# define BUZY A0
void myDelay(unsigned long tt)
{
// delay(tt / 10); // life too short, run at 10X
delay(tt); // normal time
}
# define delay myDelay
// Define button pins
const
int button1Pin =
9;
// 5;
const
int button2Pin =
8;
// 6:
const
int button3Pin =
7;
const
int button4Pin =
8;
const
int button5Pin =
9;
// Define relay pins
const
int relay1Pin =
2;
const
int relay2Pin =
3;
const
int relay3Pin =
4;
// Define pump run times (in milliseconds)
const
int pump1Time =
1000;
// 1 second
const
int pump2Time =
2000;
// 9000;
// 9 seconds
const
int pump3Time =
3000;
// 1500;
// 1.5 seconds
const
int pump4Time =
4000;
// 8000;
// 8 seconds
const
int pump5Time =
5000;
// 3 seconds
const
int pump6Time =
6000;
// 18000;
// 18 seconds
// Delay after the second pump finishes (in milliseconds)
const
int delayAfterSecondPump =
1000;
// 3000;
// 3 seconds
void
setup()
{
// Initialize buttons and relays
pinMode(button1Pin,
INPUT_PULLUP);
pinMode(button2Pin,
INPUT_PULLUP);
pinMode(button3Pin,
INPUT_PULLUP);
pinMode(button4Pin,
INPUT_PULLUP);
pinMode(button5Pin,
INPUT_PULLUP);
pinMode(relay1Pin,
OUTPUT);
pinMode(relay2Pin,
OUTPUT);
pinMode(relay3Pin,
OUTPUT);
// Initially, turn off all relays
digitalWrite(relay1Pin,
LOW);
digitalWrite(relay2Pin,
LOW);
digitalWrite(relay3Pin,
LOW);
pinMode(BUZY, OUTPUT);
}
void
loop()
{
// beating heart shows buttons are being watched
digitalWrite(BUZY,(millis() >> 8) & 0x1);
// Check if buttons are pressed
if
(digitalRead(button1Pin)
== LOW)
{
runDispenser(1);
}
if
(digitalRead(button2Pin)
== LOW)
{
runDispenser(2);
}
if
(digitalRead(button3Pin)
== LOW)
{
runDispenser(3);
}
if
(digitalRead(button4Pin)
== LOW)
{
runDispenser(4);
}
if
(digitalRead(button5Pin)
== LOW)
{
runDispenser(5);
}
}
void
runDispenser(int
dispenserNumber)
{
switch
(dispenserNumber)
{
case
1:
activateRelay(relay1Pin,
pump1Time);
activateRelay(relay2Pin,
pump2Time);
break;
case
2:
activateRelay(relay3Pin,
pump3Time);
activateRelay(relay2Pin,
pump4Time);
delay(delayAfterSecondPump);
// Wait for a delay after the second pump finishes
break;
case
3:
activateRelay(relay1Pin,
pump3Time);
activateRelay(relay2Pin,
pump4Time);
break;
case
4:
activateRelay(relay3Pin,
pump3Time);
activateRelay(relay2Pin,
pump4Time);
delay(delayAfterSecondPump);
// Wait for a delay after the second pump finishes
break;
case
5:
activateRelay(relay1Pin,
pump5Time);
activateRelay(relay2Pin,
pump6Time);
break;
}
}
void
activateRelay(int
relayPin,
int
runTime)
{
digitalWrite(relayPin,
HIGH);
// Turn on the relay
delay(runTime);
// Run the pump for the specified time
digitalWrite(relayPin,
LOW);
// Turn off the relay
}
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