搜索资源列表
hardwaretest
- s3c44b0 硬件测试程序,tx-3carm7开发板配套使用-s3c44b0 hardware testing procedures, tx-3carm7 development board supporting the use of
ir-tx
- 一款红外发送数据的源代码,可实现红外不干扰-An infrared transmission data of the source code, can be realized for the IR does not interfere
UART_RS485_tx-rx-cortex--m0
- arm cortex M0 的uart rs485 接口的例程,包括tx rx都有 -arm cortex m0 s examples for uart rs485 ,including tx rx
I2S-Sample-Software
- NXP MPC2300 I2S 音频demo板演示程序-* This Demo program uses a Keil MPC2300 board with * an attached I2S Audio demo board. The daughter board * includes a UDA1341 Audio Chip from NXP Semiconductors. * The UDA1341 is an economy audio CODEC for portable
TS_GLCD
- The main aim of the project is to design and develop a touch screen interface to the ARM processor using the wireless technology, such that when the user touches the touch screen, the required graphical display will be displayed on the screen.
FM25V10
- STC89C52rc读取铁电FM25V10,实验平台TX-1c.-Read and Write the FM25V10 by STC89c52rc in the TX-1C test platform .
ti_master
- 这个例子显示了如何配置SSI0为TI spi模式。该代码将对主机发送三个字符,然后轮询接收FIFO,直到3个字符在主Rx接收buff空间。-This example shows how to configure the SSI0 as TI Master. The code will send three characters on the master Tx then poll the receive FIFO until 3 characters are received on the m
LX-RemoteCtl-Tx
- SPI PIC16F1829, using PIC16F1829 micro controller. This sample is about SPI communication
Si443x_revB1
- si4432/1例程。TX,RX,TRX-si4432/1 DEMO CODE,TX,RX,TRX
UART4
- STM32F103ZET6 UART4 串口程序-STM32F103ZET6 UART4 TX/RX
LPC11C14-and-Cotex-A8-Rx-and-Tx-Data
- 本源码主要是LPC11C14与Cortex-A8的通信,借助的是zigb-The main source is the communication LPC11C14 with the Cortex-A8, with the help of a zigbee
si4432
- stc单片机控制si4432无线模块发送接收程序-stc MCU control si4432 wirless module Tx and RX soft
asr_lora_6601-master
- ASR6601 是一款通用的 LPWAN 无线通信 SoC,集成了射频收发器、调制解调器和 32 位 RISC MCU。射频收发器具有 150 MHz 至 960 MHz 的连续频率覆盖范围。调制解调器支持 LPWAN 用例的 LoRa 调制和传统用例的 (G)FSK 调制。调制解调器还支持TX中的BPSK调制以及TX和RX中的(G)MSK调制。LPWAN无线通信模块采用ASR6601设计,可为LPWAN应用提供超远距离和超低功耗通信。 ASR6601可以实现-148 dBm的高灵敏度,最