求一段为51单片机编写的LCD电子时钟的设计,简单就好!高分伺候!
(T_T 平时上课没努力,我有罪!)希望大家能跟我说一下怎么设计这个时钟,都需要些什么东西(老师说用51单片机完成,除了这个还需要些什么?),然后最最最重要的————希望各位大虾能帮忙花上一个小时的时间把这个设计需要的程序写出来发给我好么?(小弟不才,还有一点分数,写的好的话继续追加哈!)
设计的任务:
以单片机控制的时钟,在LCD显示器上显示当前的时间。
设计的基本要求:
1.使用文字型LCD显示器显示当前时间。
2.显示格式为“时时:分分:妙秒”。
3.用4个功能键操作来设置当前时间。功能键K1-K4功能如下:
①K1:进入设置现在的时间。
②K2:设置小时。
③K3:设置分钟。
④K4:确认完成设置。
4. 程序执行后工作指示灯LED闪烁,表示程序开始执行,LCD显示“00:00:00”,然后开始计时。
(泪流满面,跪谢各位大虾。。。。。)
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第1个回答 2012-04-27
引脚定义如下:1-VSS 2-VDD 3-V0 4-RS 5-R/W 6-E 7-14 DB0-DB7 15-BLA 16-BLK
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
引脚定义如下:1-VSS 2-VDD 3-V0 4-RS 5-R/W 6-E 7-14 DB0-DB7 15-BLA 16-BLK
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
引脚定义如下:1-VSS 2-VDD 3-V0 4-RS 5-R/W 6-E 7-14 DB0-DB7 15-BLA 16-BLK
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
------------------------------------------------*/
#include<reg52.h> //包含头文件,一般情况不需要改动,头文件包含特殊功能寄存器的定义
#include<intrins.h>
#ifndef __1602_H__
#define __1602_H__
bit LCD_Check_Busy(void) ;
void LCD_Write_Com(unsigned char com) ;
void LCD_Write_Data(unsigned char Data) ;
void LCD_Clear(void) ;
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s) ;
void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data) ;
void LCD_Init(void) ;
#endif
#include "delay.h"
/*------------------------------------------------
uS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编,大致延时
长度如下 T=tx2+5 uS
------------------------------------------------*/
void DelayUs2x(unsigned char t)
{
while(--t);
}
/*------------------------------------------------
mS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编
------------------------------------------------*/
void DelayMs(unsigned char t)
{
while(t--)
{
//大致延时1mS
DelayUs2x(245);
DelayUs2x(245);
}
}
#ifndef __DELAY_H__
#define __DELAY_H__
/*------------------------------------------------
uS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编,大致延时
长度如下 T=tx2+5 uS
------------------------------------------------*/
void DelayUs2x(unsigned char t);
/*------------------------------------------------
mS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编
------------------------------------------------*/
void DelayMs(unsigned char t);
#endif
#include "ds1302.h"
unsigned char time_buf1[8] = {20,10,6,5,12,55,00,6};//空年月日时分秒周
unsigned char time_buf[8] ; //空年月日时分秒周
/*------------------------------------------------
向DS1302写入一字节数据
------------------------------------------------*/
void Ds1302_Write_Byte(unsigned char addr, unsigned char d)
{
unsigned char i;
RST_SET;
//写入目标地址:addr
addr = addr & 0xFE; //最低位置零
for (i = 0; i < 8; i ++)
{
if (addr & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
addr = addr >> 1;
}
//写入数据:d
for (i = 0; i < 8; i ++)
{
if (d & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
d = d >> 1;
}
RST_CLR; //停止DS1302总线
}
/*------------------------------------------------
从DS1302读出一字节数据
------------------------------------------------*/
unsigned char Ds1302_Read_Byte(unsigned char addr)
{
unsigned char i;
unsigned char temp;
RST_SET;
//写入目标地址:addr
addr = addr | 0x01;//最低位置高
