搜索资源列表
test1
- msp430fr6972串口通信程序,收发数据正常-msp430fr6972 uart program,Tx,Rx ok
rx_function
- rx function rx function -rx function rx function rx function
RF433_Rx877A
- CCS-C compiler source code for RF433 cheap wireless module receiving(Rx) using Manchester code in PIC16F877A
DigitalCompinacijaSimulacija
- It is a bridge between CPU and sensors where user can not connect sensors directly on CPU. It consumes very small number od LUTs and it is suitable for CPLD design. it works on following way, when logic detects falling edge of RX, then this action tr
nRF24L01P
- RX :收到一个数据后LED翻转一次。同时在OLED显示状态。 TX :成功发射一次后,LED翻转一次。同时在OLED显示状态。-RX: Upon receipt of a data LED flip once. At the same display state in OLED. TX: After a successful launch, LED flip again. At the same display state in OLED.
NVP6114-datasheet
- NVP6114 数据手册,4-CH AHD1.0 RX and 9-CH Audio Codec-NVP6114 datasheet,4-CH AHD1.0 RX and 9-CH Audio Codec
OFDM
- 能够实现 ofdm收发 代码为分块代码,适用于教学-ofdm rx and tx
uart2bus_latest
- uart IP, including rx,tx module,and FSM control,data paser logic. including: testbench-uart IP
GPS_TX_RX_VERILOG
- GPS Tx RX verilog 19-GPS Tx RX verilog 1988
xhmdecode
- 循环码最大的特点就是码字的循环特性,所谓循环特性是指:循环码中任一许用码组经过循环移位后,所得到的码组仍然是许用码组,也就是说,不论是左移还是右移,也不论移多少位,仍然是许用的循环码组. 译码过程 第一步:由接收码字 Rx与监督矩阵相乘得出错误图样S; 第二步:判断S是否为零。若不为零,则出错。在假定至多只有一位错的情况下,可以有效地译出相应的信息码字。 第三步:在出错的情况下,将S与标准监督矩阵对比,得出错误的比特位并进行更正得出前四位为信息码字。-Ring
rx
- 批量格式转换程序,用于ASCLL格式转TIF格式。-Batch format conversion program for EXCEL format turn TIF format.
LCD-keyboar-rx-tx_gilang
- vhdl project keyboard asc-vhdl project keyboard ascii
Rt_MBOC
- RX_MBOC的自相关函数,MBOC(6,1,1/11)的自相关函数-RX of MBOC,MBOC(6,1,1/11)
rf433
- 这是个完整工程,使用rf433/315M超再生模块(最便宜那种)通讯的接受程序。可以用电脑串口接发射模块按照doc文件夹里的说明编码实现通讯测试。可实现短距离传感器数据采集等。MCU为stm8s103f3p6, 编译环境为IAR for stm8.-Here s a completed project.RX decode using rf433/315Mhz super-regeneration moduler(yes,the cheapest one!). You can use PC to
51Voicerx
- Stc512.4G接受语音播放代码,原创,独家发布-STC51 2.4G rx voice play!
decodeBitFlip
- function vHat decodeBitFlipping(rx, H, iteration) Hard-decision/bit flipping sum product algorithm LDPC decoder rx : Received signal vector (column vector) H : LDPC matrix iteration : Number of iteration vHat : Decoded vector (
decodeLogDomain
- function vHat decodeLogDomain(rx, H, N0, iteration) Log-domain sum product algorithm LDPC decoder rx : Received signal vector (column vector) H : LDPC matrix N0 : Noise variance iteration : Number of iteration vHat : Decoded
SemiLOGdecodeLogDomainSimple
- SemiLOGdecodeLogDomainSimple rx : Received signal vector (column vector) H : LDPC matrix iteration : Number of iteration vHat : Decoded vector (0/1) - rx : Received signal vector (column vector) H : LDPC matrix
LDPCANDsemmidecodeProbDomain
- function vHat decodeProbDomain(rx, H, N0, iteration) Probability-domain sum product algorithm LDPC decoder rx : Received signal vector (column vector) H : LDPC matrix N0 : Noise variance iteration : Number of iteration -function
AES_RX_pic18
- AES microcontroller 18f452 rx