Thursday, 19 January 2017

Programmable Timer 8Channel dengan Arduino Uno

Membuat Programmable Timer 8 Channel

Mengendalikan 8 buah Relay dengan batas waktu tertentu untuk setiap relay-nya




Pada Tutorial kali ini kita akan membuat sebuah project pengendalian beban/relay dengan methode Timer, yaitu setiap relay dapat kita program jam berapa harus ON dan jam berapa harus OFF.Setiap relay memiliki 1 settingan timer sendiri sehingga mempunyai waktu masing-masing kapan harus ON dan OFF.

Disini kita menggunakan memory EEPROM internal atmega328 (Arduino Uno) untuk menyimpan data settingan timer sehingga kita akan kehilangan settingan saat Power mati (mati listrik) atau saat Arduino Restart/reset.


A.Bahan dan Module yang dibutuhkan

-1Unit Relay Module 5V 8 Channel
-1Unit RTC DS3231
-1Unit Arduino Uno/Nano/Pro mini/Mega
-1Unit LCD 1602 dengan i2C connection
-4Unit Tombol Tactile Push Button (momentary switch)

B.Wiring

Perhatikan Gambar pada header artikel ini.

C.Library

-Library EEPROM (sudah include dalam sistem Arduino IDE)
-Library Wire.h (sudah include dalam sistem Arduino IDE)
-Library RTC DS3231 silahkan download disini.
-Library LiquidCrystal_I2C silahkan download disini.
-Library Push Button silahkan download disini.


Setelah anda mendownload semua library yang dibutuhkan dalam project ini,silahkan extract terlebih dulu dari .rar/.zip file nya kemudian copy semua folder master library tersebut (misal : folder button-master) ke dalam folder "libraries" yang ada di folder installer Arduino IDE.

D.Sourch Code

Berikut Sourch Code Untuk Tutorial kali ini.Silahkan copy paste code berikut ke dalam Arduino IDE anda kemudian Upload ke Arduino Boar.

coding here


//                .-~~~~~~~~~-._       _.-~~~~~~~~~-.
// __.' Create by. ~. .~ www. `.__
// .'// DANI RJC \./ belajarduino \\`.
// .'// 2016 | .com \\`.
// .'// .-~"""""""~~~~-._ | _,-~~~~"""""""~-. \\`.
// .'//.-" `-. | .-' "-.\\`.
// .'//______.============-.. \ | / ..-============.______\\`.
//.'______________________________\|/______________________________`.

#include //Memanggil RTC3231 Library
#include // i2C Conection Library
#include //Memanggil i2C LCD Library
#include //Memanggil library Push Button
#include

#define ON 0 //Ganti 0 jadi 1 saat pakai High Active Trigger
#define OFF 1 //Ganti 1 jadi 0 saat pakai High Active Trigger

//Setup Tombol Setting
#define DN_PIN A0 //Decrease Button
#define UP_PIN A1 //Increase Button
#define SET_PIN A2 //Setup Clock Button
#define ALR_PIN A3 //Setup Timer Button
#define PULLUP true //Mengaktifkan internal Pull Up
#define INVERT true
#define DEBOUNCE_MS 20
#define REPEAT_FIRST 500
#define REPEAT_INCR 100

//Declare push buttons
Button btnUP(UP_PIN, PULLUP, INVERT, DEBOUNCE_MS);
Button btnDN(DN_PIN, PULLUP, INVERT, DEBOUNCE_MS);
Button btnSET(SET_PIN, PULLUP, INVERT, DEBOUNCE_MS);
Button btnALR(ALR_PIN, PULLUP, INVERT, DEBOUNCE_MS);
enum {WAIT, INCR, DECR};
uint8_t STATE;
int count;
int lastCount = -1;
unsigned long rpt = REPEAT_FIRST;

LiquidCrystal_I2C lcd(0x3F, 16, 2);
//custom degrees char
uint8_t dgrsChar[8] = {0x4,0xa,0x4,0x0,0x0,0x0,0x0,0x0};

