samm-git/marantz-demo.ino

## marantz-demo.ino
// marantz wired remote control demo
// inspired by https://github.com/Arduino-IRremote/Arduino-IRremote
// see https://smallhacks.wordpress.com/2021/07/07/controlling-marantz-amplifier-using-arduino-via-remote-socket/

/* some definitions from the IRremote Arduino Library */
#define RC5_ADDRESS_BITS 5
#define RC5_COMMAND_BITS 6
#define RC5_EXT_BITS 6
#define RC5_COMMAND_FIELD_BIT 1
#define RC5_TOGGLE_BIT 1
#define RC5_BITS (RC5_COMMAND_FIELD_BIT + RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS)  // 13
#define RC5X_BITS (RC5_BITS + RC5_EXT_BITS) // 19
#define RC5_UNIT 889  // (32 cycles of 36 kHz)
#define RC5_DURATION (15L * RC5_UNIT)  // 13335
#define RC5_REPEAT_PERIOD (128L *RC5_UNIT)  // 113792
#define RC5_REPEAT_SPACE (RC5_REPEAT_PERIOD - RC5_DURATION)  // 100 ms

#define IR_TX_PIN 5 // pin to use for tx

//#define TRACE // print binary commands to serial

uint8_t sLastSendToggleValue = 0;

/*
 *  normal Philips RC-5 as in the https://en.wikipedia.org/wiki/RC-5
 *  code taken from IRremote with some changes
 */

int sendRC5(uint8_t aAddress, uint8_t aCommand, uint_fast8_t aNumberOfRepeats)
{

  digitalWrite(IR_TX_PIN, LOW);

  uint16_t tIRData = ((aAddress & 0x1F) << RC5_COMMAND_BITS);

  if (aCommand < 0x40)
  {
    // set field bit to lower field / set inverted upper command bit
    tIRData |= 1 << (RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS);
  }
  else
  {
    // let field bit zero
    aCommand &= 0x3F;
  }

  tIRData |= aCommand;

  tIRData |= 1 << RC5_BITS;

  if (sLastSendToggleValue == 0)
  {
    sLastSendToggleValue = 1;
    // set toggled bit
    tIRData |= 1 << (RC5_ADDRESS_BITS + RC5_COMMAND_BITS);
  }
  else
  {
    sLastSendToggleValue = 0;
  }

  uint_fast8_t tNumberOfCommands = aNumberOfRepeats + 1;

  while (tNumberOfCommands > 0)
  {
    for (int i = 13; 0 <= i; i--)
    {
#ifdef TRACE
      Serial.print((tIRData &(1 << i)) ? '1' : '0');
#endif
        (tIRData &(1 << i)) ? send_1() : send_0();
    }
    tNumberOfCommands--;
    if (tNumberOfCommands > 0)
    {
      // send repeated command in a fixed raster
      delay(RC5_REPEAT_SPACE / 1000);
    }
#ifdef TRACE
    Serial.print("\n");
#endif
  }

  digitalWrite(IR_TX_PIN, LOW);
  return 0;
}

/*
 *  Marantz 20 bit RC5 extension, see
 *  http://lirc.10951.n7.nabble.com/Marantz-RC5-22-bits-Extend-Data-Word-possible-with-lircd-conf-semantic-td9784.html
 *  could be combined with sendRC5, but ATM split to simplify debugging
 */

int sendRC5_X(uint8_t aAddress, uint8_t aCommand, uint8_t aExt, uint_fast8_t aNumberOfRepeats)
{

  uint32_t tIRData = (uint32_t)(aAddress & 0x1F) << (RC5_COMMAND_BITS + RC5_EXT_BITS);

  digitalWrite(IR_TX_PIN, LOW);

  if (aCommand < 0x40)
  {
    // set field bit to lower field / set inverted upper command bit
    tIRData |= (uint32_t) 1 << (RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS + RC5_EXT_BITS);
  }
  else
  {
    // let field bit zero
    aCommand &= 0x3F;
  }

  tIRData |= (uint32_t)(aExt & 0x3F);
  tIRData |= (uint32_t) aCommand << RC5_EXT_BITS;
  tIRData |= (uint32_t) 1 << RC5X_BITS;

  if (sLastSendToggleValue == 0)
  {
    sLastSendToggleValue = 1;
    // set toggled bit
    tIRData |= (uint32_t) 1 << (RC5_ADDRESS_BITS + RC5_COMMAND_BITS + RC5_EXT_BITS);
  }
  else
  {
    sLastSendToggleValue = 0;
  }

