Dani Hevi
/
rtc_class2
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rtc_class
by 
Dani Hevi
main.cpp
- Committer:
- bulmecisco
- Date:
- 2015-04-15
- Revision:
- 1:554eb6675279
- Parent:
- 0:32ae5fd83722
- Child:
- 2:c3120898fc96
File content as of revision 1:554eb6675279:
/***********************************
name: main.cpp Version: 0.1
author: PE HTL BULME
email: pe@bulme.at
description:
Real Time Clock (RTC8563)
on HIMBED M0 - LPC11U24
prints formatted time and date values to serial port
programed by Franz Wolf (wf@bulme.at)
***********************************/
#include "mbed.h"
// Symbolic constants
#define RTC8563_ADR 0xA2
#define CONTROL1 0x00
#define CONTROL2 0x01
#define SECONDS 0x02
#define MINUTES 0x03
#define HOURS 0x04
#define DAYS 0x05
#define WEEKDAYS 0x06
#define MONTHS 0x07
#define YEARS 0x08
#define MINUTE_ALARM 0x09
#define HOUR_ALARM 0x0A
#define DAY_ALARM 0x0B
#define WEEKDAY_ALARM 0x0C
#define CLOCKOUT_FREQ 0x0D
#define TIMER_CINTROL 0x0E
#define TIMER 0x0F
#define _READ 0x01
// Wiring
Serial pc(USBTX, USBRX);
I2C i2c(p28, p27);
InterruptIn alarm(P1_28);
DigitalOut myled1(LED1);
DigitalOut myled2(LED2);
// Function prototyping
void printTime();
void rtc_init();
char rtc_read(char address);
void rtc_write(char address, char value);
// Global variables
char year, month, day, week;
char hour, minute, sec;
char week_val;
char week_chr[7][4] = {"MON","TUE","WED","THU","FRI","SAT","SUN"};
// Functiondefinitions
void printTime()
{
year = rtc_read(YEARS);
month = rtc_read(MONTHS);
day = rtc_read(DAYS);
week = rtc_read(WEEKDAYS);
hour = rtc_read(HOURS);
minute = rtc_read(MINUTES);
sec = rtc_read(SECONDS);
//Datum Ausgabe
pc.printf("20%x%x/%x%x/%x%x %s\n",
((year >> 4) & 0x03) , (year & 0x0F) ,
((month >> 4) & 0x01), (month & 0x0F) ,
((day >> 4) & 0x03), (day & 0x0F) ,
week_chr[week & 0x07]);
//Zeit Ausgabe
pc.printf("%x%x:%x%x:%x%x\n",
((hour >> 4) & 0x03), (hour & 0x0F),
(minute >> 4), (minute & 0x0F) ,
(sec >> 4), (sec & 0x0F) );
}
void rtc_init()
{
pc.printf("Setting up RTC\n");
// Formatierung
// 2015/01/24
// 10:32:00
week_val = 0x04; // SAT
rtc_write(CONTROL1, 0x20); //stop
rtc_write(CONTROL2, 0x00);
rtc_write(YEARS, (0x15));
rtc_write(MONTHS, (0x03));
rtc_write(DAYS, (0x13));
rtc_write(HOURS, (0x14));
rtc_write(MINUTES, (0x47));
rtc_write(SECONDS, (0x00));
rtc_write(WEEKDAYS, week_val);
rtc_write(CLOCKOUT_FREQ, 0x00); // 0x83 = TE on & 1Hz
rtc_write(TIMER_CINTROL, 0x00);
rtc_write(CONTROL1, 0x00); //start
}
char rtc_read(char address)
{
char value;
i2c.start();
i2c.write(RTC8563_ADR);
i2c.write(address);
i2c.start();
i2c.write(RTC8563_ADR | _READ);
value = i2c.read(0);
i2c.stop();
return value;
}
void rtc_write(char address, char value)
{
i2c.start();
i2c.write(RTC8563_ADR);
i2c.write(address);
i2c.write(value);
i2c.stop();
}
void rtc_alarm()
{
pc.printf("Setting up RTC\n");
// Formatierung
// 2015/01/24
// 17:02:00 MON
// week_val = 0x05; // SAT
rtc_write(CONTROL1, 0x20); //stop
rtc_write(CONTROL2, 0x02); // alarm AF alarm flag bit
rtc_write(DAY_ALARM, (0x80) );
rtc_write(HOUR_ALARM, (0x97));
rtc_write(MINUTE_ALARM, (0x02));
rtc_write(WEEKDAY_ALARM, (0x80));
rtc_write(CONTROL1, 0x00); //start
}
//************************************
void push1() // Interruptfunktion alarm
{
pc.printf("********\n" );
pc.printf("ALARM\n" );
pc.printf("********\n" );
myled1= 1;
}
// main program
int main()
{
rtc_init();
alarm.fall(&push1);
rtc_alarm();
while(1) {
printTime();
wait(1);
}
}