for (i = 0; i < 8; i ++)
{
if (addr & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
addr = addr >> 1;
}
//输出数据:temp
for (i = 0; i < 8; i ++)
{
temp = temp >> 1;
if (IO_R)
{
temp |= 0x80;
}
else
{
temp &= 0x7F;
}
SCK_SET;
SCK_CLR;
}
RST_CLR; //停止DS1302总线
return temp;
}
/*------------------------------------------------
向DS1302写入时钟数据
------------------------------------------------*/
void Ds1302_Write_Time(void)
{
unsigned char i,tmp;
for(i=0;i<8;i++)
{ //BCD处理
tmp=time_buf1[i]/10;
time_buf[i]=time_buf1[i]%10;
time_buf[i]=time_buf[i]+tmp*16;
}
Ds1302_Write_Byte(ds1302_control_add,0x00); //关闭写保护
Ds1302_Write_Byte(ds1302_sec_add,0x80); //暂停
//Ds1302_Write_Byte(ds1302_charger_add,0xa9); //涓流充电
Ds1302_Write_Byte(ds1302_year_add,time_buf[1]); //年
Ds1302_Write_Byte(ds1302_month_add,time_buf[2]); //月
Ds1302_Write_Byte(ds1302_date_add,time_buf[3]); //日
Ds1302_Write_Byte(ds1302_day_add,time_buf[7]); //周
Ds1302_Write_Byte(ds1302_hr_add,time_buf[4]); //时
Ds1302_Write_Byte(ds1302_min_add,time_buf[5]); //分
Ds1302_Write_Byte(ds1302_sec_add,time_buf[6]); //秒
Ds1302_Write_Byte(ds1302_day_add,time_buf[7]); //周
Ds1302_Write_Byte(ds1302_control_add,0x80); //打开写保护
}
/*------------------------------------------------
从DS1302读出时钟数据
------------------------------------------------*/
void Ds1302_Read_Time(void)
{
unsigned char i,tmp;
time_buf[1]=Ds1302_Read_Byte(ds1302_year_add); //年
time_buf[2]=Ds1302_Read_Byte(ds1302_month_add); //月
time_buf[3]=Ds1302_Read_Byte(ds1302_date_add); //日
time_buf[4]=Ds1302_Read_Byte(ds1302_hr_add); //时
time_buf[5]=Ds1302_Read_Byte(ds1302_min_add); //分
time_buf[6]=(Ds1302_Read_Byte(ds1302_sec_add))&0x7F;//秒
time_buf[7]=Ds1302_Read_Byte(ds1302_day_add); //周
for(i=0;i<8;i++)
{ //BCD处理
tmp=time_buf[i]/16;
time_buf1[i]=time_buf[i]%16;
time_buf1[i]=time_buf1[i]+tmp*10;
}
}
/*------------------------------------------------
DS1302初始化
------------------------------------------------*/
void Ds1302_Init(void)
{
RST_CLR; //RST脚置低
SCK_CLR; //SCK脚置低
Ds1302_Write_Byte(ds1302_sec_add,0x00);
}
#ifndef __DS1302_H__
#define __DS1302_H__
#include <reg52.h>
#include<intrins.h>
sbit SCK=P1^4;
sbit SDA=P1^5;
sbit RST=P1^6;
//复位脚
#define RST_CLR RST=0//电平置低
#define RST_SET RST=1//电平置高
//双向数据
#define IO_CLR SDA=0//电平置低
#define IO_SET SDA=1//电平置高
#define IO_R SDA //电平读取
//时钟信号
#define SCK_CLR SCK=0//时钟信号
#define SCK_SET SCK=1//电平置高
#define ds1302_sec_add 0x80 //秒数据地址
#define ds1302_min_add 0x82 //分数据地址
#define ds1302_hr_add 0x84 //时数据地址
#define ds1302_date_add 0x86 //日数据地址
#define ds1302_month_add 0x88 //月数据地址
#define ds1302_day_add 0x8a //星期数据地址
#define ds1302_year_add 0x8c //年数据地址
#define ds1302_control_add 0x8e //控制数据地址
#define ds1302_charger_add 0x90
#define ds1302_clkburst_add 0xbe
extern unsigned char time_buf1[8];//空年月日时分秒周
extern unsigned char time_buf[8] ;//空年月日时分秒周
/*------------------------------------------------
向DS1302写入一字节数据
------------------------------------------------*/
void Ds1302_Write_Byte(unsigned char addr, unsigned char d);
/*------------------------------------------------
从DS1302读出一字节数据
------------------------------------------------*/
