效果

源码

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#include <reg51.H>
#include <intrins.H>

typedef unsigned char INT8U;
typedef unsigned int INT16U;

sfr IAP_DATA = 0xC2;
sfr IAP_ADDRH = 0xC3;
sfr IAP_ADDRL = 0xC4;
sfr IAP_CMD = 0xC5;
sfr IAP_TRIG = 0xC6;
sfr IAP_CONTR = 0xC7;

//#define ENABLE_ISP 0x80 //if SYSCLK<30MHz
//#define ENABLE_ISP 0x81 //if SYSCLK<24MHz
//#define ENABLE_ISP 0x82 //if SYSCLK<20MHz
#define ENABLE_ISP 0x83 //if SYSCLK<12MHz
//#define ENABLE_ISP 0x84 //if SYSCLK<6MHz
//#define ENABLE_ISP 0x85 //if SYSCLK<3MHz
//#define ENABLE_ISP 0x86 //if SYSCLK<2MHz
//#define ENABLE_ISP 0x87 //if SYSCLK<1MHz



union union_temp16
{
INT16U un_temp16;
INT8U un_temp8[2];
}my_unTemp16;

void IAP_Disable()
{
IAP_CONTR = 0;
IAP_CMD = 0;
IAP_TRIG = 0;
IAP_ADDRH = 0;
IAP_ADDRL = 0;
}


INT8U eeprom_read(INT16U add)
{
IAP_DATA = 0x00;
IAP_CONTR = ENABLE_ISP;
IAP_CMD = 0x01;

my_unTemp16.un_temp16 = add;
IAP_ADDRH = my_unTemp16.un_temp8[0];
IAP_ADDRL = my_unTemp16.un_temp8[1];

IAP_TRIG = 0x5A;
IAP_TRIG = 0xA5;
_nop_();
IAP_Disable();

return (IAP_DATA);
}

void eeprom_write(INT16U add, INT8U ch)
{
IAP_CONTR = ENABLE_ISP;
IAP_CMD = 0x02;

my_unTemp16.un_temp16 = add;
IAP_ADDRH = my_unTemp16.un_temp8[0];
IAP_ADDRL = my_unTemp16.un_temp8[1];

IAP_DATA = ch;
//EA = 0;
IAP_TRIG = 0x5A;
IAP_TRIG = 0xA5;
_nop_();
//EA = 1;
IAP_Disable();

}

void eeprom_erase(INT16U add)
{
IAP_CONTR = ENABLE_ISP;
IAP_CMD = 0x03;

my_unTemp16.un_temp16 = add;
IAP_ADDRH = my_unTemp16.un_temp8[0];
IAP_ADDRL = my_unTemp16.un_temp8[1];

//EA = 0;
IAP_TRIG = 0x5A;
IAP_TRIG = 0xA5;
_nop_();
_nop_();
_nop_();
//EA = 1;
IAP_Disable();

}


#include "reg51.h"
#define BAUD 0xF400 // 1200bps @ 11.0592MHz
//#define BAUD 0xFA00 // 2400bps @ 11.0592MHz
//#define BAUD 0xFD00 // 4800bps @ 11.0592MHz
//#define BAUD 0xFE80 // 9600bps @ 11.0592MHz
//#define BAUD 0xFF40 //19200bps @ 11.0592MHz
//#define BAUD 0xFFA0 //38400bps @ 11.0592MHz


sfr AUXR = 0x8E;
sbit RXB = P3^0;
sbit TXB = P3^1;

typedef bit BOOL;
typedef unsigned char BYTE;
typedef unsigned int WORD;

BYTE TBUF,RBUF;
BYTE TDAT,RDAT;
BYTE TCNT,RCNT;
BYTE TBIT,RBIT;
BOOL TING,RING;
BOOL TEND,REND;

void UART_INIT();

BYTE t, r;
BYTE buf[16];