// Init DS3231
DS3231 rtc(SDA, SCL);

// Init a Time-data structure
Time t; //pencacah string time()

uint8_t hh = 0, mm = 0, ss = 0, dd = 0, bb = 0;
int yy = 0;
String Day = " ";
uint8_t StartHH = 21, StartMM = 43, FinishHH = 21, FinishMM = 44, setMode = 0, setAlarm = 0, alarmMode=0;
uint8_t StartHH2 = 21, StartMM2 = 44, FinishHH2 = 21, FinishMM2 = 45;
uint8_t StartHH3 = 21, StartMM3 = 45, FinishHH3 = 21, FinishMM3 = 46;
uint8_t StartHH4 = 21, StartMM4 = 46, FinishHH4 = 21, FinishMM4 = 47;
uint8_t StartHH5 = 21, StartMM5 = 47, FinishHH5 = 21, FinishMM5 = 48;
uint8_t StartHH6 = 21, StartMM6 = 48, FinishHH6 = 21, FinishMM6 = 49;
uint8_t StartHH7 = 21, StartMM7 = 49, FinishHH7 = 21, FinishMM7 = 50;
uint8_t StartHH8 = 21, StartMM8 = 50, FinishHH8 = 21, FinishMM8 = 51;

//Eeprom Store Variable
uint8_t HH,HH2,HH3,HH4,HH5,HH6,HH7,HH8;
uint8_t MM,MM2,MM3,MM4,MM5,MM6,MM7,MM8;

void setup()
{
// Setup Serial connection
//Serial.begin(115200);
pinMode(2,OUTPUT);digitalWrite (2,OFF);
pinMode(3,OUTPUT);digitalWrite (3,OFF);
pinMode(4,OUTPUT);digitalWrite (4,OFF);
pinMode(5,OUTPUT);digitalWrite (5,OFF);
pinMode(6,OUTPUT);digitalWrite (6,OFF);
pinMode(7,OUTPUT);digitalWrite (7,OFF);
pinMode(8,OUTPUT);digitalWrite (8,OFF);
pinMode(9,OUTPUT);digitalWrite (9,OFF);
//digitalWrite (RelayPin, OFF); // Uncomment untuk mematikan Relay saat Start awal
lcd.begin(); // memulai koneksi i2c dengan LCD
rtc.begin(); // memulai koneksi i2c dengan RTC
lcd.createChar(0, dgrsChar); //Membuat custom char derajat
lcd.setCursor (0,0);
lcd.print(F(" Dani's Timer "));
lcd.setCursor (0,1);
lcd.print(F(" 8Channel Relay "));
delay (2000);
lcd.clear();
ReadEeprom();
//Set RTC Untuk Pertama kali
//rtc.setTime (10, 15, 00);
//rtc.setDate(23, 8, 2016);
}

void loop()
{
t = rtc.getTime();
Day = rtc.getDOWStr(1);

if (setMode == 0){
hh = t.hour,DEC;
mm = t.min,DEC;
ss = t.sec,DEC;
dd = t.date,DEC;
bb = t.mon,DEC;
yy = t.year,DEC;
}

if (setAlarm <2){
lcd.setCursor(1,0);
if(setMode==0)lcd.print(Day); else {lcd.print(F("SET"));}
lcd.print(F(" "));
if (dd<10){ lcd.print(F("0"));}
lcd.print(dd); lcd.print(F("-"));
if (bb<10){ lcd.print(F("0"));}
lcd.print(bb); lcd.print(F("-"));
lcd.print(yy); lcd.print(F(" "));

lcd.setCursor(0,1);
if (hh<10){ lcd.print(F("0"));}
lcd.print(hh); lcd.print(F(":"));
if (mm<10){ lcd.print(F("0"));}
lcd.print(mm); lcd.print(F(":"));
if (ss<10){ lcd.print(F("0"));}
lcd.print(ss); lcd.print(F(" "));
lcd.print(rtc.getTemp());
lcd.print((char)0);
lcd.print(F("C"));
lcd.print(F(" "));
}