unsigned char Ds1302_Read_Byte(unsigned char addr) ;
/*------------------------------------------------
向DS1302写入时钟数据
------------------------------------------------*/
void Ds1302_Write_Time(void) ;
/*------------------------------------------------
从DS1302读出时钟数据
------------------------------------------------*/
void Ds1302_Read_Time(void) ;
/*------------------------------------------------
DS1302初始化
------------------------------------------------*/
void Ds1302_Init(void);
#endif
------------------------------------------------*/
#include<reg52.h> //包含头文件,一般情况不需要改动,头文件包含特殊功能寄存器的定义
#include <stdio.h>
#include "ds1302.h"
#include "delay.h"
#include "1602.h"
bit ReadTimeFlag;//定义读时间标志
bit SetFlag; //更新时间标志位
unsigned char time_buf2[16];
void Init_Timer0(void);//定时器初始化
void UART_Init(void);
/*------------------------------------------------
主函数
------------------------------------------------*/
void main (void)
{
unsigned char i;
unsigned char temp[16];//定义显示区域临时存储数组
LCD_Init(); //初始化液晶
DelayMs(20); //延时有助于稳定
LCD_Clear(); //清屏
Init_Timer0(); //定时器0初始化
Ds1302_Init(); //ds1302初始化
UART_Init(); //串口初始化
Ds1302_Read_Time(); //首次读取时间
if((time_buf1[2]+time_buf1[7])==0) //如果所有参数都为0,写入一个初始值
Ds1302_Write_Time();
while (1) //主循环
{
if(SetFlag) //如果接收到串口信息则更新时钟
{
for(i=0;i<8;i++)
{
time_buf1[i]=time_buf2[2*i]*10+time_buf2[2*i+1];//数据整合,如2个数 1和5整合成15
}
Ds1302_Write_Time();//接收更新的时间然后写入ds1302
SetFlag=0; //时钟信息更新后标志位清零
}
if(ReadTimeFlag==1) //定时读取ds1302 定时时间到 则标志位置1,处理过时间参数标志位清零
{
ReadTimeFlag=0; //标志位清零
Ds1302_Read_Time();//读取时间参数
sprintf(temp,"DATE %02d-%02d-%02d %d",(int)time_buf1[1],(int)time_buf1[2],(int)time_buf1[3],(int)time_buf1[7]);//年月日周
LCD_Write_String(0,0,temp);//显示第一行
sprintf(temp,"TIME %02d:%02d:%02d",(int)time_buf1[4],(int)time_buf1[5],(int)time_buf1[6]);//时分秒
LCD_Write_String(0,1,temp);//显示第二行
}
}
}
/*------------------------------------------------
串口通讯初始化
------------------------------------------------*/
void UART_Init(void)
{
SCON = 0x50; // SCON: 模式 1, 8-bit UART, 使能接收
TMOD |= 0x20; // TMOD: timer 1, mode 2, 8-bit 重装
TH1 = 0xFD; // TH1: 重装值 9600 波特率 晶振 11.0592MHz
TR1 = 1; // TR1: timer 1 打开
EA = 1; //打开总中断
ES = 1; //打开串口中断
}
/*------------------------------------------------
定时器初始化子程序
------------------------------------------------*/
void Init_Timer0(void)
{
TMOD |= 0x01; //使用模式1,16位定时器,使用"|"符号可以在使用多个定时器时不受影响
//TH0=0x00; //给定初值
//TL0=0x00;
EA=1; //总中断打开
ET0=1; //定时器中断打开
TR0=1; //定时器开关打开
}
/*------------------------------------------------
定时器中断子程序
------------------------------------------------*/
void Timer0_isr(void) interrupt 1
{
static unsigned int num;
TH0=(65536-2000)/256; //重新赋值 2ms
TL0=(65536-2000)%256;
num++;
if(num==50) //大致100ms
{
num=0;
ReadTimeFlag=1; //读标志位置1
}
}
/*------------------------------------------------
串口中断程序
------------------------------------------------*/
void UART_SER (void) interrupt 4 //串行中断服务程序
{
unsigned char Temp; //定义临时变量
unsigned char i;
if(RI) //判断是接收中断产生
{
RI=0; //标志位清零
Temp=SBUF; //读入缓冲区的值
time_buf2[i]=Temp&0x0F;
i++;
if(i==16) //连续接收16个字符信息
{
i=0;
SetFlag=1; //接收完成标志位置1
}
SBUF=Temp; //把接收到的值再发回电脑端
}
if(TI) //如果是发送标志位,清零
TI=0;
}
