#include // RX, TX for MIDI out SoftwareSerial MIDI(10, 11); //button pin const int switchPin = 6; //rotary encoder pins const int encAPin = 4; const int encBPin = 5; //for sending note-off once after button is released boolean btnOff = false; //old rotary encoder value int encA = LOW; //read rotary encoder value int enc = HIGH; void setup() { //printing baudrate Serial.begin(9600); //MIDI baudrate for software serial (pin 10 & 11) MIDI.begin(31250); //button and encoder pins as input pinMode(switchPin, INPUT); pinMode(encAPin, INPUT); pinMode(encBPin, INPUT); //activate pullup-resistors (read value is inverted, so LOW is active) digitalWrite(switchPin, HIGH); digitalWrite(encAPin, HIGH); digitalWrite(encBPin, HIGH); } void loop() { //print incoming bytes on softwareserial, just for checking MIDI-in, worked if (MIDI.available()) Serial.println(MIDI.read()); //check if button is pressed if (digitalRead(switchPin) == LOW) { if (!btnOff) { //send note on midiSignal(144,60,100); btnOff = true; } } if (digitalRead(switchPin) == HIGH) { //send note off if (btnOff) { midiSignal(128,60,0); btnOff = false; } } //read encoder pin A enc = digitalRead(encAPin); //check if rotary encoder is turned if ((encA == HIGH) && (enc == LOW)) { //check direction of turning if (digitalRead(encBPin) == HIGH) { //send note on and note off directly, so signal is send on every turn midiSignal(144,62,100); midiSignal(128,62,100); } else { //other direction, other note value midiSignal(144,61,100); midiSignal(128,61,100); } } //save "old" encoder value encA = enc; } //send MIDI signal through softwareserial void midiSignal(byte b1, byte b2, byte b3) { //debug printing Serial.print("send: "); Serial.print(b1); Serial.print(" | "); Serial.print(b2); Serial.print(" | "); Serial.print(b3); Serial.println(""); MIDI.write(b1); MIDI.write(b2); MIDI.write(b2); }