blinking();
setupClock();
setTimer();
Timer1 (StartHH, StartMM, FinishHH, FinishMM);
Timer2 (StartHH2, StartMM2, FinishHH2, FinishMM2);
Timer3 (StartHH3, StartMM3, FinishHH3, FinishMM3);
Timer4 (StartHH4, StartMM4, FinishHH4, FinishMM4);
Timer5 (StartHH5, StartMM5, FinishHH5, FinishMM5);
Timer6 (StartHH6, StartMM6, FinishHH6, FinishMM6);
Timer7 (StartHH7, StartMM7, FinishHH7, FinishMM7);
Timer8 (StartHH8, StartMM8, FinishHH8, FinishMM8);


}

void blinking (){
//BLINKING SCREEN
if (setAlarm <2 && setMode != 0) {delay (100);}
if (setAlarm <2 && setMode == 1){lcd.setCursor(5,0); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 2 && bb>9){lcd.setCursor(8,0); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 2 && bb<=9){lcd.setCursor(8,0); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 3 && bb>9){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 3 && bb<=9){lcd.setCursor(10,0); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 4){lcd.setCursor(0,1); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 5){lcd.setCursor(3,1); lcd.print(F(" ")); delay(100);}
if (setAlarm <2 && setMode == 6){lcd.setCursor(6,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm != 0 && setAlarm != 1) {delay (100);}
//Relay1
if (setMode == 0 && setAlarm == 2){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 3){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 4){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 5){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay2
if (setMode == 0 && setAlarm == 6){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 7){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 8){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 9){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay3
if (setMode == 0 && setAlarm == 10){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 11){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 12){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 13){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay4
if (setMode == 0 && setAlarm == 14){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 15){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 16){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 17){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay5
if (setMode == 0 && setAlarm == 18){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 19){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 20){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 21){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay6
if (setMode == 0 && setAlarm == 22){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 23){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 24){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 25){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay7
if (setMode == 0 && setAlarm == 26){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 27){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 28){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 29){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}
//Relay8
if (setMode == 0 && setAlarm == 30){lcd.setCursor(11,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 31){lcd.setCursor(14,0); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 32){lcd.setCursor(11,1); lcd.print(F(" ")); delay(100);}
if (setMode == 0 && setAlarm == 33){lcd.setCursor(14,1); lcd.print(F(" ")); delay(100);}


}

//Seting Jam ,Tanggal,Alarm/Timer
void setupClock (void) {
btnUP.read();
btnDN.read();
btnSET.read();
btnALR.read();

if (setMode == 7){
lcd.setCursor (0,0);
lcd.print (F("Set Date Finish "));
lcd.setCursor (0,1);
lcd.print (F("Set Time Finish "));delay (1000);
rtc.setTime (hh, mm, ss);
rtc.setDate (dd, bb, yy);
lcd.clear();
setMode = 0;}

if (setAlarm == 34){
lcd.setCursor (0,0);
lcd.print (F("Set Timer Finish"));
lcd.setCursor (0,1);
lcd.print (F("-EEPROM Updated-"));
WriteEeprom();
delay (2000); lcd.clear();
setAlarm=0;
alarmMode=1;}

if (setAlarm >0){ alarmMode=0;}

switch (STATE) {

case WAIT:
if (btnSET.wasPressed())
{ setMode = setMode+1;}
if (btnALR.wasPressed())
{ setAlarm = setAlarm+1;}
if (btnUP.wasPressed())
STATE = INCR;
else if (btnDN.wasPressed())
STATE = DECR;
else if (btnUP.wasReleased())
rpt = REPEAT_FIRST;
else if (btnDN.wasReleased())
rpt = REPEAT_FIRST;
else if (btnUP.pressedFor(rpt)) {
rpt += REPEAT_INCR;
STATE = INCR;}
else if (btnDN.pressedFor(rpt)) {
rpt += REPEAT_INCR;
STATE = DECR;}

break;

