Hi, after some troubleshooting I realised that the function to disable the alarm on DS3231 doesn't work. I'm using Adafruit's RTClib and to try it out their example code for DS3231_alarm. Even if I write rtc.disableAlarm(1); and rtc.disableAlarm(2); somehow alarm still triggers. Is my module faulty or am I doing something wrong. I tried using different library but I got the same results. Does anybody have DS3231 to confirm or deny my results?
/* Example implementation of an alarm using DS3231
*
* VCC and GND of RTC should be connected to some power source
* SDA, SCL of RTC should be connected to SDA, SCL of arduino
* SQW should be connected to CLOCK_INTERRUPT_PIN
* CLOCK_INTERRUPT_PIN needs to work with interrupts
*/
#include <RTClib.h>
// #include <Wire.h>
RTC_DS3231 rtc;
// the pin that is connected to SQW
#define CLOCK_INTERRUPT_PIN 2
void setup() {
Serial.begin(9600);
// initializing the rtc
if(!rtc.begin()) {
Serial.println("Couldn't find RTC!");
Serial.flush();
while (1) delay(10);
}
if(rtc.lostPower()) {
// this will adjust to the date and time at compilation
rtc.adjust(DateTime(F(__DATE__), F(__TIME__)));
}
//we don't need the 32K Pin, so disable it
rtc.disable32K();
// Making it so, that the alarm will trigger an interrupt
pinMode(CLOCK_INTERRUPT_PIN, INPUT_PULLUP);
attachInterrupt(digitalPinToInterrupt(CLOCK_INTERRUPT_PIN), onAlarm, FALLING);
// set alarm 1, 2 flag to false (so alarm 1, 2 didn't happen so far)
// if not done, this easily leads to problems, as both register aren't reset on reboot/recompile
rtc.clearAlarm(1);
rtc.clearAlarm(2);
// stop oscillating signals at SQW Pin
// otherwise setAlarm1 will fail
rtc.writeSqwPinMode(DS3231_OFF);
// turn off alarm 2 (in case it isn't off already)
// again, this isn't done at reboot, so a previously set alarm could easily go overlooked
rtc.disableAlarm(2);
rtc.disableAlarm(1);
// schedule an alarm 10 seconds in the future
if(!rtc.setAlarm1(
rtc.now() + TimeSpan(10),
DS3231_A1_Second // this mode triggers the alarm when the seconds match. See Doxygen for other options
)) {
Serial.println("Error, alarm wasn't set!");
}else {
Serial.println("Alarm will happen in 10 seconds!");
}
}
void loop() {
// print current time
char date[10] = "hh:mm:ss";
rtc.now().toString(date);
Serial.print(date);
// the stored alarm value + mode
DateTime alarm1 = rtc.getAlarm1();
Ds3231Alarm1Mode alarm1mode = rtc.getAlarm1Mode();
char alarm1Date[12] = "DD hh:mm:ss";
alarm1.toString(alarm1Date);
Serial.print(" [Alarm1: ");
Serial.print(alarm1Date);
Serial.print(", Mode: ");
switch (alarm1mode) {
case DS3231_A1_PerSecond: Serial.print("PerSecond"); break;
case DS3231_A1_Second: Serial.print("Second"); break;
case DS3231_A1_Minute: Serial.print("Minute"); break;
case DS3231_A1_Hour: Serial.print("Hour"); break;
case DS3231_A1_Date: Serial.print("Date"); break;
case DS3231_A1_Day: Serial.print("Day"); break;
}
// the value at SQW-Pin (because of pullup 1 means no alarm)
Serial.print("] SQW: ");
Serial.print(digitalRead(CLOCK_INTERRUPT_PIN));
// whether a alarm fired
Serial.print(" Fired: ");
Serial.print(rtc.alarmFired(1));
// Serial.print(" Alarm2: ");
// Serial.println(rtc.alarmFired(2));
// control register values (see https://datasheets.maximintegrated.com/en/ds/DS3231.pdf page 13)
// Serial.print(" Control: 0b");
// Serial.println(read_i2c_register(DS3231_ADDRESS, DS3231_CONTROL), BIN);
// resetting SQW and alarm 1 flag
// using setAlarm1, the next alarm could now be configurated
if (rtc.alarmFired(1)) {
rtc.clearAlarm(1);
Serial.print(" - Alarm cleared");
}
Serial.println();
delay(2000);
}
void onAlarm() {
Serial.println("Alarm occured!");
}
/*static uint8_t read_i2c_register(uint8_t addr, uint8_t reg) {
Wire.beginTransmission(addr);
Wire.write((byte)reg);
Wire.endTransmission();
Wire.requestFrom(addr, (byte)1);
return Wire.read();
}*/