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
引脚定义如下:1-VSS 2-VDD 3-V0 4-RS 5-R/W 6-E 7-14 DB0-DB7 15-BLA 16-BLK
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
引脚定义如下:1-VSS 2-VDD 3-V0 4-RS 5-R/W 6-E 7-14 DB0-DB7 15-BLA 16-BLK
------------------------------------------------*/
#include "1602.h"
#include "delay.h"
sbit RS = P2^4; //定义端口
sbit RW = P2^5;
sbit EN = P2^6;
#define RS_CLR RS=0
#define RS_SET RS=1
#define RW_CLR RW=0
#define RW_SET RW=1
#define EN_CLR EN=0
#define EN_SET EN=1
#define DataPort P0
/*------------------------------------------------
判忙函数
------------------------------------------------*/
bit LCD_Check_Busy(void)
{
DataPort= 0xFF;
RS_CLR;
RW_SET;
EN_CLR;
_nop_();
EN_SET;
return (bit)(DataPort & 0x80);
}
/*------------------------------------------------
写入命令函数
------------------------------------------------*/
void LCD_Write_Com(unsigned char com)
{
while(LCD_Check_Busy()); //忙则等待
RS_CLR;
RW_CLR;
EN_SET;
DataPort= com;
_nop_();
EN_CLR;
}
/*------------------------------------------------
写入数据函数
------------------------------------------------*/
void LCD_Write_Data(unsigned char Data)
{
while(LCD_Check_Busy()); //忙则等待
RS_SET;
RW_CLR;
EN_SET;
DataPort= Data;
_nop_();
EN_CLR;
}
/*------------------------------------------------
清屏函数
------------------------------------------------*/
void LCD_Clear(void)
{
LCD_Write_Com(0x01);
DelayMs(5);
}
/*------------------------------------------------
写入字符串函数
------------------------------------------------*/
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x); //表示第一行
}
else
{
LCD_Write_Com(0xC0 + x); //表示第二行
}
while (*s)
{
LCD_Write_Data( *s);
s ++;
}
}
/*------------------------------------------------
写入字符函数
------------------------------------------------*/
/* void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data)
{
if (y == 0)
{
LCD_Write_Com(0x80 + x);
}
else
{
LCD_Write_Com(0xC0 + x);
}
LCD_Write_Data( Data);
}*/
/*------------------------------------------------
初始化函数
------------------------------------------------*/
void LCD_Init(void)
{
LCD_Write_Com(0x38); /*显示模式设置*/
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
DelayMs(5);
LCD_Write_Com(0x38);
LCD_Write_Com(0x08); /*显示关闭*/
LCD_Write_Com(0x01); /*显示清屏*/
LCD_Write_Com(0x06); /*显示光标移动设置*/
DelayMs(5);
LCD_Write_Com(0x0C); /*显示开及光标设置*/
}
------------------------------------------------*/
#include<reg52.h> //包含头文件,一般情况不需要改动,头文件包含特殊功能寄存器的定义
#include<intrins.h>
#ifndef __1602_H__
#define __1602_H__
bit LCD_Check_Busy(void) ;
void LCD_Write_Com(unsigned char com) ;
void LCD_Write_Data(unsigned char Data) ;
void LCD_Clear(void) ;
void LCD_Write_String(unsigned char x,unsigned char y,unsigned char *s) ;
void LCD_Write_Char(unsigned char x,unsigned char y,unsigned char Data) ;
void LCD_Init(void) ;
#endif
#include "delay.h"
/*------------------------------------------------
uS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编,大致延时
长度如下 T=tx2+5 uS
------------------------------------------------*/
void DelayUs2x(unsigned char t)
{
while(--t);
}
/*------------------------------------------------
mS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编
