IIC.rar_SCiic地址_SC2440程序_sc2440_iic地址7位还是8位资源-CSDN文库

共36个文件

h：10个

o：8个

c：6个

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sc2440

21 浏览量 2022-09-21 18:28:22 上传评论收藏 172KB RAR 举报

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IIC.rar （36个子文件）

IIC

IIC.c 11KB

main.c 722B

IIC.mcp 191KB

IIC.h 553B

IIC_Data

Release

TargetDataWindows.tdt 48KB

CWSettingsWindows.stg 3KB

Debug

TargetDataWindows.tdt 50KB

DebugRel

ObjectCode

mmu.o 34KB

IIC.o 37KB

2440lib.o 39KB

2440slib.o 3KB

uart.o 42KB

nand.o 34KB

2440init.o 8KB

main.o 32KB

IIC.axf 88KB

IIC.bin 29KB

TargetDataWindows.tdt 93KB

system

inc

2440lib.h 2KB

2440addr.inc 4KB

mmu.h 1KB

Option.inc 3KB

2440addr.h 39KB

uart.h 421B

Option.h 1KB

2440slib.h 1KB

nand.h 2KB

Memcfg.inc 3KB

def.h 1KB

src

2440init.s 16KB

mmu.c 4KB

2440slib.s 7KB

nand.c 2KB

2440lib.c 9KB

uart

uart.h 421B

uart.c 9KB

//==================================================================== // 文件名称 : IIC.c // 功能描述 : XC2440的IIC总线驱动，读写EEPOM //==================================================================== #include <string.h> #include "2440addr.h" #include "2440lib.h" #include "def.h" #include "IIC.h" static U8 _iicData[IICBUFSIZE]; static volatile int _iicDataCount; static volatile int _iicStatus; static volatile int _iicMode; static int _iicPt; //******************[ Test_Iic ]************************************** void Test_Iic(void) { unsigned int i,j,save_E,save_PE; static U8 data[256]; Uart_Printf("[ IIC Test(Interrupt) using AT24C02 ]\n"); save_E = rGPECON; save_PE = rGPEUP; rGPEUP |= 0xc000; //Pull-up disable rGPECON |= 0xa00000; //GPE15:IICSDA , GPE14:IICSCL pISR_IIC = (unsigned)IicInt; rINTMSK &= ~(BIT_IIC); //Enable ACK, Prescaler IICCLK=PCLK/16, Enable interrupt, Transmit clock value Tx clock=IICCLK/16 // If PCLK 50.7MHz, IICCLK = 3.17MHz, Tx Clock = 0.198MHz rIICCON = (1<<7) | (0<<6) | (1<<5) | (0xf); rIICADD = 0x10; //2440 slave address = [7:1] rIICSTAT = 0x10; //IIC bus data output enable(Rx/Tx) rIICLC = (1<<2)|(1); // Filter enable, 15 clocks SDA output delay added by junon Uart_Printf("Write test data into AT24C02\n"); for(i=0;i<256;i++) Wr24C02(0xa0,(U8)i,i); for(i=0;i<256;i++) data[i] = 0; Uart_Printf("Read test data from AT24C02\n"); for(i=0;i<256;i++) Rd24C02(0xa0,(U8)i,&(data[i])); //Line changed 0 ~ f for(i=0;i<16;i++) { for(j=0;j<16;j++) Uart_Printf("%2x ",data[i*16+j]); Uart_Printf("\n"); } rINTMSK |= BIT_IIC; rGPEUP = save_PE; rGPECON = save_E; } //*************************[ Wr24C02 ]**************************** void Wr24C02(U32 slvAddr,U32 addr,U8 data) { _iicMode = WRDATA; _iicPt = 0; _iicData[0] = (U8)addr; _iicData[1] = data; _iicDataCount = 2; rIICDS = slvAddr; //0xa0 rIICSTAT = 0xf0; //MasTx,Start //Clearing the pending bit isn't needed because the pending bit has been cleared. while(_iicDataCount!=-1); _iicMode = POLLACK; while(1) { rIICDS = slvAddr; _iicStatus = 0x100; rIICSTAT = 0xf0; //MasTx,Start rIICCON = 0xaf; //Resumes IIC operation. while(_iicStatus==0x100); if(!(_iicStatus&0x1)) break; //When ACK is received } rIICSTAT = 0xd0; //Stop MasTx condition rIICCON = 0xaf; //Resumes IIC operation. Delay(1); //Wait until stop condtion is in effect. //Write is completed. } //**********************[ Rd24C02 ] *********************************** 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); _iicMode = RDDATA; _iicPt = 0; _iicDataCount = 1; rIICDS = slvAddr; rIICSTAT = 0xb0; //MasRx,Start rIICCON = 0xaf; //Resumes IIC operation. while(_iicDataCount!=-1); *data = _iicData[1]; } //------------------------------------------------------------------------- void __irq IicInt(void) { U32 iicSt,i; rSRCPND = BIT_IIC; //Clear pending bit rINTPND = BIT_IIC; 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 = 0xaf; //Resumes IIC operation. 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 = 0x2f; //Resumes IIC operation with NOACK. else rIICCON = 0xaf; //Resumes IIC operation with ACK break; case WRDATA: if((_iicDataCount--)==0) { rIICSTAT = 0xd0; //Stop MasTx condition rIICCON = 0xaf; //Resumes IIC operation. 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 = 0xaf; //resumes IIC operation. break; case SETRDADDR: 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 = 0xaf; //Resumes IIC operation. break; default: break; } } //*********************[ Test_Iic2 ]********************************* void Test_Iic2(void) { unsigned int i,j,save_E,save_PE; static U8 data[256]; Uart_Printf("[ IIC Test(Polling) using AT24C02 ]\n"); save_E = rGPECON; save_PE = rGPEUP; rGPEUP |= 0xc000; //Pull-up disable rGPECON |= 0xa00000; //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); rIICADD = 0x10; //2440 slave address = [7:1] rIICSTAT = 0x10; //IIC bus data output enable(Rx/Tx) //rIICLC = (1<<2)|(3); // Filter enable, 15 clocks SDA output delay added by junon Uart_Printf("Write test data into AT24C02\n"); for(i=0;i<256;i++) _Wr24C02(0xa0,(U8)i,255-i); for(i=0;i<256;i++) data[i] = 0; Uart_Printf("Read test data from AT24C02\n"); for(i=0;i<256;i++) _Rd24C02(0xa0,(U8)i,&(data[i])); for(i=0;i<16;i++) { for(j=0;j<16;j++) Uart_Printf("%2x ",data[i*16+j]); Uart_Printf("\n"); } rGPEUP = save_PE; rGPECON = save_E; } //**************[ _Wr24C02 ]***************************************** void _Wr24C02(U32 slvAddr,U32 addr,U8 data) { _iicMode = WRDATA; _iicPt = 0; _iicData[0] = (U8)addr; _iicData[1] = data; _iicDataCount = 2; 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 = 0xaf; //Resumes II

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