const int analogInPin = A0; // Analog input pin float sensorValue = 0; // value read from the pot float outputValue = 0; boolean charge_led = false; void setup() { delay(10000); int led = 13; pinMode(36, OUTPUT); pinMode(37, OUTPUT); pinMode(32, OUTPUT); pinMode(33, OUTPUT); pinMode(34, OUTPUT); pinMode(35, OUTPUT); pinMode(45, OUTPUT); //charge digitalWrite(45, HIGH) ; pinMode(46, OUTPUT); pinMode(47, OUTPUT); pinMode(38, OUTPUT); pinMode(39, OUTPUT); pinMode(40, OUTPUT); pinMode(41, OUTPUT); pinMode(42, OUTPUT); pinMode(43, OUTPUT); Serial1.begin(9600); Serial1.flush(); Serial.begin(9600); } void loop () { // read the analog in value: //sensorValue = analogRead(analogInPin); // outputValue = map(sensorValue, 0, 1023, 0, 20); // print the results to the serial monitor: // Serial.print("Voltage = " ); // Serial.println(outputValue); //delay(500); if (charge_led) { digitalWrite(46, HIGH); digitalWrite(47, LOW); delay(300); digitalWrite(47, HIGH); digitalWrite(46, LOW); delay(300); } if (Serial1.available() > 0) { int val = Serial1.read()-'0'; if (val == 0) { for (int i=255; i > 0; i--){ analogWrite(36, i); //digitalWrite(37, false); analogWrite(32, i); //digitalWrite(33, true); analogWrite(34, i); //digitalWrite(35, false); analogWrite(38, i); //digitalWrite(39, false); analogWrite(40, i); //digitalWrite(41, true); analogWrite(42, i); //digitalWrite(43, true); //delay(200); } } if (val == 8) { for (int i=0; i < 255; i++){ analogWrite(36, i); digitalWrite(37, false); analogWrite(32, i); digitalWrite(33, true); analogWrite(34, i); digitalWrite(35, false); analogWrite(38, i); digitalWrite(39, false); analogWrite(40, i); digitalWrite(41, true); analogWrite(42, i); digitalWrite(43, true); } } if (val == 2) { for (int i=0; i < 255; i++){ analogWrite(36, i); digitalWrite(37, true); analogWrite(32, i); digitalWrite(33, false); analogWrite(34, i); digitalWrite(35, true); analogWrite(38, i); digitalWrite(39, true); analogWrite(40, i); digitalWrite(41, false); analogWrite(42, i); digitalWrite(43, false); } } if (val == 4) { for (int i=0; i < 255; i++){ analogWrite(36, i); digitalWrite(37, false); analogWrite(32, i); digitalWrite(33, true); analogWrite(34, i); digitalWrite(35, false); analogWrite(38, i); digitalWrite(39, true); analogWrite(40, i); digitalWrite(41, false); analogWrite(42, i); digitalWrite(43, false); } } if (val == 6) { for (int i=0; i <255; i++){ analogWrite(36, i); digitalWrite(37, true); analogWrite(32, i); digitalWrite(33, false); analogWrite(34, i); digitalWrite(35, true); analogWrite(38, i); digitalWrite(39, false); analogWrite(40, i); digitalWrite(41, true); analogWrite(42, i); digitalWrite(43, true); } } if (val == 7) {digitalWrite(46, HIGH); digitalWrite(47, HIGH); } if (val == 9) {digitalWrite(46, LOW); digitalWrite(47, LOW); } if (val == 1) { charge_led=true; digitalWrite(45, LOW); } if (val == 3) { charge_led= false; digitalWrite(45, HIGH); digitalWrite(47, LOW); digitalWrite(46, LOW); } } //analogWrite(36, 255); //digitalWrite(37, false); //analogWrite(32, 255); // digitalWrite(33, true); //analogWrite(34, 255); // digitalWrite(35, false); // // analogWrite(38, 255); // digitalWrite(39, true); // analogWrite(40, 255); // digitalWrite(41, false); // analogWrite(42, 255); // digitalWrite(43, false); }