------------------------------------------------*/
void DelayMs(unsigned char t)
{
while(t--)
{
//大致延时1mS
DelayUs2x(245);
DelayUs2x(245);
}
}
#ifndef __DELAY_H__
#define __DELAY_H__
/*------------------------------------------------
uS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编,大致延时
长度如下 T=tx2+5 uS
------------------------------------------------*/
void DelayUs2x(unsigned char t);
/*------------------------------------------------
mS延时函数,含有输入参数 unsigned char t,无返回值
unsigned char 是定义无符号字符变量,其值的范围是
0~255 这里使用晶振12M,精确延时请使用汇编
------------------------------------------------*/
void DelayMs(unsigned char t);
#endif
#include "ds1302.h"
unsigned char time_buf1[8] = {20,10,6,5,12,55,00,6};//空年月日时分秒周
unsigned char time_buf[8] ; //空年月日时分秒周
/*------------------------------------------------
向DS1302写入一字节数据
------------------------------------------------*/
void Ds1302_Write_Byte(unsigned char addr, unsigned char d)
{
unsigned char i;
RST_SET;
//写入目标地址:addr
addr = addr & 0xFE; //最低位置零
for (i = 0; i < 8; i ++)
{
if (addr & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
addr = addr >> 1;
}
//写入数据:d
for (i = 0; i < 8; i ++)
{
if (d & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
d = d >> 1;
}
RST_CLR; //停止DS1302总线
}
/*------------------------------------------------
从DS1302读出一字节数据
------------------------------------------------*/
unsigned char Ds1302_Read_Byte(unsigned char addr)
{
unsigned char i;
unsigned char temp;
RST_SET;
//写入目标地址:addr
addr = addr | 0x01;//最低位置高
for (i = 0; i < 8; i ++)
{
if (addr & 0x01)
{
IO_SET;
}
else
{
IO_CLR;
}
SCK_SET;
SCK_CLR;
addr = addr >> 1;
}
//输出数据:temp
for (i = 0; i < 8; i ++)
{
temp = temp >> 1;
if (IO_R)
{
temp |= 0x80;
}
else
{
temp &= 0x7F;
}
SCK_SET;
SCK_CLR;
}
RST_CLR; //停止DS1302总线
return temp;
}
/*------------------------------------------------
向DS1302写入时钟数据
------------------------------------------------*/
void Ds1302_Write_Time(void)
{
unsigned char i,tmp;
for(i=0;i<8;i++)
{ //BCD处理
tmp=time_buf1[i]/10;
time_buf[i]=time_buf1[i]%10;
time_buf[i]=time_buf[i]+tmp*16;
}
Ds1302_Write_Byte(ds1302_control_add,0x00); //关闭写保护
Ds1302_Write_Byte(ds1302_sec_add,0x80); //暂停
//Ds1302_Write_Byte(ds1302_charger_add,0xa9); //涓流充电
Ds1302_Write_Byte(ds1302_year_add,time_buf[1]); //年
Ds1302_Write_Byte(ds1302_month_add,time_buf[2]); //月
Ds1302_Write_Byte(ds1302_date_add,time_buf[3]); //日
Ds1302_Write_Byte(ds1302_day_add,time_buf[7]); //周
Ds1302_Write_Byte(ds1302_hr_add,time_buf[4]); //时
Ds1302_Write_Byte(ds1302_min_add,time_buf[5]); //分
Ds1302_Write_Byte(ds1302_sec_add,time_buf[6]); //秒
Ds1302_Write_Byte(ds1302_day_add,time_buf[7]); //周
Ds1302_Write_Byte(ds1302_control_add,0x80); //打开写保护
}
/*------------------------------------------------
从DS1302读出时钟数据
------------------------------------------------*/
void Ds1302_Read_Time(void)
{
unsigned char i,tmp;
time_buf[1]=Ds1302_Read_Byte(ds1302_year_add); //年
time_buf[2]=Ds1302_Read_Byte(ds1302_month_add); //月
time_buf[3]=Ds1302_Read_Byte(ds1302_date_add); //日
time_buf[4]=Ds1302_Read_Byte(ds1302_hr_add); //时
time_buf[5]=Ds1302_Read_Byte(ds1302_min_add); //分
