1100.c

买NewMsg-RF1100这个无线模块时

//输入：地址和配置字
//输出：无
//功能描述：SPI写寄存器
//*****************************************************************************************
void halSpiWriteReg(INT8U addr, INT8U value) 
{
    CSN = 0;
    while (MISO);
    SpiTxRxByte(addr);		//写地址
    SpiTxRxByte(value);		//写入配置
    CSN = 1;
}

//*****************************************************************************************
//函数名：void halSpiWriteBurstReg(INT8U addr, INT8U *buffer, INT8U count)
//输入：地址，写入缓冲区，写入个数
//输出：无
//功能描述：SPI连续写配置寄存器
//*****************************************************************************************
void halSpiWriteBurstReg(INT8U addr, INT8U *buffer, INT8U count) 
{
    INT8U i, temp;
	temp = addr | WRITE_BURST;
    CSN = 0;
    while (MISO);
    SpiTxRxByte(temp);
    for (i = 0; i < count; i++)
 	{
        SpiTxRxByte(buffer[i]);
    }
    CSN = 1;
}

//*****************************************************************************************
//函数名：void halSpiStrobe(INT8U strobe)
//输入：命令
//输出：无
//功能描述：SPI写命令
//*****************************************************************************************
void halSpiStrobe(INT8U strobe) 
{
    CSN = 0;
    while (MISO);
    SpiTxRxByte(strobe);		//写入命令
    CSN = 1;
}





//*****************************************************************************************
//函数名：INT8U halSpiReadReg(INT8U addr)
//输入：地址
//输出：该寄存器的配置字
//功能描述：SPI读寄存器
//*****************************************************************************************
INT8U halSpiReadReg(INT8U addr) 
{
	INT8U temp, value;
    temp = addr|READ_SINGLE;//读寄存器命令
	CSN = 0;
	while (MISO);
	SpiTxRxByte(temp);
	value = SpiTxRxByte(0);
	CSN = 1;
	return value;
}


//*****************************************************************************************
//函数名：void halSpiReadBurstReg(INT8U addr, INT8U *buffer, INT8U count)
//输入：地址，读出数据后暂存的缓冲区，读出配置个数
//输出：无
//功能描述：SPI连续写配置寄存器
//*****************************************************************************************
void halSpiReadBurstReg(INT8U addr, INT8U *buffer, INT8U count) 
{
    INT8U i,temp;
	temp = addr | READ_BURST;		//写入要读的配置寄存器地址和读命令
    CSN = 0;
    while (MISO);
	SpiTxRxByte(temp);   
    for (i = 0; i < count; i++) 
	{
        buffer[i] = SpiTxRxByte(0);
    }
    CSN = 1;
}


//*****************************************************************************************
//函数名：INT8U halSpiReadReg(INT8U addr)
//输入：地址
//输出：该状态寄存器当前值
//功能描述：SPI读状态寄存器
//*****************************************************************************************
INT8U halSpiReadStatus(INT8U addr) 
{
    INT8U value,temp;
	temp = addr | READ_BURST;		//写入要读的状态寄存器的地址同时写入读命令
    CSN = 0;
    while (MISO);
    SpiTxRxByte(temp);
	value = SpiTxRxByte(0);
	CSN = 1;
	return value;
}
//*****************************************************************************************
//函数名：void halRfWriteRfSettings(RF_SETTINGS *pRfSettings)
//输入：无
//输出：无
//功能描述：配置CC1100的寄存器
//*****************************************************************************************
void halRfWriteRfSettings(void) 
{

