代码搜索:光信号检测
找到约 10,000 项符合「光信号检测」的源代码
代码结果 10,000
www.eeworm.com/read/138687/13225360
a51 sh605.a51
;定义端口
SCL EQU P1.0;
SDA EQU P1.1;
;开始信号的传递
START: CLR SCL;
SETB SDA;
ACALL DELAY;
SETB SCL;
ACALL DELAY;
CLR SDA;
ACALL DELAY;
CLR SCL;
RET;
;停止信号的传递
STOP: CLR SCL;
CLR SD
www.eeworm.com/read/239586/13271026
h uart.h
#ifndef __UART__H_
#define __UART__H_
/*** I/O口模拟UART控制信号(低电平有效) ***/
//ARM->PC流控信号
#define CTS0 (1
www.eeworm.com/read/317818/13496918
a51 sh605.a51
;定义端口
SCL EQU P1.0;
SDA EQU P1.1;
;开始信号的传递
START: CLR SCL;
SETB SDA;
ACALL DELAY;
SETB SCL;
ACALL DELAY;
CLR SDA;
ACALL DELAY;
CLR SCL;
RET;
;停止信号的传递
STOP: CLR SCL;
CLR SD
www.eeworm.com/read/312724/13605894
m fmdem.m
clear all;
clc;
[m,fs,bits]=wavread('C:\Documents and Settings\zhaoliang\桌面\weina\hujiaozhuanyi.wav') %读取音乐信号
len=size(m,1);
f=fs*(0:(len-1))/len;
figure(1);
subplot(2,1,1),plot(m); %原始音乐信号
www.eeworm.com/read/304875/13784549
m example6_9.m
load noispol;
s=noispol;
%==========================
%用db3小波进行4层分解
[c,l]=wavedec(s,4,'db3');
subplot(5,1,1);
plot(s);
title('原始信号及各层细节信号重构图');
Ylabel('s');
%==========================
%重构分解结
www.eeworm.com/read/492682/6418936
v clock_gen.v
// Clock_Gen.v
/****************为LCD_Drvier模块产生500Hz的时钟信号**************/
module Clock_Gen(clk_48M,rst,clk_LCD);
input clk_48M,rst; //rst为全局复位信号(高电平有效)
output
www.eeworm.com/read/487893/6501661
sdf lisa1.sdf
ISIS SCHEMATIC DESCRIPTION FORMAT 6.1
=====================================
Design: E:\EDA_单片机\单片机C教程\单片机程序\信号发生器\信号发生器.DSN
Doc. no.:
Revision:
Author:
Created: 08/02/2
www.eeworm.com/read/486147/6543963
bak vga.v.bak
module liid(
input clk,
input rst_n,
output hsync,//行同步信号
output vsync,//场同步信号
output vga_r,
output vga_g,
output vga_b,
input cs,
input we,
input [7:0]data,
input [15:0]add
www.eeworm.com/read/485466/6562965
m example6_9.m
load noispol;
s=noispol;
%==========================
%用db3小波进行4层分解
[c,l]=wavedec(s,4,'db3');
subplot(5,1,1);
plot(s);
title('原始信号及各层细节信号重构图');
Ylabel('s');
%==========================
%重构分解结
www.eeworm.com/read/482646/6620617
m example6_9.m
load noispol;
s=noispol;
%==========================
%用db3小波进行4层分解
[c,l]=wavedec(s,4,'db3');
subplot(5,1,1);
plot(s);
title('原始信号及各层细节信号重构图');
Ylabel('s');
%==========================
%重构分解结