系统中采用温度传感器AD590实现温度信号采集,采集的温度信号通过ADC0809实现A/D转换后输入远端单片机进行处理并通过RS-485接口传输至近端单片机并在近端完成测量结果的显示以及键盘控制实现通道选择等功能
上传时间: 2013-12-15
上传用户:jyycc
通常GPS定位信息接收系统主要由GPS接收天线、变频器、信号通道、微处理器、存储器以及电源等部分组成。由于GPS定位信息内容较少,因此多用RS-232串口将定位信息(NEMA0183语句)从GPS接收机传送到计算机中进行信息提取处理。
上传时间: 2014-01-01
上传用户:fxf126@126.com
The UMTS Physical Layer model consists of an end-to-end (transmitter-to-receiver) simulation of the Frequency Division Duplex (FDD) Downlink physical layer for several Dedicated Channels (DCH) as specified by the 3GPP standard (Release 99).
标签: transmitter-to-receiver end-to-end simulation Physical
上传时间: 2014-01-11
上传用户:it男一枚
Source code of Radio Control Nikon Digital Camera Shutle. Using for Fly RC Aircraft with Nikon D40,D70,D80,D90 Models. It work with 1 free channels of RX on board of fly model.
标签: Nikon Aircraft Control Digital
上传时间: 2013-12-12
上传用户:xinyuzhiqiwuwu
A MATLAB program has been written to investigate Orthogonal Frequency Division Multiplexing (OFDM) communication systems. This program is valuable for future researchers simulating systems that are too theoretically complex to analyze. Single-carrier QAM and multicarrier OFDM are compared to demonstrate the strength of OFDM in multipath channels. Two graphical user interface demonstrations show some of the basic concepts of OFDM.
标签: Multiplexing investigate Orthogonal Frequency
上传时间: 2013-12-09
上传用户:redmoons
第一章、ALTERA QUATUSII 5.0 使用介绍...................................... 3 1. 概述.................................................................. 3 2. QUATUSII 设计过程..................................................... 5 2.1. 建立工程.......................................................... 5 2.2. 建立设计.......................................................... 6 2.2.1 使用QUATUSII BLOCK EDITOR 建立原理图文件.............................. 7 2.2、2 使用 QUARTUS II TEXT EDITOR .......................................... 8 2.2.3 使用 VERILOG HDL、VHDL 与 AHDL ...................................... 9 3. 编译综合设计.......................................................... 9 4. 仿真工程............................................................. 11 5. 分配设备与管脚....................................................... 12 6. 程序下载............................................................. 15 7. 调试与软件逻辑分析仪的使用........................................... 16 7.1. 设置和运行 SIGNALTAP II 逻辑分析器................................. 17 7.2. 设置触发器: ..................................................... 18 第二章 FPGA 试验平台介绍................................................. 19 1 简介................................................................... 19 2 主要的器件和特性....................................................... 19 3 LED,拨码开关和按键................................................... 21 3.1 十二个发光二极管(LED)七段数码显示器.............................. 21 3.2 四位拨码开关和两个功能按键......................................... 24 4 RS-232 串口............................................................ 24 5 PS/2 鼠标、键盘接口.................................................... 26 6 VGA 接口.............................................................. 26 7 USB1.1 接口........................................................... 26 8 LCD 接口.............................................................. 27 9 高速,异步SRAM ....................................................... 27 10 高速,同步SDRAM ...................................................... 33 11 大容量,快速FLASH .................................................... 35 12 USB2.0 芯片接口....................................................... 38 13 编程和调试接口....................................................... 39 14 时钟源............................................................... 39 15 电源方案............................................................. 41 16 复位电路............................................................. 42 17 扩展板接口........................................................... 42 第三章 数字电路与数字系统试验........................................... 45 第一部分 基础试验....................................................... 45 实验一 3/8 译码器....................................................... 45 实验二 分频器........................................................... 47 实验三 BCD 七段显示译码器实验............................................ 47 实验四 模拟74LS160 计数器实验........................................... 50 实验五 交通灯控制器..................................................... 51 实验六 乒乓球游戏机..................................................... 52 试验七 扫描数码显示器................................................... 54 试验八 频率计........................................................... 56 第二部分 接口控制器试验................................................. 58 试验九 RS-232 串口控制器................................................. 58 试验十 LCD 显示试验...................................................... 60 试验十一 VGA 控制输出试验............................................... 64 试验十二 PS/2 键盘控制器试验............................................ 66 试验十三 接口互连试验................................................... 69
标签: FPGA
上传时间: 2015-10-08
上传用户:shzweh1234
接口转换,低功耗调制解调器,电池供电RS-232系统
标签: MAX232中文手册
上传时间: 2016-03-31
上传用户:啊的撒旦
主要程序代码有 单片机与LED数码管接口 LED大屏幕显示器和接口 字符LCD 液晶显示和接口 单片机与键盘接口 A/D转换器接口 D/A 转换器接口 串行通信基础 MCS-51的串行接口 MCS-51单片机双机通信 RS-232C串行通信总线标准及其接口 存储器的扩展 串行口的I/O口扩展 数字钟的设计与制作 单片机温度检测记录系统
上传时间: 2016-04-12
上传用户:eruth
msp430The LDC1312 and LDC1314 are 2- and 4-channel, 1• Easy-to-use – minimal configuration required 12-bit inductance to digital converters (LDCs) for • Measure up to 4 sensors with one IC inductive sensing solutions. With multiple channels • Multiple channels support environmental and and support for remote sensing, the LDC1312 and aging compensation LDC1314 enable the performance and reliability benefits of inductive sensing to be realized at minimal• Multi-channel remote sensing provides lowest cost and power. The products are easy to use, onlysystem cost requiring that the sensor frequency be within 1 kHz • Pin-compatible medium and high-resolution and 10 MHz to begin sensing. The wide 1 kHz to 10 options MHz sensor frequency range also enables use of very small PCB coils, further reducing sensing– LDC1312/4: 2/4-ch 12-bit LDC solution cost and size.– LDC1612/4: 2/4-ch 28
上传时间: 2016-07-22
上传用户:tongmoonsky
# include < reg52.h > # include < 24C02.h> # define uint unsigned int # define uchar unsigned char sbit rs = P3^5; //定义lcd1602的rs端 sbit lcden = P3^4;//定义lcd1602的lcden端口 sbit s1 = P3^0;//定义功能键s1 sbit s2 = P3^1;//定义功能键s2 sbit s3 = P3^2;//定义功能键s3 sbit beep = P2^3;//定义蜂鸣器 uchar count, s1num; char miao,fen,shi; uchar code table[] = "Designer:X_ZL ";//定义初始上电时液晶默认显示状态 void delay_ms( xms ) //定义延时函数 { uint i,j; for( i = xms ; i > 0 ; i --) for( j = 110 ; j > 0 ; j --); }
上传时间: 2016-07-28
上传用户:游戏好吗
