搜索资源列表
CC2430-LED
- CC2430单片机LED实验,基于zigbee的
SimpleApp.rar
- CC2430上开关控制灯和温度传感器采集两个例子,CC2430 on switch control lights and temperature sensor collected two examples
CC2430-vccDisplayExperiments
- CC2430-电池电压检测代码。(IAR原工程文件.显示电池电压,串口显示.有截图.通信参数:57600-n-8-1)-cc2430-VCC display experiment
CC2430-uart
- 介绍了ZigBee CC2430的串口收发字符串的源程序,用IAR软件可以直接打开使用-Introduced the ZigBee CC2430 transceiver serial port of the source string, using IAR software can be used directly to open
CC2430-Awake
- CC2430系统唤醒实验源码。唤醒时间为:10秒.可调用函数设置唤醒时间. 实验现象是:RLED灯闪5次进入睡眠,10s后被唤醒.闪10又进下睡眠。-CC2430 System wake
cc2430
- TI官方的CC2430学习板的PCB文件-TI' s CC2430 official documents to learn the PCB board
UART-CC2430
- 实现CC2430的无线通讯功能,实现无线的透时串口功能,即通过两个CC2430实现无线串口收发数据。-Achieve CC2430 wireless communications, wireless serial port when the permeability function that, by two CC2430 wireless serial send and receive data.
CC2430PointToPoint
- CC2430下基于ZigBee的综合实力源码,学习嵌入式无线通信大有好处-CC2430 under the comprehensive strength of ZigBee-based source, learning embedded wireless communications a lot of good
swrc069
- 德州仪器MAC程式 V1.0.1(for CC2430)-TI MAC program V1.0.1 (for CC2430)
CC2430-4
- CC2430 基础实验四 T1 的使用 1 实验介绍 用定时器1 来改变小灯的状态,T1 每溢出两次,两个小灯闪烁一次,并且在停止闪烁后成 闪烁前相反的状态。-CC2430 experimental basis for the use of four T1 with an experiment to introduce a timer to change the status of small lights, T1 overflow twice each, two small lig
CC2430-5
- CC2430 基础实验五 T2 的使用 1. 实验介绍 用定时器2 来改变小灯的状态,T2 每发生一次中断小灯改变状态一次。-CC2430 experimental basis for the use of T2 5 1. Experiment 2 introduced the use of timer to change the status of a small lamp, T2 interrupt for each occurrence of a change in the sta
CC2430-6
- CC2430 基础实验六 T3 的使用 1. 实验介绍 用定时器3 来改变小灯的状态,T3 每发生200 次中断小灯改变状态一次。-CC2430 experimental basis for the use of T3 6 1. Experiment 3 introduced the use of timer to change the status of small lights, T3 occurred every 200 to change the state of interru
CC2430-7
- CC2430 基础实验七 T4 的使用 1. 实验介绍 用定时器4 来改变小灯的状态,T4 每发生200 次中断小灯改变状态一次。-CC2430 experimental basis for the use of T4 7 1. Experiment 4 introduced the use of timer to change the status of a small lamp, T4 occur every 200 to change the state of interrupte
ZigBee2006
- 德州仪器(TI)宣布推出业界首款带硬件定位引擎的片上系统(SoC)解决方案 CC2431,以 满足低功耗 ZigBee/IEEE802.15.4 无线传感器网络应用的需求。这款来自 Chipcon 产品系列 的器件可满足多种应用要求,其中包括资产和设备跟踪、库存控制、病患监护、远程控制、 安全监控网络等应用,此外,TI领先的 ZigBee协议栈 Z-Stack 还提供有关支持。 CC2431 建立在业界首款针对低功耗 RF 应用的 SoC 解决方案 CC2430 的基础之上
ZigBeePoint-to-point
- 基于cc2430开发的Zigbee技术点对点无线通信.-Cc2430 developed based on Zigbee technology point-to-point wireless communications.
CC2430
- CC2430基础实验--包括定时器T1、T2、T3的使用,串口的调试,还有系统睡眠状态的进入和唤醒-CC2430-based experiments- including the timer T1, T2, T3 of the use of serial debugging, as well as system sleep and wake-up access
UART
- cc2430串口通信测试程序 -cc2430 uart test code example
CC2430-spi
- 利用cc2430实现SPI通信。 可以利用 cc2430和其他零件之间通信-Cc2430 achieved using SPI communication. Cc2430 and other parts can be used to communicate between
CC2430-ChipTempratureTest
- CC2430片内温度实验源码。 温度显示精度为小数点后两位。开发环境IAR.编程语言C.-CC2430 internal-chip temperature experiment Codes
CC2430-based-application-ADXL345
- 这个是基于CC2430的ADXL345加数度传感器的应用(基于IAR),是通过加速度的变化远程控制终端节点的灯闪情况,是无线嵌入式开发的非常好的演示程序,是嵌入式即物联网相关的开发应用,对ZIGBEE研究人员有极好的指导作用,程序已经实验通过,保证质量。-The ADXL345 is based on the CC2430 application (based on IAR), is a very good wireless embedded development demonstration