time_buf[6]=(Ds1302_Read_Byte(ds1302_sec_add))&0x7F;//秒
time_buf[7]=Ds1302_Read_Byte(ds1302_day_add); //周
for(i=0;i<8;i++)
{ //BCD处理
tmp=time_buf[i]/16;
time_buf1[i]=time_buf[i]%16;
time_buf1[i]=time_buf1[i]+tmp*10;
}
}
/*------------------------------------------------
DS1302初始化
------------------------------------------------*/
void Ds1302_Init(void)
{
RST_CLR; //RST脚置低
SCK_CLR; //SCK脚置低
Ds1302_Write_Byte(ds1302_sec_add,0x00);
}
#ifndef __DS1302_H__
#define __DS1302_H__
#include <reg52.h>
#include<intrins.h>
sbit SCK=P1^4;
sbit SDA=P1^5;
sbit RST=P1^6;
//复位脚
#define RST_CLR RST=0//电平置低
#define RST_SET RST=1//电平置高
//双向数据
#define IO_CLR SDA=0//电平置低
#define IO_SET SDA=1//电平置高
#define IO_R SDA //电平读取
//时钟信号
#define SCK_CLR SCK=0//时钟信号
#define SCK_SET SCK=1//电平置高
#define ds1302_sec_add 0x80 //秒数据地址
#define ds1302_min_add 0x82 //分数据地址
#define ds1302_hr_add 0x84 //时数据地址
#define ds1302_date_add 0x86 //日数据地址
#define ds1302_month_add 0x88 //月数据地址
#define ds1302_day_add 0x8a //星期数据地址
#define ds1302_year_add 0x8c //年数据地址
#define ds1302_control_add 0x8e //控制数据地址
#define ds1302_charger_add 0x90
#define ds1302_clkburst_add 0xbe
extern unsigned char time_buf1[8];//空年月日时分秒周
extern unsigned char time_buf[8] ;//空年月日时分秒周
/*------------------------------------------------
向DS1302写入一字节数据
------------------------------------------------*/
void Ds1302_Write_Byte(unsigned char addr, unsigned char d);
/*------------------------------------------------
从DS1302读出一字节数据
------------------------------------------------*/
unsigned char Ds1302_Read_Byte(unsigned char addr) ;
/*------------------------------------------------
向DS1302写入时钟数据
------------------------------------------------*/
void Ds1302_Write_Time(void) ;
/*------------------------------------------------
从DS1302读出时钟数据
------------------------------------------------*/
void Ds1302_Read_Time(void) ;
/*------------------------------------------------
DS1302初始化
------------------------------------------------*/
void Ds1302_Init(void);
#endif
------------------------------------------------*/
#include<reg52.h> //包含头文件,一般情况不需要改动,头文件包含特殊功能寄存器的定义
#include <stdio.h>
#include "ds1302.h"
#include "delay.h"
#include "1602.h"
bit ReadTimeFlag;//定义读时间标志
bit SetFlag; //更新时间标志位
unsigned char time_buf2[16];
void Init_Timer0(void);//定时器初始化
void UART_Init(void);
/*------------------------------------------------
主函数
------------------------------------------------*/
void main (void)
{
unsigned char i;
unsigned char temp[16];//定义显示区域临时存储数组
LCD_Init(); //初始化液晶
DelayMs(20); //延时有助于稳定
LCD_Clear(); //清屏
Init_Timer0(); //定时器0初始化
Ds1302_Init(); //ds1302初始化
UART_Init(); //串口初始化
Ds1302_Read_Time(); //首次读取时间
if((time_buf1[2]+time_buf1[7])==0) //如果所有参数都为0,写入一个初始值
Ds1302_Write_Time();
while (1) //主循环
{
if(SetFlag) //如果接收到串口信息则更新时钟
{
for(i=0;i<8;i++)
{
time_buf1[i]=time_buf2[2*i]*10+time_buf2[2*i+1];//数据整合,如2个数 1和5整合成15
}
Ds1302_Write_Time();//接收更新的时间然后写入ds1302
SetFlag=0; //时钟信息更新后标志位清零
}
if(ReadTimeFlag==1) //定时读取ds1302 定时时间到 则标志位置1,处理过时间参数标志位清零
{
ReadTimeFlag=0; //标志位清零
Ds1302_Read_Time();//读取时间参数
