void BEKEN_I2C_Start(void) { BK_SCL_H; BK_SDA_H; Delay1us;//(28us) BK_SDA_L;//START:when CLK is high,DATA change form high to low Delay1us;//延时要大于4.7us BK_SCL_L;//钳住I2C总线,准备发送或接收数据 Delay1us; } void BEKEN_I2C_Stop(void) { BK_SCL_L;//标记MPU_SCL_H BK_SDA_L;//STOP:when CLK is high DATA change form low to high Delay1us; BK_SCL_H;//标记MPU_SDA_H Delay1us; BK_SDA_H;//标记MPU_SCL_H Delay1us; } u8 BEKEN_I2C_ReceiveACK(void) { /*u16 i,j; i=700; BK_SDA_H; //Delayus(4); BK_SCL_H; Delay1us; while(BK_SDA_read)//从机拉低数据线代表收到数据 { i--;//延时等待一定的时间,例如可以等待0.5毫秒或者循环读2000次ACK,如果超过这个时间没有响应,就返回失败信息 Delay1us; if(i<10) { BK_SCL_L; return TRUE;//1 } } BK_SCL_L; Delay1us; return FALSE;//0*/ BK_SCL_L; Delay1us; BK_SCL_H; Delay1us; if(BK_SDA_read) { BK_SCL_L; return TRUE; } BK_SCL_L; Delay1us; return FALSE; } void BEKEN_I2C_ack(void) { BK_SCL_L;//标记,这里之前没有的 BK_SDA_L; Delay1us; BK_SCL_H; Delay1us; BK_SCL_L; Delay1us; } void BEKEN_I2C_nack(void) { BK_SCL_L;//标记,这里之前没有的 BK_SDA_H; Delay1us; BK_SCL_H; Delay1us; BK_SCL_L; Delay1us; } void BEKEN_I2C_sendbyte(u8 val) { u8 i; BK_SCL_L;//拉低时钟开始传输数据 for(i=0;i<8;i++) { if(val&0x80) BK_SDA_H; else BK_SDA_L; val<<=1; BK_SCL_H; Delay1us; BK_SCL_L; Delay1us; } } u8 BEKEN_I2C_readbyte(void) { u8 i,j,read_data=0; BK_SDA_H; for(i=0;i<8;i++) { read_data<<=1; BK_SCL_L; Delay1us; BK_SCL_H; Delay1us; if(BK_SDA_read) read_data|=0x01; } BK_SCL_L; return read_data; } /************************************************* Function: BEKEN_I2c_Write Description: write a array Input: reg: register number pBuff: a buffer contain written data len:the length of written data Output: None Return: None *************************************************/ void BEKEN_I2c_Write(u8 reg,u8 *pBuf,u8 len) { u8 i; u8 Addr; Addr=dev_addr;//device address. if(reg <= 0x0b) //Analog registers saved by analog_reg_val[][] for read operation { analog_reg_val[reg][0] = pBuf[0]; analog_reg_val[reg][1] = pBuf[1]; analog_reg_val[reg][2] = pBuf[2]; analog_reg_val[reg][3] = pBuf[3]; } BEKEN_I2C_Start(); BEKEN_I2C_sendbyte(Addr); BEKEN_I2C_ReceiveACK(); reg=reg<<1; BEKEN_I2C_sendbyte(reg); BEKEN_I2C_ReceiveACK(); for(i=0;i<len;i++) { BEKEN_I2C_sendbyte(pBuf[i]); BEKEN_I2C_ReceiveACK(); } BEKEN_I2C_Stop(); } /************************************************* Function: BEKEN_I2c_Read Description: read a array Input: reg: register number len:the length of read data Output: pBuff: a buffer contain read data Return: None *************************************************/ void BEKEN_I2c_Read(u8 reg,u8 *pBuf,u8 len) { u8 i; u8 Addr; u8 temp; Addr=dev_addr;//device address. if(reg <= 0x0b) //Analog registers not read directly from chip,recalled from analog_reg_val[][] { pBuf[0] = analog_reg_val[reg][0]; pBuf[1] = analog_reg_val[reg][1]; pBuf[2] = analog_reg_val[reg][2]; pBuf[3] = analog_reg_val[reg][3]; } else { BEKEN_I2C_Start(); BEKEN_I2C_sendbyte(Addr); BEKEN_I2C_ReceiveACK(); reg=reg<<1; reg|=0x01; BEKEN_I2C_sendbyte(reg); BEKEN_I2C_ReceiveACK(); for(i=0;i<len-1;i++) { pBuf[i] = BEKEN_I2C_readbyte(); BEKEN_I2C_ack(); temp = pBuf[i]; } pBuf[i] = BEKEN_I2C_readbyte(); BEKEN_I2C_nack(); temp = pBuf[i]; BEKEN_I2C_Stop(); } if(reg==0x21)//reg0x10[31:16]=SW_VERSION_NO { pBuf[0] =(u8)((SW_VERSION_NO&0xff00)>>8); pBuf[1] =(u8)(SW_VERSION_NO&0x00ff); #ifdef DEBUG_INFO pBuf[0] =(u8)((debug_info&0xff00)>>8); pBuf[1] =(u8)(debug_info&0x00ff); #endif } } |
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