// CONNECTIONS: // DS3231 SDA --> SDA // DS3231 SCL --> SCL // DS3231 VCC --> 3.3v or 5v // DS3231 GND --> GND // SQW ---> (Pin19) Don't forget to pullup (4.7k to 10k to VCC) /* for software wire use below #include // must be included here so that Arduino library object file references work #include SoftwareWire myWire(SDA, SCL); RtcDS3231 Rtc(myWire); for software wire use above */ /* for normal hardware wire use below */ #include // must be included here so that Arduino library object file references work #include RtcDS3231 Rtc(Wire); /* for normal hardware wire use above */ // Interrupt Pin Lookup Table // (copied from Arduino Docs) // // CAUTION: The interrupts are Arduino numbers NOT Atmel numbers // and may not match (example, Mega2560 int.4 is actually Atmel Int2) // this is only an issue if you plan to use the lower level interupt features // // Board int.0 int.1 int.2 int.3 int.4 int.5 // --------------------------------------------------------------- // Uno, Ethernet 2 3 // Mega2560 2 3 21 20 [19] 18 // Leonardo 3 2 0 1 7 #define RtcSquareWavePin 19 // Mega2560 #define RtcSquareWaveInterrupt 4 // Mega2560 // marked volatile so interrupt can safely modify them and // other code can safely read and modify them volatile uint16_t interuptCount = 0; volatile bool interuptFlag = false; void InteruptServiceRoutine() { // since this interupted any other running code, // don't do anything that takes long and especially avoid // any communications calls within this routine interuptCount++; interuptFlag = true; } void setup () { Serial.begin(57600); // set the interupt pin to input mode pinMode(RtcSquareWavePin, INPUT); //--------RTC SETUP ------------ // if you are using ESP-01 then uncomment the line below to reset the pins to // the available pins for SDA, SCL // Wire.begin(0, 2); // due to limited pins, use pin 0 and 2 for SDA, SCL Rtc.Begin(); RtcDateTime compiled = RtcDateTime(__DATE__, __TIME__); if (!Rtc.IsDateTimeValid()) { Serial.println("RTC lost confidence in the DateTime!"); Rtc.SetDateTime(compiled); } if (!Rtc.GetIsRunning()) { Serial.println("RTC was not actively running, starting now"); Rtc.SetIsRunning(true); } RtcDateTime now = Rtc.GetDateTime(); if (now < compiled) { Serial.println("RTC is older than compile time! (Updating DateTime)"); Rtc.SetDateTime(compiled); } Rtc.Enable32kHzPin(false); Rtc.SetSquareWavePin(DS3231SquareWavePin_ModeAlarmBoth); // Alarm 1 set to trigger every day when // the hours, minutes, and seconds match RtcDateTime alarmTime = now + 88; // into the future DS3231AlarmOne alarm1( alarmTime.Day(), alarmTime.Hour(), alarmTime.Minute(), alarmTime.Second(), DS3231AlarmOneControl_HoursMinutesSecondsMatch); Rtc.SetAlarmOne(alarm1); // Alarm 2 set to trigger at the top of the minute DS3231AlarmTwo alarm2( 0, 0, 0, DS3231AlarmTwoControl_OncePerMinute); Rtc.SetAlarmTwo(alarm2); // throw away any old alarm state before we ran Rtc.LatchAlarmsTriggeredFlags(); // setup external interupt attachInterrupt(RtcSquareWaveInterrupt, InteruptServiceRoutine, FALLING); } void loop () { if (!Rtc.IsDateTimeValid()) { Serial.println("RTC lost confidence in the DateTime!"); } RtcDateTime now = Rtc.GetDateTime(); printDateTime(now); Serial.println(); // we only want to show time every 10 seconds // but we want to show responce to the interupt firing for (int timeCount = 0; timeCount < 20; timeCount++) { if (Alarmed()) { Serial.print(">>Interupt Count: "); Serial.print(interuptCount); Serial.println("<<"); } delay(500); } } bool Alarmed() { bool wasAlarmed = false; if (interuptFlag) // check our flag that gets sets in the interupt { wasAlarmed = true; interuptFlag = false; // reset the flag // this gives us which alarms triggered and // then allows for others to trigger again DS3231AlarmFlag flag = Rtc.LatchAlarmsTriggeredFlags(); if (flag & DS3231AlarmFlag_Alarm1) { Serial.println("alarm one triggered"); } if (flag & DS3231AlarmFlag_Alarm2) { Serial.println("alarm two triggered"); } } return wasAlarmed; } #define countof(a) (sizeof(a) / sizeof(a[0])) void printDateTime(const RtcDateTime& dt) { char datestring[20]; snprintf_P(datestring, countof(datestring), PSTR("%02u/%02u/%04u %02u:%02u:%02u"), dt.Month(), dt.Day(), dt.Year(), dt.Hour(), dt.Minute(), dt.Second() ); Serial.print(datestring); }