IIC.rar_GEC2440

//==================================================================== // File Name : 2410IIC.c // Function : S3C2410 IIC-bus Master Tx/Rx mode Test Program // (Interrupt / Non Interrupt (Polling)) // Program : Shin, On Pil (SOP) // Date : May 21, 2002 // Version : 0.0 // History // 0.0 : Programming start (March 11, 2002) -> SOP //==================================================================== #include "def.h" #include "2440addr.h" #include "2440lib.h" #include "IIC.h" static U8 iicData[IICBUFSIZE]; static volatile int iicDataCount; static volatile int iicStatus; static volatile int iicMode; static int iicPt; /********************************************************* SMDK2410 IIC configuration GPE15=IICSDA, GPE14=IICSCL "Non-Interrupt" mode for IIC block *********************************************************/ void Test_IIC(void) { unsigned int i,j; static U8 data[256]; Uart_Printf("IIC Test(Polling) using AT24C02\n"); //设置GPE15->IICSDA和GPE14->IICSCL rGPEUP |= 0xc000; //Pull-up disable rGPECON &= ~0xf0000000; rGPECON |= 0xa0000000; //GPE15:IICSDA , GPE14:IICSCL //Enable ACK, Prescaler IICCLK=PCLK/16, Enable interrupt, Transmit clock value Tx clock=IICCLK/16 rIICCON = (1<<7) | (0<<6) | (1<<5) | (0xf); //0xaf rIICADD = 0x10; //2410 slave address = [7:1] rIICSTAT = 0x10; //IIC bus data output enable(Rx/Tx) Uart_Printf("Write test data into AT24C02\n"); //写入一个page的数据 //AT24C02的页地址是0x00/0x20/0x40/0x60/0x80/0xa0/0xc0/0xe0。 for(i=0;i<256;i++) { Uart_Printf("THE %d byte is writed\n",i); Wr24C02(0xa0,(U8)i,i);//U32 slvAddr,U32 addr,U8 data } //初始化data数组的值为0。 for(i=0;i<256;i++) data[i] = 0; Uart_Printf("Read test data from AT24C02\n"); //读24C02的0xa0地址中数据到data数组中。 for(i=0;i<256;i++) Rd24C02(0xa1,(U8)i,&(data[i])); //输出data数组接收数据的值 for(i=0;i<8;i++) { for(j=0;j<8;j++) Uart_Printf("%2x ",data[i*8+j]); Uart_Printf("\n"); } Uart_Printf("OK! Write data is same to Read data!\n"); while(1); } //**************[ _Wr24C080 ]***************************************** void Wr24C02(U32 slvAddr,U32 addr,U8 data) { iicMode = WRDATA; iicPt = 0; iicData[0] = (U8)addr; iicData[1] = data; iicDataCount = 2; //8-bit data shift register for IIC-bus Tx/Rx operation. rIICDS = slvAddr; //0xa0 //Master Tx mode, Start(Write), IIC-bus data output enable //Bus arbitration sucessful, Address as slave status flag Cleared, //Address zero status flag cleared, Last received bit is 0 rIICSTAT = 0xf0; //Clearing the pending bit isn't needed because the pending bit has been cleared. //while(iicDataCount!=-1) //Run_IicPoll(); iicMode = POLLACK; while(1) { rIICDS = slvAddr; iicStatus = 0x100; //To check if _iicStatus is changed rIICSTAT = 0xf0; //Master Tx, Start, Output Enable, Sucessful, Cleared, Cleared, 0 rIICCON = 0xe0;//0xaf; //Resumes IIC operation. //hzh while(iicStatus==0x100) Run_IicPoll(); if(!(iicStatus & 0x1)) break; //When ACK is received } rIICSTAT = 0xd0; //Master Tx condition, Stop(Write), Output Enable rIICCON = 0xe0;//0xaf; //Resumes IIC operation. //hzh Delay(1); //Wait until stop condtion is in effect. //Write is completed. } //************************[ _Rd24C080 ]******************************** void Rd24C02(U32 slvAddr,U32 addr,U8 *data) { iicMode = SETRDADDR; iicPt = 0; iicData[0] = (U8)addr; iicDataCount = 1; rIICDS = slvAddr; rIICSTAT = 0xf0; //MasTx,Start //Clearing the pending bit isn't needed because the pending bit has been cleared. while(iicDataCount!=-1) Run_IicPoll(); iicMode = RDDATA; iicPt = 0; iicDataCount = 1; rIICDS = slvAddr; rIICSTAT = 0xb0; //Master Rx,Start rIICCON = 0xe0;//0xaf; //Resumes IIC operation. //hzh while(iicDataCount!=-1) Run_IicPoll(); *data = iicData[1]; } //**********************[ Run_IicPoll ]********************************* void Run_IicPoll(void) { if(rIICCON & 0x10) //Tx/Rx Interrupt Enable IicPoll(); } //**********************[IicPoll ]************************************** void IicPoll(void) { U32 iicSt,i; iicSt = rIICSTAT; if(iicSt & 0x8){} //When bus arbitration is failed. if(iicSt & 0x4){} //When a slave address is matched with IICADD if(iicSt & 0x2){} //When a slave address is 0000000b if(iicSt & 0x1){} //When ACK isn't received switch(iicMode) { case POLLACK: iicStatus = iicSt; break; case RDDATA: if((iicDataCount--)==0) { iicData[iicPt++] = rIICDS; rIICSTAT = 0x90; //Stop MasRx condition rIICCON = 0xe0;//0xaf; //Resumes IIC operation. //hzh Delay(1); //Wait until stop condtion is in effect. //Too long time... //The pending bit will not be set after issuing stop condition. break; } iicData[iicPt++] = rIICDS; //The last data has to be read with no ack. if((iicDataCount)==0) rIICCON = 0x60;//0x2f; //Resumes IIC operation with NOACK. //hzh else rIICCON = 0xe0;//0xaf; //Resumes IIC operation with ACK //hzh break; case WRDATA: if((iicDataCount--)==0) { rIICSTAT = 0xd0; //stop MasTx condition rIICCON = 0xe0;//0xaf; //resumes IIC operation. //hzh Delay(1); //wait until stop condtion is in effect. //The pending bit will not be set after issuing stop condition. break; } rIICDS = iicData[iicPt++]; //_iicData[0] has dummy. for(i=0;i<10;i++); //for setup time until rising edge of IICSCL rIICCON = 0xe0;//0xaf; //resumes IIC operation. //hzh break; case SETRDADDR: // Uart_Printf("IicPoll() SETRADDR [S%d]",_iicDataCount); if((iicDataCount--)==0) { break; //IIC operation is stopped because of IICCON[4] } rIICDS = iicData[iicPt++]; for(i=0;i<10;i++); //for setup time until rising edge of IICSCL rIICCON = 0xe0;//0xaf; //resumes IIC operation. //hzh break; default: break; } }