  uint_fast8_t tNumberOfCommands = aNumberOfRepeats + 1;

  while (tNumberOfCommands > 0)
  {

    for (int i = 19; 0 <= i; i--)
    {
#ifdef TRACE
      Serial.print((tIRData &((uint32_t) 1 << i)) ? '1' : '0');
#endif
        (tIRData &((uint32_t) 1 << i)) ? send_1() : send_0();
      if (i == 12)
      {
#ifdef TRACE
        Serial.print("<p>");
#endif
        // space marker for marantz rc5 extension
        delayMicroseconds(RC5_UNIT *2 *2);
      }
    }
#ifdef TRACE
    Serial.print("\n");
#endif
    tNumberOfCommands--;
    if (tNumberOfCommands > 0)
    {
      // send repeated command in a fixed raster
      delay(RC5_REPEAT_SPACE / 1000);
    }
  }
  digitalWrite(IR_TX_PIN, LOW);
  return 0;
}

void setup()
{
  //start serial connection
  Serial.begin(115200);
  // configure output pin
  pinMode(IR_TX_PIN, OUTPUT);
}

void send_0()
{
  digitalWrite(IR_TX_PIN, HIGH);
  delayMicroseconds(RC5_UNIT);
  digitalWrite(IR_TX_PIN, LOW);
  delayMicroseconds(RC5_UNIT);
}

void send_1()
{
  digitalWrite(IR_TX_PIN, LOW);
  delayMicroseconds(RC5_UNIT);
  digitalWrite(IR_TX_PIN, HIGH);
  delayMicroseconds(RC5_UNIT);
}

void loop()
{
  // demo to switch outputs and turn device on/off
  sendRC5(21, 63, 1); // phono
  delay(500);
  sendRC5(20, 63, 1); // cd
  delay(500);
  sendRC5(17, 63, 1); // tuner
  delay(500);
  sendRC5_X(16, 0, 6, 1); // aux1
  delay(500);
  sendRC5_X(16, 0, 7, 1); // aux2
  delay(500);
  sendRC5(16, 12, 1); // standby
  delay(2000);
}
	// marantz wired remote control demo
	// inspired by https://github.com/Arduino-IRremote/Arduino-IRremote
	// see https://smallhacks.wordpress.com/2021/07/07/controlling-marantz-amplifier-using-arduino-via-remote-socket/

	/* some definitions from the IRremote Arduino Library */
	#define RC5_ADDRESS_BITS 5
	#define RC5_COMMAND_BITS 6
	#define RC5_EXT_BITS 6
	#define RC5_COMMAND_FIELD_BIT 1
	#define RC5_TOGGLE_BIT 1
	#define RC5_BITS (RC5_COMMAND_FIELD_BIT + RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS) // 13
	#define RC5X_BITS (RC5_BITS + RC5_EXT_BITS) // 19
	#define RC5_UNIT 889 // (32 cycles of 36 kHz)
	#define RC5_DURATION (15L * RC5_UNIT) // 13335
	#define RC5_REPEAT_PERIOD (128L *RC5_UNIT) // 113792
	#define RC5_REPEAT_SPACE (RC5_REPEAT_PERIOD - RC5_DURATION) // 100 ms

	#define IR_TX_PIN 5 // pin to use for tx

	//#define TRACE // print binary commands to serial

	uint8_t sLastSendToggleValue = 0;

	/*
	* normal Philips RC-5 as in the https://en.wikipedia.org/wiki/RC-5
	* code taken from IRremote with some changes
	*/

	int sendRC5(uint8_t aAddress, uint8_t aCommand, uint_fast8_t aNumberOfRepeats)
	{

	digitalWrite(IR_TX_PIN, LOW);

	uint16_t tIRData = ((aAddress & 0x1F) << RC5_COMMAND_BITS);

	if (aCommand < 0x40)
	{
	// set field bit to lower field / set inverted upper command bit
	tIRData \|= 1 << (RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS);
	}
	else
	{
	// let field bit zero
	aCommand &= 0x3F;
	}

	tIRData \|= aCommand;

	tIRData \|= 1 << RC5_BITS;

	if (sLastSendToggleValue == 0)
	{
	sLastSendToggleValue = 1;
	// set toggled bit
	tIRData \|= 1 << (RC5_ADDRESS_BITS + RC5_COMMAND_BITS);
	}
	else
	{
	sLastSendToggleValue = 0;
	}