case INCR:
if (setAlarm<2 && setMode==1 && dd<31)dd=dd+1;
if (setAlarm<2 && setMode==2 && bb<12)bb=bb+1;
if (setAlarm<2 && setMode==3 && yy<2050)yy=yy+1;
if (setAlarm<2 && setMode==4 && hh<23)hh=hh+1;
if (setAlarm<2 && setMode==5 && mm<59)mm=mm+1;
if (setAlarm<2 && setMode==6 && ss<59)ss=ss+1;
//Relay1
if (setMode==0 && setAlarm==2 && StartHH<23)StartHH=StartHH+1;
if (setMode==0 && setAlarm==3 && StartMM<59)StartMM=StartMM+1;
if (setMode==0 && setAlarm==4 && FinishHH<23)FinishHH=FinishHH+1;
if (setMode==0 && setAlarm==5 && FinishMM<59)FinishMM=FinishMM+1;
//Relay2
if (setMode==0 && setAlarm==6 && StartHH2<23)StartHH2=StartHH2+1;
if (setMode==0 && setAlarm==7 && StartMM2<59)StartMM2=StartMM2+1;
if (setMode==0 && setAlarm==8 && FinishHH2<23)FinishHH2=FinishHH2+1;
if (setMode==0 && setAlarm==9 && FinishMM2<59)FinishMM2=FinishMM2+1;
//Relay3
if (setMode==0 && setAlarm==10 && StartHH3<23)StartHH3=StartHH3+1;
if (setMode==0 && setAlarm==11 && StartMM3<59)StartMM3=StartMM3+1;
if (setMode==0 && setAlarm==12 && FinishHH3<23)FinishHH3=FinishHH3+1;
if (setMode==0 && setAlarm==13 && FinishMM3<59)FinishMM3=FinishMM3+1;
//Relay4
if (setMode==0 && setAlarm==14 && StartHH4<23)StartHH4=StartHH4+1;
if (setMode==0 && setAlarm==15 && StartMM4<59)StartMM4=StartMM4+1;
if (setMode==0 && setAlarm==16 && FinishHH4<23)FinishHH4=FinishHH4+1;
if (setMode==0 && setAlarm==17 && FinishMM4<59)FinishMM4=FinishMM4+1;
//Relay5
if (setMode==0 && setAlarm==18 && StartHH5<23)StartHH5=StartHH5+1;
if (setMode==0 && setAlarm==19 && StartMM5<59)StartMM5=StartMM5+1;
if (setMode==0 && setAlarm==20 && FinishHH5<23)FinishHH5=FinishHH5+1;
if (setMode==0 && setAlarm==21 && FinishMM5<59)FinishMM5=FinishMM5+1;
//Relay6
if (setMode==0 && setAlarm==22 && StartHH6<23)StartHH6=StartHH6+1;
if (setMode==0 && setAlarm==23 && StartMM6<59)StartMM6=StartMM6+1;
if (setMode==0 && setAlarm==24 && FinishHH6<23)FinishHH6=FinishHH6+1;
if (setMode==0 && setAlarm==25 && FinishMM6<59)FinishMM6=FinishMM6+1;
//Relay7
if (setMode==0 && setAlarm==26 && StartHH7<23)StartHH7=StartHH7+1;
if (setMode==0 && setAlarm==27 && StartMM7<59)StartMM7=StartMM7+1;
if (setMode==0 && setAlarm==28 && FinishHH7<23)FinishHH7=FinishHH7+1;
if (setMode==0 && setAlarm==29 && FinishMM7<59)FinishMM7=FinishMM7+1;
//Relay8
if (setMode==0 && setAlarm==30 && StartHH8<23)StartHH8=StartHH8+1;
if (setMode==0 && setAlarm==31 && StartMM8<59)StartMM8=StartMM8+1;
if (setMode==0 && setAlarm==32 && FinishHH8<23)FinishHH8=FinishHH8+1;
if (setMode==0 && setAlarm==33 && FinishMM8<59)FinishMM8=FinishMM8+1;


