channel_effect.m
function [channel,rx,a,noise_vector]=add_channel_muti_effect(channel,rx,signal_sequence,P);
%信道影响函数,并且能够找到信道增益与噪声方差2倍的比值,以便执行功率分配
global signal;
%channel.attenuation.d=1/(channel.attenuation.di
www.eeworm.com/read/298099/7974253
m ex0618.m
% Ex0618 绘制开环传递函数的根轨迹
num=1 ;
den=[conv([1,4],conv([1 -2+4i],[1 -2-4i])),0]
G=tf(num,den)
rlocus(G) %绘制根轨迹
[r,k]=rlocus(G) %得出闭环极点和增益
www.eeworm.com/read/140057/13112770
m ex0618.m
% Ex0618 绘制开环传递函数的根轨迹
num=1 ;
den=[conv([1,4],conv([1 -2+4i],[1 -2-4i])),0]
G=tf(num,den)
rlocus(G) %绘制根轨迹
[r,k]=rlocus(G) %得出闭环极点和增益
www.eeworm.com/read/324406/13264148
m add_channel_effect.m
function [channel,rx,a,noise_vector]=add_channel_muti_effect(channel,rx,signal_sequence,P);
%信道影响函数,并且能够找到信道增益与噪声方差2倍的比值,以便执行功率分配
global signal;
%channel.attenuation.d=1/(channel.attenuation.di
www.eeworm.com/read/318913/13466852
m simple_dsss.m
%File simple_dsss.m
code_length=2000; %信息码元个数
SF=63; %扩频增益
fs=31500000; %采样率
f=50000; %信息码速率
%产生信息码
N=1:code_length;
rand('seed',0);
x=sign(rand(1,code_length)-0.5); %x为信息
www.eeworm.com/read/478650/6712551
m ex0618.m
% Ex0618 绘制开环传递函数的根轨迹
num=1 ;
den=[conv([1,4],conv([1 -2+4i],[1 -2-4i])),0]
G=tf(num,den)
rlocus(G) %绘制根轨迹
[r,k]=rlocus(G) %得出闭环极点和增益