代码搜索:功率电路

找到约 10,000 项符合「功率电路」的源代码

代码结果 10,000
热门代码: main.c GPIO I2C SPI UART timer interrupt ADC PWM LED
www.eeworm.com/read/274643/10861314

m pjzhouqi.m

clear; %功率谱估计 Fs=10000; %采样频率 L=2; %数据长度 n=0:1/Fs:L; N=length(n); x1=sin(2*pi*40*n); e=randn(1,N);%白噪声 x=x1+e; k=100; m=(N-1)/k; xk=zeros
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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
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www.eeworm.com/read/441199/7674595

txt result100.txt

迭代次数: 6 最终误差: 2.02668e-006 节点号 风电机输出功率 投入并联电容台数 18 100000 5 节点号 节点电压实部 节点电压虚部 节点电压幅值 1 1.05 0 1.05 2 0.940434 -0.0315394 0.940962 3 0.939199 -0.0316499 0.939
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www.eeworm.com/read/243135/12959190

m51 repeater.m51

BL51 BANKED LINKER/LOCATER V5.03 07/16/2006 11:34:36 PAGE 1 BL51 BANKED LINKER/LOCATER V5.03, INVOKED BY: C:\SILABS\MCU\IDEFILES\C51\BIN\BL51.EXE D:\深奥程序\微功率直放站\REPEATER.OBJ >>
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www.eeworm.com/read/243128/12960968

m51 repeater.m51

BL51 BANKED LINKER/LOCATER V5.03 07/16/2006 11:34:36 PAGE 1 BL51 BANKED LINKER/LOCATER V5.03, INVOKED BY: C:\SILABS\MCU\IDEFILES\C51\BIN\BL51.EXE D:\深奥程序\微功率直放站\REPEATER.OBJ >>
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www.eeworm.com/read/327775/13062202

m suboptim_main.m

%这是我自己验证算法性能时的参数赋值,并有图形,可做参考 clc aa=linspace(0.1,10,20); %aa=10*rand(1,20) K=20; p=suboptimal_alloc(qq,K) sum(p); plot(qq,p,'*') xlabel('信道信息'); ylabel('功率分配'); grid
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www.eeworm.com/read/327775/13062238

m suboptim_main.m

%这是我自己验证算法性能时的参数赋值,并有图形,可做参考 clc aa=linspace(0.1,10,20); %aa=10*rand(1,20) K=20; p=suboptimal_alloc(qq,K) sum(p); plot(qq,p,'*') xlabel('信道信息'); ylabel('功率分配'); grid
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www.eeworm.com/read/327775/13062277

m suboptim_main.m

%这是我自己验证算法性能时的参数赋值,并有图形,可做参考 clc aa=linspace(0.1,10,20); %aa=10*rand(1,20) K=20; p=suboptimal_alloc(qq,K) sum(p); plot(qq,p,'*') xlabel('信道信息'); ylabel('功率分配'); grid
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www.eeworm.com/read/327775/13062316

m suboptim_main.m

%这是我自己验证算法性能时的参数赋值,并有图形,可做参考 clc aa=linspace(0.1,10,20); %aa=10*rand(1,20) K=20; p=suboptimal_alloc(qq,K) sum(p); plot(qq,p,'*') xlabel('信道信息'); ylabel('功率分配'); grid
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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
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