STATE = WAIT;
break;

case DECR:
if (setAlarm<2 && setMode==1 && dd>1)dd=dd-1;
if (setAlarm<2 && setMode==2 && bb>1)bb=bb-1;
if (setAlarm<2 && setMode==3 && yy>2000)yy=yy-1;
if (setAlarm<2 && setMode==4 && hh>0)hh=hh-1;
if (setAlarm<2 && setMode==5 && mm>0)mm=mm-1;
if (setAlarm<2 && setMode==6 && ss>0)ss=ss-1;
//Relay1
if (setMode==0 && setAlarm==2 && StartHH>0)StartHH=StartHH-1;
if (setMode==0 && setAlarm==3 && StartMM>0)StartMM=StartMM-1;
if (setMode==0 && setAlarm==4 && FinishHH>0)FinishHH=FinishHH-1;
if (setMode==0 && setAlarm==5 && FinishMM>0)FinishMM=FinishMM-1;
//Relay2
if (setMode==0 && setAlarm==6 && StartHH2>0)StartHH2=StartHH2-1;
if (setMode==0 && setAlarm==7 && StartMM2>0)StartMM2=StartMM2-1;
if (setMode==0 && setAlarm==8 && FinishHH2>0)FinishHH2=FinishHH2-1;
if (setMode==0 && setAlarm==9 && FinishMM2>0)FinishMM2=FinishMM2-1;
//Relay3
if (setMode==0 && setAlarm==10 && StartHH3>0)StartHH3=StartHH3-1;
if (setMode==0 && setAlarm==11 && StartMM3>0)StartMM3=StartMM3-1;
if (setMode==0 && setAlarm==12 && FinishHH3>0)FinishHH3=FinishHH3-1;
if (setMode==0 && setAlarm==13 && FinishMM3>0)FinishMM3=FinishMM3-1;
//Relay4
if (setMode==0 && setAlarm==14 && StartHH4>0)StartHH4=StartHH4-1;
if (setMode==0 && setAlarm==15 && StartMM4>0)StartMM4=StartMM4-1;
if (setMode==0 && setAlarm==16 && FinishHH4>0)FinishHH4=FinishHH4-1;
if (setMode==0 && setAlarm==17 && FinishMM4>0)FinishMM4=FinishMM4-1;
//Relay5
if (setMode==0 && setAlarm==18 && StartHH5>0)StartHH5=StartHH5-1;
if (setMode==0 && setAlarm==19 && StartMM5>0)StartMM5=StartMM5-1;
if (setMode==0 && setAlarm==20 && FinishHH5>0)FinishHH5=FinishHH5-1;
if (setMode==0 && setAlarm==21 && FinishMM5>0)FinishMM5=FinishMM5-1;
//Relay6
if (setMode==0 && setAlarm==22 && StartHH6>0)StartHH6=StartHH6-1;
if (setMode==0 && setAlarm==23 && StartMM6>0)StartMM6=StartMM6-1;
if (setMode==0 && setAlarm==24 && FinishHH6>0)FinishHH6=FinishHH6-1;
if (setMode==0 && setAlarm==25 && FinishMM6>0)FinishMM6=FinishMM6-1;
//Relay7
if (setMode==0 && setAlarm==26 && StartHH7>0)StartHH7=StartHH7-1;
if (setMode==0 && setAlarm==27 && StartMM7>0)StartMM7=StartMM7-1;
if (setMode==0 && setAlarm==28 && FinishHH7>0)FinishHH7=FinishHH7-1;
if (setMode==0 && setAlarm==29 && FinishMM7>0)FinishMM7=FinishMM7-1;
//Relay8
if (setMode==0 && setAlarm==30 && StartHH8>0)StartHH8=StartHH8-1;
if (setMode==0 && setAlarm==31 && StartMM8>0)StartMM8=StartMM8-1;
if (setMode==0 && setAlarm==32 && FinishHH8>0)FinishHH8=FinishHH8-1;
if (setMode==0 && setAlarm==33 && FinishMM8>0)FinishMM8=FinishMM8-1;

