S3C2440拥有一个实时时钟模块, 可以在当系统电源关闭后通过备用电池工作。RTC可以通过使用STRB/LDRB ARM操作发送8位二-十进制交换码(BCD)值数据给CPU。这些数据包括年、月、日、星期、时、分和秒的时间信息。RTC单元工作在外部32.768kHz晶振并且可以执行闹钟功能
实时时钟模块保存的数据是DCD码形式.
框图如下
可以看到,要使用实时时钟依靠以下几个寄存器
包含时钟使能和时钟复位(还有两个寄存器是测试模式,我们用不到)
关联着时钟节拍中断,也就是每增加1S发生一次中断
时钟中断,时钟的时分秒年月日都是可以进行使能的
接下来是时分秒年月日闹钟点设置
有六个就不一一列举了,意思是当到达这个时间点时发生中断,比如我设置23秒发生中断,那么每一分钟的23秒都会中断一次
还要注意,因为使用的是BCD计数,所以对时钟的读取,写入都要进行BCD码的转换,否则数据不对哦
详细查看代码
#include "rtc.h"
char *week_num[7]={ "SUN","MON", "TUES", "WED", "THURS","FRI", "SAT" };
RTC_TIMER rtcTimer ;
ALARM_TIMER alarmTimer ;
/********************************
*
* TICK中断
*
*********************************/
void __irq RTC_tickHandler(void)
{
rSRCPND |= BIT_TICK;//清除源挂起
rINTPND |= BIT_TICK;//清除中断挂起
RTCGetValue();
printf("current year %d mouth %d day %d hour %d minute %d sec %d
",rtcTimer.year,
rtcTimer.month,rtcTimer.day,rtcTimer.hour,rtcTimer.minute,rtcTimer.second);
}
/********************************
*
* alarm闹钟中断
*
*********************************/
void __irq RTC_alarmHandler(void)
{
rSRCPND |= BIT_RTC;//清除源挂起
rINTPND |= BIT_RTC;//清除中断挂起
printf("alarm int happend
");
}
//rtc获取时间
void RTCGetValue(void)
{
u8 temp = 0,cover = 0;
rRTCCON |= 0x01; //RTC读写使能,BCD时钟、计数器、无复位
temp = rBCDYEAR;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.year = temp+YEAR_BASE;
temp = rBCDMON;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.month = temp;
temp = rBCDDATE;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.day = temp;
temp = rBCDDAY;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.weekDay = temp;
temp = rBCDHOUR;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.hour = temp;
temp = rBCDMIN;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.minute = temp;
temp = rBCDSEC;
temp = ((temp/16)*10)+(temp%16);
rtcTimer.second = temp;
rRTCCON &= ~(1<<0); //RTC读写禁止,BCD时钟、计数器、无复位
}
void RTCSetValue(void)
{
u8 temp;
rRTCCON |= 0x01; //RTC读写使能,BCD时钟、计数器、无复位
temp = rtcTimer.year - YEAR_BASE;
temp = ((temp/10)*16)+(temp%10);
rBCDYEAR = temp;
temp = rtcTimer.month;
temp = ((temp/10)*16)+(temp%10);
rBCDMON = temp;
temp = rtcTimer.day;
temp = ((temp/10)*16)+(temp%10);
rBCDDATE = temp;
temp = rtcTimer.weekDay;
temp = ((temp/10)*16)+(temp%10);
rBCDDAY = temp;
temp = rtcTimer.hour;
temp = ((temp/10)*16)+(temp%10);
rBCDHOUR = temp;
temp = rtcTimer.minute;
temp = ((temp/10)*16)+(temp%10);
rBCDMIN = temp;
temp = rtcTimer.second;
temp = ((temp/10)*16)+(temp%10);
rBCDSEC = temp;
rRTCCON &= ~(1<<0); //RTC读写禁止,BCD时钟、计数器、无复位
}
void RtcSetAlarm(void)
{
u8 temp;
rRTCCON |= 0x01; //RTC读写使能,BCD时钟、计数器、无复位
temp = alarmTimer.year - YEAR_BASE;
temp = ((temp/10)*16)+(temp%10);
rALMYEAR = temp;
temp = alarmTimer.month;
temp = ((temp/10)*16)+(temp%10);
rALMMON = temp;
temp = alarmTimer.day;
temp = ((temp/10)*16)+(temp%10);
rALMDATE = temp;
temp = alarmTimer.hour;
temp = ((temp/10)*16)+(temp%10);
rALMHOUR = temp;
temp = alarmTimer.minute;
temp = ((temp/10)*16)+(temp%10);
rALMMIN = temp;
temp = alarmTimer.second;
temp = ((temp/10)*16)+(temp%10);
rALMSEC = temp;
rRTCALM = 0x41; //RTC闹钟控制寄存器,启动秒中断和总中断
rRTCCON &= ~(1<<0); //RTC读写禁止,BCD时钟、计数器、无复位
}
void RtcInit(u8 tick)
{
rtcTimer.year = 2014;
rtcTimer.month = 10;
rtcTimer.day = 10;
rtcTimer.weekDay = 5;
rtcTimer.hour = 16;
rtcTimer.minute = 34;
rtcTimer.second = 52;
alarmTimer.year = 2014;
alarmTimer.month = 10;
alarmTimer.day = 10;
alarmTimer.weekDay = 5;
alarmTimer.hour = 16;
alarmTimer.minute = 34;
alarmTimer.second = 52;
rRTCCON = 0x01;
rTICNT=(tick&0x7f)|0x80; //使能中断
RTCSetValue();//设置时间
RtcSetAlarm();//设置闹钟
//开启中断
pISR_RTC = (unsigned)RTC_alarmHandler;
pISR_TICK=(unsigned)RTC_tickHandler; //中断函数入口地址
rSRCPND |= BIT_RTC;//清除源挂起
rINTPND |= BIT_RTC;//清除中断挂起
rINTMOD &= ~BIT_RTC;//设置中断模式为IRQ模式
rSRCPND |= BIT_TICK;//清除源挂起
rINTPND |= BIT_TICK;//清除中断挂起
rINTMOD &= ~BIT_TICK;//设置中断模式为IRQ模式
rINTMSK &= ~BIT_RTC; //开中断
rINTMSK &= ~BIT_TICK; //开中断
}
#ifndef __RTC_H
#define __RTC_H
#include "2440addr.h"
#include "def.h"
#include "uart0.h"
#define YEAR_BASE 2000
typedef struct RTC_TIMER
{
u16 year;
u8 month;
u8 day;
u8 weekDay;
u8 hour;
u8 minute;
u8 second;
}RTC_TIMER;
typedef struct ALARM_TIMER
{
u16 year;
u8 month;
u8 day;
u8 weekDay;
u8 hour;
u8 minute;
u8 second;
}ALARM_TIMER;
extern struct RTC_TIMER rtcTimer;
void RTCGetValue(void);
void RTCSetValue(void);
void RtcSetAlarm(void);
void RtcInit(u8 tick);
#endif