Binaeruhr-Arduino/software_binaeruhr/software_binaeruhr.ino

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2021-08-28 07:36:25 +00:00
#include "src/DS3231.h" //http://www.rinkydinkelectronics.com/library.php?id=73
DS3231 rtc(SDA, SCL);
//Pins
//Pins für Sekunden-Schieberegister
const int clockPinS = 4;
const int latchPinS = 3;
const int dataPinS = 2;
//Pins für Minuten-Schieberegister
const int clockPinM = 7;
const int latchPinM = 6;
const int dataPinM = 5;
//Pins für Stunden-Schieberegister
const int clockPinH = 10;
const int latchPinH = 9;
const int dataPinH = 8;
const int tickled = 13;
const int taster = 12;
//Variablen
long prevMillis = 0;
long interval = 500;
Time t;
int stunden;
int minuten;
int sekunden;
int tag;
int monat;
int wochentag;
int temp;
int halbesekunde = 0;
int modus = 1;
int modustimer = 0;
void setup(){
//Outputpins
pinMode(clockPinS, OUTPUT);
pinMode(dataPinS, OUTPUT);
pinMode(latchPinS, OUTPUT);
pinMode(clockPinM, OUTPUT);
pinMode(dataPinM, OUTPUT);
pinMode(latchPinM, OUTPUT);
pinMode(clockPinH, OUTPUT);
pinMode(dataPinH, OUTPUT);
pinMode(latchPinH, OUTPUT);
pinMode(tickled, OUTPUT);
//Inputpin
pinMode(taster, INPUT_PULLUP);
//RTC
rtc.begin();
// Nachfolgende Linien zur Zeiteinstellung unkommentieren
//rtc.setDOW(2); // Wochentag einstellen -> 1=Montag, 2=Dienstag, ...
//rtc.setTime(16, 58, 00); // Uhrzeit einstellen (Stunde, Minute, Sekunde)
//rtc.setDate(02, 04, 2019); // Datum einstellen (Tag, Monat, Jahr)
//für Debugging un-kommentieren
//Serial.begin(9600);
} //Ende von setup()
void loop(){
/*if (digitalRead(addhour) == LOW){ //falls Minuten erhöht werden sollen
delay(100);
minutes += 1;
if (minutes > 58){
minutes = 0;
}
Serial.println("Minute++");
while(digitalRead(2) == LOW){
delay(10);
}
}*/
if (digitalRead(taster) == LOW){
modus++;
modustimer = 0;
if (modus == 4){
modus = 1;
}
while(digitalRead(taster) == LOW){}
delay(100);
}
if(modustimer >= 10){
modus = 1;
modustimer = 0;
}
unsigned long currentMillis = millis();
if (currentMillis - prevMillis > interval) {
prevMillis = currentMillis;
if(halbesekunde == 1){
if (modus == 1){
t = rtc.getTime();
stunden = t.hour, DEC;
minuten = t.min, DEC;
sekunden = t.sec, DEC;
digitalWrite(tickled, HIGH);
displayTime();
}
else if (modus == 2){
t = rtc.getTime();
tag = t.date, DEC;
monat = t.mon, DEC;
wochentag = t.dow, DEC;
modustimer++;
displayDate();
}
else if (modus == 3){
temp = int(rtc.getTemp());
modustimer++;
displayTemp();
}
//für Debugging un-kommentieren
/*Serial.println("");
Serial.println("Zeit:"); //für debugging
Serial.print(String(stunden));
Serial.print(":");
Serial.print(String(minuten));
Serial.print(":");
Serial.print(String(sekunden));
//*/
halbesekunde = 0;
}
else{
digitalWrite(tickled, LOW);
halbesekunde = 1;
}
}
} //Ende von loop()
void displayTime(){ //Sendet die Zeit zu den Shiftregistern
//Sekunden
digitalWrite(latchPinS, LOW);
shiftOut(dataPinS, clockPinS, MSBFIRST, sekunden);
digitalWrite(latchPinS, HIGH);
//Minuten
digitalWrite(latchPinM, LOW);
shiftOut(dataPinM, clockPinM, MSBFIRST, minuten);
digitalWrite(latchPinM, HIGH);
//Stunden
digitalWrite(latchPinH, LOW);
shiftOut(dataPinH, clockPinH, MSBFIRST, stunden);
digitalWrite(latchPinH, HIGH);
}
void displayDate(){ //Sendet Datum zu den Shiftregistern
digitalWrite(latchPinS, LOW);
shiftOut(dataPinS, clockPinS, MSBFIRST, wochentag);
digitalWrite(latchPinS, HIGH);
digitalWrite(latchPinM, LOW);
shiftOut(dataPinM, clockPinM, MSBFIRST, monat);
digitalWrite(latchPinM, HIGH);
digitalWrite(latchPinH, LOW);
shiftOut(dataPinH, clockPinH, MSBFIRST, tag);
digitalWrite(latchPinH, HIGH);
}
void displayTemp(){ //Sendet Temperatur zu den Shiftregistern
digitalWrite(latchPinS, LOW);
shiftOut(dataPinS, clockPinS, MSBFIRST, temp);
digitalWrite(latchPinS, HIGH);
digitalWrite(latchPinM, LOW);
shiftOut(dataPinM, clockPinM, MSBFIRST, 0);
digitalWrite(latchPinM, HIGH);
digitalWrite(latchPinH, LOW);
shiftOut(dataPinH, clockPinH, MSBFIRST, 0);
digitalWrite(latchPinH, HIGH);
}