STATE = WAIT;
break;
}
}

void Timer1 (uint8_t StartHH, uint8_t StartMM,uint8_t FinishHH, uint8_t FinishMM) {
//Timer ON
if (alarmMode==1 && hh >= StartHH && mm>=StartMM) {
digitalWrite(2, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH && mm>=FinishMM ){
digitalWrite(2, OFF);
//alarmMode = 0;
}
}
void Timer2 (uint8_t StartHH2, uint8_t StartMM2,uint8_t FinishHH2, uint8_t FinishMM2) {
//Timer ON
if (alarmMode==1 && hh >= StartHH2 && mm>=StartMM2) {
digitalWrite(3, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH2 && mm>=FinishMM2 ){
digitalWrite(3, OFF);
//alarmMode = 0;
}
}
void Timer3 (uint8_t StartHH3, uint8_t StartMM3,uint8_t FinishHH3, uint8_t FinishMM3) {
//Timer ON
if (alarmMode==1 && hh >= StartHH3 && mm>=StartMM3) {
digitalWrite(4, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH3 && mm>=FinishMM3 ){
digitalWrite(4, OFF);
//alarmMode = 0;
}
}
void Timer4 (uint8_t StartHH4, uint8_t StartMM4,uint8_t FinishHH4, uint8_t FinishMM4) {
//Timer ON
if (alarmMode==1 && hh >= StartHH4 && mm>=StartMM4) {
digitalWrite(5, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH4 && mm>=FinishMM4 ){
digitalWrite(5, OFF);
//alarmMode = 0;
}
}
void Timer5 (uint8_t StartHH5, uint8_t StartMM5,uint8_t FinishHH5, uint8_t FinishMM5) {
//Timer ON
if (alarmMode==1 && hh >= StartHH5 && mm>=StartMM5) {
digitalWrite(6, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH5 && mm>=FinishMM5 ){
digitalWrite(6, OFF);
//alarmMode = 0;
}
}
void Timer6 (uint8_t StartHH6, uint8_t StartMM6,uint8_t FinishHH6, uint8_t FinishMM6) {
//Timer ON
if (alarmMode==1 && hh >= StartHH6 && mm>=StartMM6) {
digitalWrite(7, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH6 && mm>=FinishMM6 ){
digitalWrite(7, OFF);
//alarmMode = 0;
}
}
void Timer7 (uint8_t StartHH7, uint8_t StartMM7,uint8_t FinishHH7, uint8_t FinishMM7) {
//Timer ON
if (alarmMode==1 && hh >= StartHH7 && mm>=StartMM7) {
digitalWrite(8, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH7 && mm>=FinishMM7 ){
digitalWrite(8, OFF);
//alarmMode = 0;
}
}
void Timer8 (uint8_t StartHH8, uint8_t StartMM8,uint8_t FinishHH8, uint8_t FinishMM8) {
//Timer ON
if (alarmMode==1 && hh >= StartHH8 && mm>=StartMM8) {
digitalWrite(9, ON);
}
//Timer OFF
if (alarmMode==1 && hh>=FinishHH8 && mm>=FinishMM8 ){
digitalWrite(9, OFF);
//alarmMode = 0;
}
}

void setTimer (){
//Relay1
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=2 && setAlarm <=5 ){
lcd.setCursor (0,0);
lcd.print(F("Ch1 Start :"));
lcd.setCursor (11,0);
if(StartHH<10){lcd.print(F("0"));}
lcd.print (StartHH); lcd.print(F(":"));
if(StartMM<10){lcd.print(F("0"));}
lcd.print (StartMM);

lcd.setCursor (0,1);
lcd.print(F("Ch1 Finish:"));
lcd.setCursor (11,1);
if(FinishHH<10){lcd.print(F("0"));}
lcd.print (FinishHH); lcd.print(F(":"));
if(FinishMM<10){lcd.print(F("0"));}
lcd.print (FinishMM);
}
//Relay2
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=6 && setAlarm <=9 ){
lcd.setCursor (0,0);
lcd.print(F("Ch2 Start :"));
lcd.setCursor (11,0);
if(StartHH2<10){lcd.print(F("0"));}
lcd.print (StartHH2); lcd.print(F(":"));
if(StartMM2<10){lcd.print(F("0"));}
lcd.print (StartMM2);

