{

// If this looks like a Mitsubishi FD-25 or FE code...

if ( byteCount == 36 && bytes[0] == 0x23 &&

( (memcmp(bytes, bytes+18, 17) == 0) ||

((memcmp(bytes, bytes+18, 14) == 0) && bytes[32] == 0x24) ) ){

Serial.println(F("Looks like a Mitsubishi FD / FE / MSY series protocol"));

// Check if the checksum matches

byte checksum = 0;

for (int i=0; i<17; i++) {

checksum += bytes[i];

}

if (checksum == bytes[17]) {

Serial.println(F("Checksum matches"));

} else {

Serial.println(F("Checksum does not match"));

}

// Power mode

switch (bytes[5]) {

case 0x00:

Serial.println(F("POWER OFF"));

break;

case 0x20:

Serial.println(F("POWER ON"));

break;

default:

Serial.println(F("POWER unknown"));

break;

}

// Operating mode

Serial.print(F("MODE "));

switch (bytes[6] & 0x38) { // 0b00111000

case 0x38:

Serial.println(F("FAN"));

break;

case 0x20:

Serial.println(F("AUTO"));

break;

case 0x08:

if (bytes[15] == 0x20) {

Serial.println(F("MAINTENANCE HEAT (FE only)"));

} else {

Serial.println(F("HEAT"));

}

break;

case 0x18:

Serial.println(F("COOL"));

break;

case 0x10:

Serial.println(F("DRY"));

break;

default:

Serial.println(F("unknown"));

break;

}

// I-See

Serial.print(F("I-See: "));

switch (bytes[6] & 0x40) { // 0b01000000

case 0x40:

Serial.println(F("ON"));

break;

case 0x00:

Serial.println(F("OFF"));

break;

}

// Clean

Serial.print(F("Clean: "));

switch (bytes[14] & 0x04) { // 0b00000100

case 0x04:

Serial.println(F("ON"));

break;

case 0x00:

Serial.println(F("OFF"));

break;

}

// Plasma

Serial.print(F("Plasma: "));

switch (bytes[15] & 0x40) { // 0b01000000

case 0x40:

Serial.println(F("ON"));

break;

case 0x00:

Serial.println(F("OFF"));

break;

}

// Temperature

Serial.print(F("Temperature: "));

if (bytes[7] == 0x00) {

Serial.println(F("10"));

} else {

Serial.println(bytes[7] + 16);

}

// Fan speed

Serial.print(F("FAN "));

switch (bytes[9] & 0x07) { // 0b00000111

case 0x00:

Serial.println(F("AUTO"));

break;

case 0x01:

Serial.println(F("1"));

break;

case 0x02:

Serial.println(F("2"));

break;

case 0x03:

Serial.println(F("3"));

break;

case 0x04:

Serial.println(F("4"));

break;

default:

Serial.println(F("unknown"));

break;

}

// Vertical air direction

Serial.print(F("VANE: "));

switch (bytes[9] & 0xF8) { // 0b11111000

case 0x40: // 0b01000

Serial.println(F("AUTO1?"));

break;

case 0x48: // 0b01001

Serial.println(F("UP"));

break;

case 0x50: // 0b01010

Serial.println(F("UP-1"));

break;

case 0x58: // 0b01011

Serial.println(F("UP-2"));

break;

case 0x60: // 0b01100

Serial.println(F("UP-3"));

break;

case 0x68: // 0b01101

Serial.println(F("DOWN"));

break;

case 0x78: // 0b01111

Serial.println(F("SWING"));

break;

case 0x80: // 0b10000

Serial.println(F("AUTO2?"));

break;

case 0xB8: // 0b10111

Serial.println(F("AUTO3?"));

break;

default:

Serial.println(F("unknown"));

break;

}

// Horizontal air direction

Serial.print(F("WIDE VANE: "));

switch (bytes[8] & 0xF0) { // 0b11110000

case 0x00:

Serial.println(F("AREA"));

break;

case 0x10:

Serial.println(F("LEFT"));

break;

case 0x20:

Serial.println(F("MIDDLE LEFT"));

break;

case 0x30:

Serial.println(F("MIDDLE"));

break;

case 0x40:

Serial.println(F("MIDDLE RIGHT"));

break;

case 0x50:

Serial.println(F("RIGHT"));

break;

case 0xC0:

Serial.println(F("SWING"));

break;

default:

Serial.println(F("unknown"));

break;

}

// Horizontal air direction, area mode

Serial.print(F("AREA MODE: "));

switch (bytes[13] & 0xC0) { // 0b11000000

case 0x00:

Serial.println(F("OFF"));

break;

case 0x40:

Serial.println(F("LEFT"));

break;

case 0x80:

Serial.println(F("AUTO"));

break;

case 0xC0:

Serial.println(F("RIGHT"));

break;

}

// Installation position

Serial.print(F("INSTALL POSITION: "));

switch (bytes[14] & 0x18) { // 0b00011000

case 0x08:

Serial.println(F("LEFT"));

break;

case 0x10:

Serial.println(F("CENTER"));

break;

case 0x18:

Serial.println(F("RIGHT"));

break;

default:

Serial.println(F("unknown"));

break;

}

return true;

}

return false;