nrf24l01+的接收代码

这个是接着上一篇《nrf24l01+发送代码》,有发送必须要有接收,这就把接收代码贴出来。代码形式还是跟发送一样,分两个函数。


#include 
#include 

#define uchar unsigned char

/***************************************************/
#define TX_ADR_WIDTH   5  // 5字节宽度的发送/接收地址
#define TX_PLOAD_WIDTH 4  // 数据通道有效数据宽度
#define LED P1

uchar code TX_ADDRESS[TX_ADR_WIDTH] = {0x34,0x43,0x10,0x10,0x01};  // 定义一个静态发送地址
uchar RX_BUF[TX_PLOAD_WIDTH];
uchar TX_BUF[TX_PLOAD_WIDTH];
uchar flag;
uchar DATA = 0x01;
uchar bdata sta;
sbit  RX_DR	 = sta^6;
sbit  TX_DS	 = sta^5;
sbit  MAX_RT = sta^4;
sbit wela=P2^6;
sbit dula=P2^7;
/**************************************************/

/**************************************************
函数: init_io()

描述:
    初始化IO
/**************************************************/
void init_io(void)
{
	CE  = 0;        // 待机
	CSN = 1;        // SPI禁止
	SCK = 0;        // SPI时钟置低
	IRQ = 1;        // 中断复位
	LED = 0xff;		// 关闭指示灯
}
/**************************************************/

/**************************************************
函数:delay_ms()

描述:
    延迟x毫秒
/**************************************************/
void delay_ms(uchar x)
{
    uchar i, j;
    i = 0;
    for(i=0; i
#ifndef _API_DEF_
#define _API_DEF_

// Define interface to nRF24L01

// Define SPI pins

sbit CE   = P0^2;  // Chip Enable pin signal (output)
sbit CSN  = P0^3;  // Slave Select pin, (output to CSN, nRF24L01)
sbit IRQ  = P3^2;  // Interrupt signal, from nRF24L01 (input)
sbit MISO = P0^0;  // Master In, Slave Out pin (input)
sbit MOSI = P0^4;  // Serial Clock pin, (output)
sbit SCK  = P0^1;  // Master Out, Slave In pin (output)
// SPI(nRF24L01) commands
#define READ_REG    0x00  // Define read command to register
#define WRITE_REG   0x20  // Define write command to register
#define RD_RX_PLOAD 0x61  // Define RX payload register address
#define WR_TX_PLOAD 0xA0  // Define TX payload register address
#define FLUSH_TX    0xE1  // Define flush TX register command
#define FLUSH_RX    0xE2  // Define flush RX register command
#define REUSE_TX_PL 0xE3  // Define reuse TX payload register command
#define NOP         0xFF  // Define No Operation, might be used to read status register

// SPI(nRF24L01) registers(addresses)
#define CONFIG      0x00  // 'Config' register address
#define EN_AA       0x01  // 'Enable Auto Acknowledgment' register address
#define EN_RXADDR   0x02  // 'Enabled RX addresses' register address
#define SETUP_AW    0x03  // 'Setup address width' register address
#define SETUP_RETR  0x04  // 'Setup Auto. Retrans' register address
#define RF_CH       0x05  // 'RF channel' register address
#define RF_SETUP    0x06  // 'RF setup' register address
#define STATUS      0x07  // 'Status' register address
#define OBSERVE_TX  0x08  // 'Observe TX' register address
#define CD          0x09  // 'Carrier Detect' register address
#define RX_ADDR_P0  0x0A  // 'RX address pipe0' register address
#define RX_ADDR_P1  0x0B  // 'RX address pipe1' register address
#define RX_ADDR_P2  0x0C  // 'RX address pipe2' register address
#define RX_ADDR_P3  0x0D  // 'RX address pipe3' register address
#define RX_ADDR_P4  0x0E  // 'RX address pipe4' register address
#define RX_ADDR_P5  0x0F  // 'RX address pipe5' register address
#define TX_ADDR     0x10  // 'TX address' register address
#define RX_PW_P0    0x11  // 'RX payload width, pipe0' register address
#define RX_PW_P1    0x12  // 'RX payload width, pipe1' register address
#define RX_PW_P2    0x13  // 'RX payload width, pipe2' register address
#define RX_PW_P3    0x14  // 'RX payload width, pipe3' register address
#define RX_PW_P4    0x15  // 'RX payload width, pipe4' register address
#define RX_PW_P5    0x16  // 'RX payload width, pipe5' register address
#define FIFO_STATUS 0x17  // 'FIFO Status Register' register address

#endif   /* _API_DEF_ */



 
 

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