Robotics Arduino
Published © LGPL

How to use the YX5300 MP3 Module Catalex with Arduino

You'll learn how to create a Vowels Game with Arduino to teach children.

IntermediateFull instructions provided2 hours9,178
How to use the YX5300 MP3 Module Catalex with Arduino

Things used in this project

Hardware components

JLCPCB Printed Circuit Board
×1
Arduino UNO
Arduino UNO
×1
PTS 645 Series Switch
C&K Switches PTS 645 Series Switch
×6
Resistor 10k ohm
Resistor 10k ohm
×6
Male Header Pin 1x7 2.54mm
×1

Story

Read more

Code

Source Code

Arduino
#include <SoftwareSerial.h>

#define ARDUINO_RX 5  //should connect to TX of the Serial MP3 Player module
#define ARDUINO_TX 6  //connect to RX of the module

SoftwareSerial mp3(ARDUINO_RX, ARDUINO_TX);

static int8_t Send_buf[8] = {0}; // Buffer for Send commands.  // BETTER LOCALLY
static uint8_t ansbuf[10] = {0}; // Buffer for the answers.    // BETTER LOCALLY

String mp3Answer;           // Answer from the MP3.

String sanswer(void);
String sbyte2hex(uint8_t b);

/************ Command byte **************************/
#define CMD_NEXT_SONG     0X01  // Play next song.
#define CMD_PREV_SONG     0X02  // Play previous song.
#define CMD_PLAY_W_INDEX  0X03
#define CMD_VOLUME_UP     0X04
#define CMD_VOLUME_DOWN   0X05
#define CMD_SET_VOLUME    0X06

#define CMD_SNG_CYCL_PLAY 0X08  // Single Cycle Play.
#define CMD_SEL_DEV       0X09
#define CMD_SLEEP_MODE    0X0A
#define CMD_WAKE_UP       0X0B
#define CMD_RESET         0X0C
#define CMD_PLAY          0X0D
#define CMD_PAUSE         0X0E
#define CMD_PLAY_FOLDER_FILE 0X0F

#define CMD_STOP_PLAY     0X16  // Stop playing continuously. 
#define CMD_FOLDER_CYCLE  0X17
#define CMD_SHUFFLE_PLAY  0x18 //
#define CMD_SET_SNGL_CYCL 0X19 // Set single cycle.

#define CMD_SET_DAC 0X1A
#define DAC_ON  0X00
#define DAC_OFF 0X01

#define CMD_PLAY_W_VOL    0X22
#define CMD_PLAYING_N     0x4C
#define CMD_QUERY_STATUS      0x42
#define CMD_QUERY_VOLUME      0x43
#define CMD_QUERY_FLDR_TRACKS 0x4e
#define CMD_QUERY_TOT_TRACKS  0x48
#define CMD_QUERY_FLDR_COUNT  0x4f

/************ Opitons **************************/
#define DEV_TF            0X02

/*********************************************************************/
int numero;      
byte estado;      
byte buzzer = 2;
byte pin = 0;
byte SortNumber = 0;

bool button = 0;

void setup()
{
  Serial.begin(9600);
  mp3.begin(9600);
  delay(500);
  
  for(pin = 8; pin < 13; pin++)
  {
    pinMode(pin, INPUT);
  }
  
  sendCommand(CMD_SEL_DEV, 0, DEV_TF);
  delay(500);
}

void loop()
{
  pin = 8;

  randomSeed(analogRead(A0));
  numero = random(8,12);
  SortNumber =  numero;
  numero = numero - 7;
  
  Serial.println(numero);
  sendCommand(0x03, 0, numero);
  delay(1000);
  
  do
  {
     button = digitalRead(pin);
     Serial.println(button);
     pin++;

     if(pin > 13)
     {
        pin = 8;
     }

     Serial.println("Varrendo...");
     Serial.println(pin);
     //delay(1000);
     
  }while(button != 1);

