#include <REGX52.H>
#include "LCD1602.h"
void Delaylms(unsigned int count)
{
unsigned int i,j;
for(i=0;i<count;i++)
for(j=0;j<120;j++);
}
#ifndef _REAL_TIMER_DS1302_2003_7_21_
#define _REAL_TIMER_DS1302_2003_7_21_
sbit DS1302_CLK = P1^6;
sbit DS1302_IO = P1^7;
sbit DS1302_RST = P1^5;
sbit ACC0 = ACC^0; sbit ACC7 = ACC^7;
typedef struct _SYSTEMTIME_
{
unsigned char Second; unsigned char Minute;
unsigned char Hour; unsigned char Week;
unsigned char Day; unsigned char Month;
unsigned char Year; unsigned char DateString[9];
unsigned char Timestring[9];
}SYSTEMTIME;
#define AM[X] X
#define PM[X] (X+12)
#define DS1302_SECOND 0x80
#define DS1302_MINUTE 0x82
#define DS1302_HOUR 0x84
#define DS1302_WEEK 0x8A
#define DS1302_DAY 0x86
#define DS1302_MONTH 0x88
#define DS1302_YEAR 0x8C
#define DS1302_RAM[X] (0xC0+(X)*2)
void DS1302InputByte(unsigned char d)
{
unsigned char i;
ACC = d;
for(i=8; i>0; i--)
{
DS1302_IO =ACC0; DS1302_CLK = 1;
DS1302_CLK = 0; ACC =ACC >> 1;
}
}
unsigned char DS1302OutputByte(void)
{
unsigned char i;
for(i=8; i>0; i--)
{
ACC = ACC >>1; ACC7 = DS1302_IO;
DS1302_CLK = 1; DS1302_CLK = 0;
}
return(ACC);
}
void Write1302(unsigned char ucAddr,unsigned char ucDa)
{
DS1302_RST = 0; DS1302_CLK = 0;
DS1302_RST = 1; DS1302InputByte(ucAddr);
DS1302InputByte(ucDa);
DS1302_CLK = 1; DS1302_RST = 0;
}
unsigned char Read1302(unsigned char ucAddr)
{
unsigned char ucData;
DS1302_RST = 0; DS1302_CLK = 0; DS1302_RST = 1;
DS1302InputByte(ucAddr|0x01);
ucData = DS1302OutputByte();
DS1302_CLK = 1; DS1302_RST = 0;
return(ucData);
}
void DS1302_SetProtect(bit flag)
{
if(flag) Write1302(0x8E,0x10);
else Write1302(0x8E,0x00);
}
void DS1302_SerTime(unsigned char Address, unsigned char Value)
{
DS1302_SetProtect(0);
Write1302(Address,((Value)/10<<4 | (Value%10)));
}
void DS1302_GetTime(SYSTEMTIME *Time)
{
unsigned char ReadValue;
ReadValue = Read1302(DS1302_SECOND);
Time->Second
#include "LCD1602.h"
void Delaylms(unsigned int count)
{
unsigned int i,j;
for(i=0;i<count;i++)
for(j=0;j<120;j++);
}
#ifndef _REAL_TIMER_DS1302_2003_7_21_
#define _REAL_TIMER_DS1302_2003_7_21_
sbit DS1302_CLK = P1^6;
sbit DS1302_IO = P1^7;
sbit DS1302_RST = P1^5;
sbit ACC0 = ACC^0; sbit ACC7 = ACC^7;
typedef struct _SYSTEMTIME_
{
unsigned char Second; unsigned char Minute;
unsigned char Hour; unsigned char Week;
unsigned char Day; unsigned char Month;
unsigned char Year; unsigned char DateString[9];
unsigned char Timestring[9];
}SYSTEMTIME;
#define AM[X] X
#define PM[X] (X+12)
#define DS1302_SECOND 0x80
#define DS1302_MINUTE 0x82
#define DS1302_HOUR 0x84
#define DS1302_WEEK 0x8A
#define DS1302_DAY 0x86
#define DS1302_MONTH 0x88
#define DS1302_YEAR 0x8C
#define DS1302_RAM[X] (0xC0+(X)*2)
void DS1302InputByte(unsigned char d)
{
unsigned char i;
ACC = d;
for(i=8; i>0; i--)
{
DS1302_IO =ACC0; DS1302_CLK = 1;
DS1302_CLK = 0; ACC =ACC >> 1;
}
}
unsigned char DS1302OutputByte(void)
{
unsigned char i;
for(i=8; i>0; i--)
{
ACC = ACC >>1; ACC7 = DS1302_IO;
DS1302_CLK = 1; DS1302_CLK = 0;
}
return(ACC);
}
void Write1302(unsigned char ucAddr,unsigned char ucDa)
{
DS1302_RST = 0; DS1302_CLK = 0;
DS1302_RST = 1; DS1302InputByte(ucAddr);
DS1302InputByte(ucDa);
DS1302_CLK = 1; DS1302_RST = 0;
}
unsigned char Read1302(unsigned char ucAddr)
{
unsigned char ucData;
DS1302_RST = 0; DS1302_CLK = 0; DS1302_RST = 1;
DS1302InputByte(ucAddr|0x01);
ucData = DS1302OutputByte();
DS1302_CLK = 1; DS1302_RST = 0;
return(ucData);
}
void DS1302_SetProtect(bit flag)
{
if(flag) Write1302(0x8E,0x10);
else Write1302(0x8E,0x00);
}
void DS1302_SerTime(unsigned char Address, unsigned char Value)
{
DS1302_SetProtect(0);
Write1302(Address,((Value)/10<<4 | (Value%10)));
}
void DS1302_GetTime(SYSTEMTIME *Time)
{
unsigned char ReadValue;
ReadValue = Read1302(DS1302_SECOND);
Time->Second