	halSpiWriteReg(CCxxx0_FSCTRL0,  rfSettings.FSCTRL2);//自已加的
    // Write register settings
    halSpiWriteReg(CCxxx0_FSCTRL1,  rfSettings.FSCTRL1);
    halSpiWriteReg(CCxxx0_FSCTRL0,  rfSettings.FSCTRL0);
    halSpiWriteReg(CCxxx0_FREQ2,    rfSettings.FREQ2);
    halSpiWriteReg(CCxxx0_FREQ1,    rfSettings.FREQ1);
    halSpiWriteReg(CCxxx0_FREQ0,    rfSettings.FREQ0);
    halSpiWriteReg(CCxxx0_MDMCFG4,  rfSettings.MDMCFG4);
    halSpiWriteReg(CCxxx0_MDMCFG3,  rfSettings.MDMCFG3);
    halSpiWriteReg(CCxxx0_MDMCFG2,  rfSettings.MDMCFG2);
    halSpiWriteReg(CCxxx0_MDMCFG1,  rfSettings.MDMCFG1);
    halSpiWriteReg(CCxxx0_MDMCFG0,  rfSettings.MDMCFG0);
    halSpiWriteReg(CCxxx0_CHANNR,   rfSettings.CHANNR);
    halSpiWriteReg(CCxxx0_DEVIATN,  rfSettings.DEVIATN);
    halSpiWriteReg(CCxxx0_FREND1,   rfSettings.FREND1);
    halSpiWriteReg(CCxxx0_FREND0,   rfSettings.FREND0);
    halSpiWriteReg(CCxxx0_MCSM0 ,   rfSettings.MCSM0 );
    halSpiWriteReg(CCxxx0_FOCCFG,   rfSettings.FOCCFG);
    halSpiWriteReg(CCxxx0_BSCFG,    rfSettings.BSCFG);
    halSpiWriteReg(CCxxx0_AGCCTRL2, rfSettings.AGCCTRL2);
	halSpiWriteReg(CCxxx0_AGCCTRL1, rfSettings.AGCCTRL1);
    halSpiWriteReg(CCxxx0_AGCCTRL0, rfSettings.AGCCTRL0);
    halSpiWriteReg(CCxxx0_FSCAL3,   rfSettings.FSCAL3);
	halSpiWriteReg(CCxxx0_FSCAL2,   rfSettings.FSCAL2);
	halSpiWriteReg(CCxxx0_FSCAL1,   rfSettings.FSCAL1);
    halSpiWriteReg(CCxxx0_FSCAL0,   rfSettings.FSCAL0);
    halSpiWriteReg(CCxxx0_FSTEST,   rfSettings.FSTEST);
    halSpiWriteReg(CCxxx0_TEST2,    rfSettings.TEST2);
    halSpiWriteReg(CCxxx0_TEST1,    rfSettings.TEST1);
    halSpiWriteReg(CCxxx0_TEST0,    rfSettings.TEST0);
    halSpiWriteReg(CCxxx0_IOCFG2,   rfSettings.IOCFG2);
    halSpiWriteReg(CCxxx0_IOCFG0,   rfSettings.IOCFG0);    
    halSpiWriteReg(CCxxx0_PKTCTRL1, rfSettings.PKTCTRL1);
    halSpiWriteReg(CCxxx0_PKTCTRL0, rfSettings.PKTCTRL0);
    halSpiWriteReg(CCxxx0_ADDR,     rfSettings.ADDR);
    halSpiWriteReg(CCxxx0_PKTLEN,   rfSettings.PKTLEN);
}

//*****************************************************************************************
//函数名：void halRfSendPacket(INT8U *txBuffer, INT8U size)
//输入：发送的缓冲区，发送数据个数
//输出：无
//功能描述：CC1100发送一组数据
//*****************************************************************************************

void halRfSendPacket(INT8U *txBuffer, INT8U size) 
{
	halSpiWriteReg(CCxxx0_TXFIFO, size);
    halSpiWriteBurstReg(CCxxx0_TXFIFO, txBuffer, size);	//写入要发送的数据

    halSpiStrobe(CCxxx0_STX);		//进入发送模式发送数据

    // Wait for GDO0 to be set -> sync transmitted
    while (!GDO0);
    // Wait for GDO0 to be cleared -> end of packet
    while (GDO0);
	halSpiStrobe(CCxxx0_SFTX);
}


void setRxMode(void)
{
    halSpiStrobe(CCxxx0_SRX);		//进入接收状态
}

/*
// Bit masks corresponding to STATE[2:0] in the status byte returned on MISO
#define CCxx00_STATE_BM                 0x70
#define CCxx00_FIFO_BYTES_AVAILABLE_BM  0x0F
#define CCxx00_STATE_TX_BM              0x20
#define CCxx00_STATE_TX_UNDERFLOW_BM    0x70
#define CCxx00_STATE_RX_BM              0x10
#define CCxx00_STATE_RX_OVERFLOW_BM     0x60
#define CCxx00_STATE_IDLE_BM            0x00