  Serial.println("Saiu...");

  if(button == 1 && (pin-1) != SortNumber)
  {
    sendCommand(0x03, 0, 6);
    delay(3000);
  }

  if(button == 1 && (pin-1) == SortNumber)
  {
    sendCommand(0x03, 0, 7);
    delay(3000);
  }
  
  // Check for the answer.
  if (mp3.available())
  {
    Serial.println(decodeMP3Answer());
  }
  delay(100);
  //Serial.println("Tocando musica...");
}

/********************************************************************************/
/*Function sendMP3Command: seek for a 'c' command and send it to MP3  */
/*Parameter: c. Code for the MP3 Command, 'h' for help.                                                                                                         */
/*Return:  void                                                                */

void sendMP3Command(char c) {
  
  switch (c) {
    case '?':
    case 'h':
      Serial.println("HELP  ");
      Serial.println(" p = Play");
      Serial.println(" P = Pause");
      Serial.println(" > = Next");
      Serial.println(" < = Previous");
      Serial.println(" s = Stop Play"); 
      Serial.println(" + = Volume UP");
      Serial.println(" - = Volume DOWN");
      Serial.println(" c = Query current file");
      Serial.println(" q = Query status");
      Serial.println(" v = Query volume");
      Serial.println(" x = Query folder count");
      Serial.println(" t = Query total file count");
      Serial.println(" f = Play folder 1.");
      Serial.println(" S = Sleep");
      Serial.println(" W = Wake up");
      Serial.println(" r = Reset");
      break;

    case 'p':
      Serial.println("Play ");
      sendCommand(CMD_PLAY);
      break;

    case 'P':
      Serial.println("Pause");
      sendCommand(CMD_PAUSE);
      break;

    case '>':
      Serial.println("Next");
      sendCommand(CMD_NEXT_SONG);
      sendCommand(CMD_PLAYING_N); // ask for the number of file is playing
      break;

    case '<':
      Serial.println("Previous");
      sendCommand(CMD_PREV_SONG);
      sendCommand(CMD_PLAYING_N); // ask for the number of file is playing
      break;

    case 's':
      Serial.println("Stop Play");
      sendCommand(CMD_STOP_PLAY);
      break;

    case '+':
      Serial.println("Volume Up");
      sendCommand(CMD_VOLUME_UP);
      break;

    case '-':
      Serial.println("Volume Down");
      sendCommand(CMD_VOLUME_DOWN);
      break;

    case 'c':
      Serial.println("Query current file");
      sendCommand(CMD_PLAYING_N);
      break;

    case 'q':
      Serial.println("Query status");
      sendCommand(CMD_QUERY_STATUS);
      break;

    case 'v':
      Serial.println("Query volume");
      sendCommand(CMD_QUERY_VOLUME);
      break;

    case 'x':
      Serial.println("Query folder count");
      sendCommand(CMD_QUERY_FLDR_COUNT);
      break;

    case 't':
      Serial.println("Query total file count");
      sendCommand(CMD_QUERY_TOT_TRACKS);
      break;

    case 'f':
      Serial.println("Playing folder 1");
      sendCommand(CMD_FOLDER_CYCLE, 1, 0);
      break;

    case 'S':
      Serial.println("Sleep");
      sendCommand(CMD_SLEEP_MODE);
      break;

    case 'W':
      Serial.println("Wake up");
      sendCommand(CMD_WAKE_UP);
      break;

    case 'r':
      Serial.println("Reset");
      sendCommand(CMD_RESET);
      break;
  }
}

/********************************************************************************/
/*Function decodeMP3Answer: Decode MP3 answer.                                  */
/*Parameter:-void                                                               */
/*Return: The                                                  */