lcd.setCursor (0,1);
lcd.print(F("Ch2 Finish:"));
lcd.setCursor (11,1);
if(FinishHH2<10){lcd.print(F("0"));}
lcd.print (FinishHH2); lcd.print(F(":"));
if(FinishMM2<10){lcd.print(F("0"));}
lcd.print (FinishMM2);
}
//Relay3
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=10 && setAlarm <=13 ){
lcd.setCursor (0,0);
lcd.print(F("Ch3 Start :"));
lcd.setCursor (11,0);
if(StartHH3<10){lcd.print(F("0"));}
lcd.print (StartHH3); lcd.print(F(":"));
if(StartMM3<10){lcd.print(F("0"));}
lcd.print (StartMM3);

lcd.setCursor (0,1);
lcd.print(F("Ch3 Finish:"));
lcd.setCursor (11,1);
if(FinishHH3<10){lcd.print(F("0"));}
lcd.print (FinishHH3); lcd.print(F(":"));
if(FinishMM3<10){lcd.print(F("0"));}
lcd.print (FinishMM3);
}
//Relay4
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=14 && setAlarm <=17 ){
lcd.setCursor (0,0);
lcd.print(F("Ch4 Start :"));
lcd.setCursor (11,0);
if(StartHH4<10){lcd.print(F("0"));}
lcd.print (StartHH4); lcd.print(F(":"));
if(StartMM4<10){lcd.print(F("0"));}
lcd.print (StartMM4);

lcd.setCursor (0,1);
lcd.print(F("Ch4 Finish:"));
lcd.setCursor (11,1);
if(FinishHH4<10){lcd.print(F("0"));}
lcd.print (FinishHH4); lcd.print(F(":"));
if(FinishMM4<10){lcd.print(F("0"));}
lcd.print (FinishMM4);
}
//Relay5
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=18 && setAlarm <=21 ){
lcd.setCursor (0,0);
lcd.print(F("Ch5 Start :"));
lcd.setCursor (11,0);
if(StartHH5<10){lcd.print(F("0"));}
lcd.print (StartHH5); lcd.print(F(":"));
if(StartMM5<10){lcd.print(F("0"));}
lcd.print (StartMM5);

lcd.setCursor (0,1);
lcd.print(F("Ch5 Finish:"));
lcd.setCursor (11,1);
if(FinishHH5<10){lcd.print(F("0"));}
lcd.print (FinishHH5); lcd.print(F(":"));
if(FinishMM5<10){lcd.print(F("0"));}
lcd.print (FinishMM5);
}
//Relay6
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=22 && setAlarm <=25 ){
lcd.setCursor (0,0);
lcd.print(F("Ch6 Start :"));
lcd.setCursor (11,0);
if(StartHH6<10){lcd.print(F("0"));}
lcd.print (StartHH6); lcd.print(F(":"));
if(StartMM6<10){lcd.print(F("0"));}
lcd.print (StartMM6);

lcd.setCursor (0,1);
lcd.print(F("Ch6 Finish:"));
lcd.setCursor (11,1);
if(FinishHH6<10){lcd.print(F("0"));}
lcd.print (FinishHH6); lcd.print(F(":"));
if(FinishMM6<10){lcd.print(F("0"));}
lcd.print (FinishMM6);
}
//Relay7
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=26 && setAlarm <=29 ){
lcd.setCursor (0,0);
lcd.print(F("Ch7 Start :"));
lcd.setCursor (11,0);
if(StartHH7<10){lcd.print(F("0"));}
lcd.print (StartHH7); lcd.print(F(":"));
if(StartMM7<10){lcd.print(F("0"));}
lcd.print (StartMM7);