//-----------------------------------------
//Timer interrupt routine for UART

void tm0() interrupt 1
{
if (RING)
{
if (--RCNT == 0)
{
RCNT = 3; //reset send baudrate counter
if (--RBIT == 0)
{
RBUF = RDAT; //save the data to RBUF
RING = 0; //stop receive
REND = 1; //set receive completed flag
}
else
{
RDAT >>= 1;
if (RXB)
RDAT |= 0x80; //shift RX data to RX buffer
}
}
}
else if (!RXB)
{
RING = 1; //set start receive flag
RCNT = 4; //initial receive baudrate counter
RBIT = 9; //initial receive bit number (8 data bits + 1 stop bit)
}

if (--TCNT == 0)
{
TCNT = 3; //reset send baudrate counter
if (TING) //judge whether sending
{
if (TBIT == 0)
{
TXB = 0; //send start bit
TDAT = TBUF; //load data from TBUF to TDAT
TBIT = 9; //initial send bit number (8 data bits + 1 stop bit)
}
else
{
TDAT >>= 1; //shift data to CY
if (--TBIT == 0)
{
TXB = 1;
TING = 0; //stop send
TEND = 1; //set send completed flag
}
else
{
TXB = CY; //write CY to TX port
}
}
}
}
}

void UART_INIT()
{
TMOD = 0x00; //timer0 in 16-bit auto reload mode
AUXR = 0x80; //timer0 working at 1T mode
TL0 = BAUD;
TH0 = BAUD>>8; //initial timer0 and set reload value
TR0 = 1; //tiemr0 start running
ET0 = 1; //enable timer0 interrupt
PT0 = 1; //improve timer0 interrupt priority
EA = 1; //open global interrupt switch

TING = 0;
RING = 0;
TEND = 1;
REND = 0;
TCNT = 0;
RCNT = 0;
}

void SendByte(char aByte)
{
while(!TEND);
TEND = 0;
TBUF = aByte;
TING = 1;
}
char RecvByte()
{
while(!REND);
REND = 0;
return RBUF;
}

void SendData(char* pData, int len)
{
int i;
for(i=0; i<len; i++)
{
SendByte(pData[i]);
}
}


void SendHEX(unsigned char Data)
{
unsigned char highByte = (Data >> 4);
unsigned char lowByte = (Data & 0X0F);

highByte += 0x30;
if (highByte > 0x39)
{
SendByte(highByte + 0x07);
}
else
{
SendByte(highByte);
}

lowByte += 0x30;
if (lowByte > 0x39)
{
SendByte(lowByte + 0x07);
}
else
{
SendByte(lowByte);
}
}



void SendLR()
{
SendByte('\r');
SendByte('\n');
}

void SendStr(char* pData)
{
int i = 0;;
while(pData[i] != '\0')
{
SendByte(pData[i++]);
}
}



/*----------------------------
软件延时
----------------------------*/

void Delay(BYTE n)
{
WORD x;

while (n--)
{
x = 0;
while (++x);
}
}



#define IAP_ADDRESS_1 0x0000 // 扇区1 起始地址 共512 Byte
#define IAP_ADDRESS_2 0x0200 // 扇区2 起始地址 共512 Byte


void main()
{
unsigned int aByte;
UART_INIT();

while (1)
{ //user's function
eeprom_erase(IAP_ADDRESS_1);
Delay(15);
eeprom_erase(IAP_ADDRESS_2);
Delay(15);

//////////////////////////////////////////////////
SendStr("sector_1 after eeprom_erase");
SendLR();
for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
SendHEX(eeprom_read(IAP_ADDRESS_1 + aByte));
SendStr(" ");
}
SendLR();

SendStr("sector_2 after eeprom_erase");
SendLR();
for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
SendHEX(eeprom_read(IAP_ADDRESS_2 + aByte));
SendStr(" ");
}
SendLR();

//////////////////////////////////////////////////
SendStr("sector_1 Write Read");
SendLR();
for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
eeprom_write(IAP_ADDRESS_1 + aByte, (aByte % 256));
}

for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
SendHEX(eeprom_read(IAP_ADDRESS_1 + aByte));
SendStr(" ");
}
SendLR();

SendStr("sector_2 Write Read");
SendLR();
for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
eeprom_write(IAP_ADDRESS_2 + aByte, 0xff - (aByte % 256));
}

for(aByte = 0; aByte < 512; aByte++) // [0 ~ 511]
{
SendHEX(eeprom_read(IAP_ADDRESS_2 + aByte));
SendStr(" ");
}
SendLR();

Delay(45);

}
}