String decodeMP3Answer() {
  String decodedMP3Answer = "";

  decodedMP3Answer += sanswer();

  switch (ansbuf[3]) {
    case 0x3A:
      decodedMP3Answer += " -> Memory card inserted.";
      break;

    case 0x3D:
      decodedMP3Answer += " -> Completed play num " + String(ansbuf[6], DEC);
      //sendCommand(CMD_NEXT_SONG);
      //sendCommand(CMD_PLAYING_N); // ask for the number of file is playing
      break;

    case 0x40:
      decodedMP3Answer += " -> Error";
      break;

    case 0x41:
      decodedMP3Answer += " -> Data recived correctly. ";
      break;

    case 0x42:
      decodedMP3Answer += " -> Status playing: " + String(ansbuf[6], DEC);
      break;

    case 0x48:
      decodedMP3Answer += " -> File count: " + String(ansbuf[6], DEC);
      break;

    case 0x4C:
      decodedMP3Answer += " -> Playing: " + String(ansbuf[6], DEC);
      break;

    case 0x4E:
      decodedMP3Answer += " -> Folder file count: " + String(ansbuf[6], DEC);
      break;

    case 0x4F:
      decodedMP3Answer += " -> Folder count: " + String(ansbuf[6], DEC);
      break;
  }

  return decodedMP3Answer;
}

/********************************************************************************/
/*Function: Send command to the MP3                                             */
/*Parameter: byte command                                                       */
/*Parameter: byte dat1 parameter for the command                                */
/*Parameter: byte dat2 parameter for the command                                */

void sendCommand(byte command){
  sendCommand(command, 0, 0);
}

void sendCommand(byte command, byte dat1, byte dat2){
  delay(20);
  Send_buf[0] = 0x7E;    //
  Send_buf[1] = 0xFF;    //
  Send_buf[2] = 0x06;    // Len
  Send_buf[3] = command; //
  Send_buf[4] = 0x01;    // 0x00 NO, 0x01 feedback
  Send_buf[5] = dat1;    // datah
  Send_buf[6] = dat2;    // datal
  Send_buf[7] = 0xEF;    //
  Serial.print("Sending: ");
  for (uint8_t i = 0; i < 8; i++)
  {
    mp3.write(Send_buf[i]) ;
    Serial.print(sbyte2hex(Send_buf[i]));
  }
  Serial.println();
}



/********************************************************************************/
/*Function: sbyte2hex. Returns a byte data in HEX format.                       */
/*Parameter:- uint8_t b. Byte to convert to HEX.                                */
/*Return: String                                                                */


String sbyte2hex(uint8_t b)
{
  String shex;

  shex = "0X";

  if (b < 16) shex += "0";
  shex += String(b, HEX);
  shex += " ";
  return shex;
}


/********************************************************************************/
/*Function: shex2int. Returns a int from an HEX string.                         */
/*Parameter: s. char *s to convert to HEX.                                      */
/*Parameter: n. char *s' length.                                                */
/*Return: int                                                                   */

int shex2int(char *s, int n){
  int r = 0;
  for (int i=0; i<n; i++){
     if(s[i]>='0' && s[i]<='9'){
      r *= 16; 
      r +=s[i]-'0';
     }else if(s[i]>='A' && s[i]<='F'){
      r *= 16;
      r += (s[i] - 'A') + 10;
     }
  }
  return r;
}


/********************************************************************************/
/*Function: sanswer. Returns a String answer from mp3 UART module.          */
/*Parameter:- uint8_t b. void.                                                  */
/*Return: String. If the answer is well formated answer.                        */

String sanswer(void)
{
  uint8_t i = 0;
  String mp3answer = "";

  // Get only 10 Bytes
  while (mp3.available() && (i < 10))
  {
    uint8_t b = mp3.read();
    ansbuf[i] = b;
    i++;

    mp3answer += sbyte2hex(b);
  }

  // if the answer format is correct.
  if ((ansbuf[0] == 0x7E) && (ansbuf[9] == 0xEF))
  {
    return mp3answer;
  }

  return "???: " + mp3answer;
}

Credits

Robotics Arduino

Robotics Arduino

36 projects • 52 followers

Comments