sprintf(temp,"DATE %02d-%02d-%02d %d",(int)time_buf1[1],(int)time_buf1[2],(int)time_buf1[3],(int)time_buf1[7]);//年月日周
LCD_Write_String(0,0,temp);//显示第一行
sprintf(temp,"TIME %02d:%02d:%02d",(int)time_buf1[4],(int)time_buf1[5],(int)time_buf1[6]);//时分秒
LCD_Write_String(0,1,temp);//显示第二行
}
}
}
/*------------------------------------------------
串口通讯初始化
------------------------------------------------*/
void UART_Init(void)
{
SCON = 0x50; // SCON: 模式 1, 8-bit UART, 使能接收
TMOD |= 0x20; // TMOD: timer 1, mode 2, 8-bit 重装
TH1 = 0xFD; // TH1: 重装值 9600 波特率 晶振 11.0592MHz
TR1 = 1; // TR1: timer 1 打开
EA = 1; //打开总中断
ES = 1; //打开串口中断
}
/*------------------------------------------------
定时器初始化子程序
------------------------------------------------*/
void Init_Timer0(void)
{
TMOD |= 0x01; //使用模式1,16位定时器,使用"|"符号可以在使用多个定时器时不受影响
//TH0=0x00; //给定初值
//TL0=0x00;
EA=1; //总中断打开
ET0=1; //定时器中断打开
TR0=1; //定时器开关打开
}
/*------------------------------------------------
定时器中断子程序
------------------------------------------------*/
void Timer0_isr(void) interrupt 1
{
static unsigned int num;
TH0=(65536-2000)/256; //重新赋值 2ms
TL0=(65536-2000)%256;
num++;
if(num==50) //大致100ms
{
num=0;
ReadTimeFlag=1; //读标志位置1
}
}
/*------------------------------------------------
串口中断程序
------------------------------------------------*/
void UART_SER (void) interrupt 4 //串行中断服务程序
{
unsigned char Temp; //定义临时变量
unsigned char i;
if(RI) //判断是接收中断产生
{
RI=0; //标志位清零
Temp=SBUF; //读入缓冲区的值
time_buf2[i]=Temp&0x0F;
i++;
if(i==16) //连续接收16个字符信息
{
i=0;
SetFlag=1; //接收完成标志位置1
}
SBUF=Temp; //把接收到的值再发回电脑端
}
if(TI) //如果是发送标志位,清零
TI=0;
}
第2个回答 2012-04-27
这个例子LCD是1602,时钟是用DS1302得到的。
/*************** writer:shopping.w ******************/
#include <reg52.h>
#include <intrins.h>
#include <string.h>
#define uint unsigned int
#define uchar unsigned char
sbit IO = P1^0;
sbit SCLK = P1^1;
sbit RST = P1^2;
sbit RS = P2^0;
sbit RW = P2^1;
sbit EN = P2^2;
uchar *WEEK[]=
{
"SUN","***","MON","TUS","WEN","THU","FRI","SAT"
};
uchar LCD_DSY_BUFFER1[]={"DATE 00-00-00 "};
uchar LCD_DSY_BUFFER2[]={"TIME 00:00:00 "};
uchar DateTime[7];
void DelayMS(uint ms)
{
uchar i;
while(ms--)
{
for(i=0;i<120;i++);
}
}
void Write_A_Byte_TO_DS1302(uchar x)
{
uchar i;
for(i=0;i<8;i++)
{
IO=x&0x01;SCLK=1;SCLK=0;x>>=1;
}
}
uchar Get_A_Byte_FROM_DS1302()
{
uchar i,b=0x00;
for(i=0;i<8;i++)
{
b |= _crol_((uchar)IO,i);
SCLK=1;SCLK=0;
}
return b/16*10+b%16;
}
uchar Read_Data(uchar addr)
{
uchar dat;
RST = 0;SCLK=0;RST=1;
Write_A_Byte_TO_DS1302(addr);
dat = Get_A_Byte_FROM_DS1302();
SCLK=1;RST=0;
return dat;
}
void GetTime()
{
uchar i,addr = 0x81;
for(i=0;i<7;i++)
{
DateTime[i]=Read_Data(addr);addr+=2;
}
}
uchar Read_LCD_State()
{
uchar state;
RS=0;RW=1;EN=1;DelayMS(1);
state=P0;
EN = 0;DelayMS(1);
return state;
}
void LCD_Busy_Wait()
{
while((Read_LCD_State()&0x80)==0x80);
DelayMS(5);
}
void Write_LCD_Data(uchar dat)
{
LCD_Busy_Wait();
RS=1;RW=0;EN=0;P0=dat;EN=1;DelayMS(1);EN=0;
}
void Write_LCD_Command(uchar cmd)
{
LCD_Busy_Wait();
RS=0;RW=0;EN=0;P0=cmd;EN=1;DelayMS(1);EN=0;
}
void Init_LCD()
{
Write_LCD_Command(0x38);
DelayMS(1);
Write_LCD_Command(0x01);
DelayMS(1);
Write_LCD_Command(0x06);
DelayMS(1);
Write_LCD_Command(0x0c);