	uint_fast8_t tNumberOfCommands = aNumberOfRepeats + 1;

	while (tNumberOfCommands > 0)
	{
	for (int i = 13; 0 <= i; i--)
	{
	#ifdef TRACE
	Serial.print((tIRData &(1 << i)) ? '1' : '0');
	#endif
	(tIRData &(1 << i)) ? send_1() : send_0();
	}
	tNumberOfCommands--;
	if (tNumberOfCommands > 0)
	{
	// send repeated command in a fixed raster
	delay(RC5_REPEAT_SPACE / 1000);
	}
	#ifdef TRACE
	Serial.print("\n");
	#endif
	}

	digitalWrite(IR_TX_PIN, LOW);
	return 0;
	}

	/*
	* Marantz 20 bit RC5 extension, see
	* http://lirc.10951.n7.nabble.com/Marantz-RC5-22-bits-Extend-Data-Word-possible-with-lircd-conf-semantic-td9784.html
	* could be combined with sendRC5, but ATM split to simplify debugging
	*/

	int sendRC5_X(uint8_t aAddress, uint8_t aCommand, uint8_t aExt, uint_fast8_t aNumberOfRepeats)
	{

	uint32_t tIRData = (uint32_t)(aAddress & 0x1F) << (RC5_COMMAND_BITS + RC5_EXT_BITS);

	digitalWrite(IR_TX_PIN, LOW);

	if (aCommand < 0x40)
	{
	// set field bit to lower field / set inverted upper command bit
	tIRData \|= (uint32_t) 1 << (RC5_TOGGLE_BIT + RC5_ADDRESS_BITS + RC5_COMMAND_BITS + RC5_EXT_BITS);
	}
	else
	{
	// let field bit zero
	aCommand &= 0x3F;
	}

	tIRData \|= (uint32_t)(aExt & 0x3F);
	tIRData \|= (uint32_t) aCommand << RC5_EXT_BITS;
	tIRData \|= (uint32_t) 1 << RC5X_BITS;

	if (sLastSendToggleValue == 0)
	{
	sLastSendToggleValue = 1;
	// set toggled bit
	tIRData \|= (uint32_t) 1 << (RC5_ADDRESS_BITS + RC5_COMMAND_BITS + RC5_EXT_BITS);
	}
	else
	{
	sLastSendToggleValue = 0;
	}

	uint_fast8_t tNumberOfCommands = aNumberOfRepeats + 1;

	while (tNumberOfCommands > 0)
	{

	for (int i = 19; 0 <= i; i--)
	{
	#ifdef TRACE
	Serial.print((tIRData &((uint32_t) 1 << i)) ? '1' : '0');
	#endif
	(tIRData &((uint32_t) 1 << i)) ? send_1() : send_0();
	if (i == 12)
	{
	#ifdef TRACE
	Serial.print("<p>");
	#endif
	// space marker for marantz rc5 extension
	delayMicroseconds(RC5_UNIT 2 2);
	}
	}
	#ifdef TRACE
	Serial.print("\n");
	#endif
	tNumberOfCommands--;
	if (tNumberOfCommands > 0)
	{
	// send repeated command in a fixed raster
	delay(RC5_REPEAT_SPACE / 1000);
	}
	}
	digitalWrite(IR_TX_PIN, LOW);
	return 0;
	}

	void setup()
	{
	//start serial connection
	Serial.begin(115200);
	// configure output pin
	pinMode(IR_TX_PIN, OUTPUT);
	}

	void send_0()
	{
	digitalWrite(IR_TX_PIN, HIGH);
	delayMicroseconds(RC5_UNIT);
	digitalWrite(IR_TX_PIN, LOW);
	delayMicroseconds(RC5_UNIT);
	}

	void send_1()
	{
	digitalWrite(IR_TX_PIN, LOW);
	delayMicroseconds(RC5_UNIT);
	digitalWrite(IR_TX_PIN, HIGH);
	delayMicroseconds(RC5_UNIT);
	}

	void loop()
	{
	// demo to switch outputs and turn device on/off
	sendRC5(21, 63, 1); // phono
	delay(500);
	sendRC5(20, 63, 1); // cd
	delay(500);
	sendRC5(17, 63, 1); // tuner
	delay(500);
	sendRC5_X(16, 0, 6, 1); // aux1
	delay(500);
	sendRC5_X(16, 0, 7, 1); // aux2
	delay(500);
	sendRC5(16, 12, 1); // standby
	delay(2000);
	}