static INT8U RfGetRxStatus(void)
{
	INT8U temp, spiRxStatus1,spiRxStatus2;
	INT8U i=4;// 循环测试次数
    temp = CCxxx0_SNOP|READ_SINGLE;//读寄存器命令
	CSN = 0;
	while (MISO);
	SpiTxRxByte(temp);
	spiRxStatus1 = SpiTxRxByte(0);
	do
	{
		SpiTxRxByte(temp);
		spiRxStatus2 = SpiTxRxByte(0);
		if(spiRxStatus1 == spiRxStatus2)
		{
			if( (spiRxStatus1 & CCxx00_STATE_BM) == CCxx00_STATE_RX_OVERFLOW_BM)
			{
               halSpiStrobe(CCxxx0_SFRX);
			   return 0;
			}
		    return 1;
		}
		 spiRxStatus1=spiRxStatus2;
	}
	while(i--);
	CSN = 1;
    return 0;	
}
 */
INT8U halRfReceivePacket(INT8U *rxBuffer, INT8U *length) 
{
    INT8U status[2];
    INT8U packetLength;
	INT8U i=(*length)*4;  // 具体多少要根据datarate和length来决定

    halSpiStrobe(CCxxx0_SRX);		//进入接收状态
	//delay(5);
    //while (!GDO1);
    //while (GDO1);
	delay(2);
	while (GDO0)
	{
		delay(2);
		--i;
		if(i<1)
		   return 0; 	    
	}	 
    if ((halSpiReadStatus(CCxxx0_RXBYTES) & BYTES_IN_RXFIFO)) //如果接的字节数不为0
	{
        packetLength = halSpiReadReg(CCxxx0_RXFIFO);//读出第一个字节，此字节为该帧数据长度
        if (packetLength <= *length) 		//如果所要的有效数据长度小于等于接收到的数据包的长度
		{
            halSpiReadBurstReg(CCxxx0_RXFIFO, rxBuffer, packetLength); //读出所有接收到的数据
            *length = packetLength;				//把接收数据长度的修改为当前数据的长度
        
            // Read the 2 appended status bytes (status[0] = RSSI, status[1] = LQI)
            halSpiReadBurstReg(CCxxx0_RXFIFO, status, 2); 	//读出CRC校验位
			halSpiStrobe(CCxxx0_SFRX);		//清洗接收缓冲区
            return (status[1] & CRC_OK);			//如果校验成功返回接收成功
        }
		 else 
		{
            *length = packetLength;
            halSpiStrobe(CCxxx0_SFRX);		//清洗接收缓冲区
            return 0;
        }
    } 
	else
 	return 0;
}
/*
void Delay(unsigned int s)
{
	unsigned int i;
	for(i=0; i<s; i++);
	for(i=0; i<s; i++);
}

*/
void main(void)
{
	INT8U leng =0;
	INT8U tf =0;
	INT8U TxBuf[8]={0};	 // 8字节, 如果需要更长的数据包,请正确设置
	INT8U RxBuf[8]={0};	
	CpuInit();
	POWER_UP_RESET_CC1100();
	halRfWriteRfSettings();
	halSpiWriteBurstReg(CCxxx0_PATABLE, PaTabel, 8);

	//TxBuf[0] = 8 ;
	TxBuf[1] = 1 ;
	TxBuf[2] = 1 ;
	halRfSendPacket(TxBuf,8);	// Transmit Tx buffer data
	delay(6000);
	P0=0xBF;
		led0=0;led1=0;led2=0;led3=0;
	while(1)
	{
	    //setRxMode();
    	if(KEY1 ==0 ) 
	  	{
		    TxBuf[1] = 1 ;
		    tf = 1 ; 
			//while(KEY1 ==0);
	    }
	   if(KEY2 ==0 )
	   {
			TxBuf[2] = 1 ;
			tf = 1 ; 
	   }

	   if (tf==1)
       {	
			halRfSendPacket(TxBuf,8);	// Transmit Tx buffer data
			TxBuf[1] = 0xff;
			TxBuf[2] = 0xff;
			tf=0;
			delay(500);
		led0=0;led1=0;led2=0;led3=0;
	   }

		leng =8; // 预计接受8 bytes
   		if(halRfReceivePacket(RxBuf,&leng))
		{
						
			if(	RxBuf[1]==1)
			{	 	
				P0=0xF7;
			led0=0;led1=0;led2=0;led3=0;
			}
			if(	RxBuf[2]==1)
			{
				P0=0xFE;	
			led0=0;led1=0;led2=0;led3=0;
			}
		delay(1000);
			led0=1;led1=1;led2=1;led3=1;
		}

		RxBuf[1] = 0xff;
		RxBuf[2] = 0xff;
	}
	
}