DelayMS(1);
}
void Set_LCD_POS(uchar p)
{
Write_LCD_Command(p|0x80);
}
void Display_LCD_String(uchar p,uchar *s)
{
uchar i;
Set_LCD_POS(p);
for(i=0;i<16;i++)
{
Write_LCD_Data(s[i]);
DelayMS(1);
}
}
void Format_DateTime(uchar d,uchar *a)
{
a[0]=d/10+'0';
a[1]=d%10+'0';
}
void main()
{
Init_LCD();
while(1)
{
GetTime();
Format_DateTime(DateTime[6],LCD_DSY_BUFFER1+5);
Format_DateTime(DateTime[4],LCD_DSY_BUFFER1+8);
Format_DateTime(DateTime[3],LCD_DSY_BUFFER1+11);
strcpy(LCD_DSY_BUFFER1+13,WEEK[DateTime[5]]);
Format_DateTime(DateTime[2],LCD_DSY_BUFFER1+5);
Format_DateTime(DateTime[1],LCD_DSY_BUFFER1+8);
Format_DateTime(DateTime[0],LCD_DSY_BUFFER1+11);
Display_LCD_String(0x00,LCD_DSY_BUFFER1);
Display_LCD_String(0x40,LCD_DSY_BUFFER2);
}
}追问
/*************** writer:shopping.w ******************/
#include <reg52.h>
#include <intrins.h>
#include <string.h>
#define uint unsigned int
#define uchar unsigned char
sbit IO = P1^0;
sbit SCLK = P1^1;
sbit RST = P1^2;
sbit RS = P2^0;
sbit RW = P2^1;
sbit EN = P2^2;
uchar *WEEK[]=
{
"SUN","***","MON","TUS","WEN","THU","FRI","SAT"
};
uchar LCD_DSY_BUFFER1[]={"DATE 00-00-00 "};
uchar LCD_DSY_BUFFER2[]={"TIME 00:00:00 "};
uchar DateTime[7];
void DelayMS(uint ms)
{
uchar i;
while(ms--)
{
for(i=0;i<120;i++);
}
}
void Write_A_Byte_TO_DS1302(uchar x)
{
uchar i;
for(i=0;i<8;i++)
{
IO=x&0x01;SCLK=1;SCLK=0;x>>=1;
}
}
uchar Get_A_Byte_FROM_DS1302()
{
uchar i,b=0x00;
for(i=0;i<8;i++)
{
b |= _crol_((uchar)IO,i);
SCLK=1;SCLK=0;
}
return b/16*10+b%16;
}
uchar Read_Data(uchar addr)
{
uchar dat;
RST = 0;SCLK=0;RST=1;
Write_A_Byte_TO_DS1302(addr);
dat = Get_A_Byte_FROM_DS1302();
SCLK=1;RST=0;
return dat;
}
void GetTime()
{
uchar i,addr = 0x81;
for(i=0;i<7;i++)
{
DateTime[i]=Read_Data(addr);addr+=2;
}
}
uchar Read_LCD_State()
{
uchar state;
RS=0;RW=1;EN=1;DelayMS(1);
state=P0;
EN = 0;DelayMS(1);
return state;
}
void LCD_Busy_Wait()
{
while((Read_LCD_State()&0x80)==0x80);
DelayMS(5);
}
void Write_LCD_Data(uchar dat)
{
LCD_Busy_Wait();
RS=1;RW=0;EN=0;P0=dat;EN=1;DelayMS(1);EN=0;
}
void Write_LCD_Command(uchar cmd)
{
LCD_Busy_Wait();
RS=0;RW=0;EN=0;P0=cmd;EN=1;DelayMS(1);EN=0;
}
void Init_LCD()
{
Write_LCD_Command(0x38);
DelayMS(1);
Write_LCD_Command(0x01);
DelayMS(1);
Write_LCD_Command(0x06);
DelayMS(1);
Write_LCD_Command(0x0c);
DelayMS(1);
}
void Set_LCD_POS(uchar p)
{
Write_LCD_Command(p|0x80);
}
void Display_LCD_String(uchar p,uchar *s)
{
uchar i;
Set_LCD_POS(p);
for(i=0;i<16;i++)
{
Write_LCD_Data(s[i]);
DelayMS(1);
}
}
void Format_DateTime(uchar d,uchar *a)
{
a[0]=d/10+'0';
a[1]=d%10+'0';
}
void main()
{
Init_LCD();
while(1)
{
GetTime();
Format_DateTime(DateTime[6],LCD_DSY_BUFFER1+5);
Format_DateTime(DateTime[4],LCD_DSY_BUFFER1+8);
Format_DateTime(DateTime[3],LCD_DSY_BUFFER1+11);
strcpy(LCD_DSY_BUFFER1+13,WEEK[DateTime[5]]);
Format_DateTime(DateTime[2],LCD_DSY_BUFFER1+5);
Format_DateTime(DateTime[1],LCD_DSY_BUFFER1+8);
Format_DateTime(DateTime[0],LCD_DSY_BUFFER1+11);
Display_LCD_String(0x00,LCD_DSY_BUFFER1);
Display_LCD_String(0x40,LCD_DSY_BUFFER2);
}
}追问
这段程序实现了哪些功能啊?
追答就是在1602里显示时间,但没有你所说的按键调整功能。
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