lcd.setCursor (0,1);
lcd.print(F("Ch7 Finish:"));
lcd.setCursor (11,1);
if(FinishHH7<10){lcd.print(F("0"));}
lcd.print (FinishHH7); lcd.print(F(":"));
if(FinishMM7<10){lcd.print(F("0"));}
lcd.print (FinishMM7);
}
//Relay8
if (setMode == 0 && setAlarm !=0 && setAlarm !=1 && setAlarm >=30 && setAlarm <=33 ){
lcd.setCursor (0,0);
lcd.print(F("Ch8 Start :"));
lcd.setCursor (11,0);
if(StartHH8<10){lcd.print(F("0"));}
lcd.print (StartHH8); lcd.print(F(":"));
if(StartMM8<10){lcd.print(F("0"));}
lcd.print (StartMM8);

lcd.setCursor (0,1);
lcd.print(F("Ch8 Finish:"));
lcd.setCursor (11,1);
if(FinishHH8<10){lcd.print(F("0"));}
lcd.print (FinishHH8); lcd.print(F(":"));
if(FinishMM8<10){lcd.print(F("0"));}
lcd.print (FinishMM8);
}
}

void ReadEeprom () {
StartHH=EEPROM.read(1);
StartMM=EEPROM.read(2);
FinishHH=EEPROM.read(3);
FinishMM=EEPROM.read(4);

StartHH2=EEPROM.read(5);
StartMM2=EEPROM.read(6);
FinishHH2=EEPROM.read(7);
FinishMM2=EEPROM.read(8);

StartHH3=EEPROM.read(9);
StartMM3=EEPROM.read(10);
FinishHH3=EEPROM.read(11);
FinishMM3=EEPROM.read(12);

StartHH4=EEPROM.read(13);
StartMM4=EEPROM.read(14);
FinishHH4=EEPROM.read(15);
FinishMM4=EEPROM.read(16);

StartHH5=EEPROM.read(17);
StartMM5=EEPROM.read(18);
FinishHH5=EEPROM.read(19);
FinishMM5=EEPROM.read(20);

StartHH6=EEPROM.read(21);
StartMM6=EEPROM.read(22);
FinishHH6=EEPROM.read(23);
FinishMM6=EEPROM.read(24);

StartHH7=EEPROM.read(25);
StartMM7=EEPROM.read(26);
FinishHH7=EEPROM.read(27);
FinishMM7=EEPROM.read(28);

StartHH8=EEPROM.read(29);
StartMM8=EEPROM.read(30);
FinishHH8=EEPROM.read(31);
FinishMM8=EEPROM.read(32);

}

void WriteEeprom () {
EEPROM.write(1,StartHH);
EEPROM.write(2,StartMM);
EEPROM.write(3,FinishHH);
EEPROM.write(4,FinishMM);

EEPROM.write(5,StartHH2);
EEPROM.write(6,StartMM2);
EEPROM.write(7,FinishHH2);
EEPROM.write(8,FinishMM2);

EEPROM.write(9,StartHH3);
EEPROM.write(10,StartMM3);
EEPROM.write(11,FinishHH3);
EEPROM.write(12,FinishMM3);

EEPROM.write(13,StartHH4);
EEPROM.write(14,StartMM4);
EEPROM.write(15,FinishHH4);
EEPROM.write(16,FinishMM4);

EEPROM.write(17,StartHH5);
EEPROM.write(18,StartMM5);
EEPROM.write(19,FinishHH5);
EEPROM.write(20,FinishMM5);

EEPROM.write(21,StartHH6);
EEPROM.write(22,StartMM6);
EEPROM.write(23,FinishHH6);
EEPROM.write(24,FinishMM6);

EEPROM.write(25,StartHH7);
EEPROM.write(26,StartMM7);
EEPROM.write(27,FinishHH7);
EEPROM.write(28,FinishMM7);

EEPROM.write(29,StartHH8);
EEPROM.write(30,StartMM8);
EEPROM.write(31,FinishHH8);
EEPROM.write(32,FinishMM8);
}

coding here



reff : http://www.belajarduino.com/2016/10/programmable-timer-8channel-dengan.html


Video yang berkaitan dengan Programmable Timer 8Channel dengan Arduino Uno


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