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// Record TDM input sound as raw data (16ch, Signed 24-bit little-endian PCM, 44.1kHz, little-endian) to a SD card.
// Note: Format is modified so that mics align their 24 bit data to 32 bit slots, half of the 16 bit
// channels end up being the 8 low bits, and 8 more zeros which are discarded.
//
// Hardware:
// Mic Pin 6 (SD_O) to Teensy Pin 9 SCLK (Output, 11.3 MHz, Checked)
// Mic Pin 8 (SCK_I) to Teensy Pin 13 SDATA (Input, 11.3 Mbit/sec)
// Mic Pin 10 (WS_I) to Teensy Pin 23 FS (Output, 44100 Hz, Checked)
//
// Mic GND Pins (1, 3, 5, 7 and 9) to Teensy GND
// Mic VDD to Teensy 3.3V
// At startup of the ICS-52000, the start of the frame sync (WS_I) signal should be delayed from the start of the serial clock (SCK_I) by at
// least 10 ms. This enables the microphone’s internal circuits to completely initialize before starting the synchronization sequence
// with other microphones in the TDM array. This delay can be implemented either by enabling the WS output (FS) on the clock master at
// least 10 ms after the SCK_I is enabled, or by externally controlling the signals given to the ICS-52000s.
//
//
// This example code is in the public domain.
#include <Audio.h>
#include <Wire.h>
#include <SPI.h>
#include <SD.h>
#include <SerialFlash.h>
// GUItool: begin automatically generated code
AudioInputTDM tdm1; //xy=359,317
//AudioRecordQueue queue13; //xy=620,615
//AudioRecordQueue queue14; //xy=620,649
//AudioRecordQueue queue15; //xy=620,682
//AudioRecordQueue queue12; //xy=621,581
//AudioRecordQueue queue16; //xy=622,716
//AudioRecordQueue queue9; //xy=623,480
//AudioRecordQueue queue10; //xy=623,514
//AudioRecordQueue queue11; //xy=623,547
//AudioRecordQueue queue4; //xy=624,315
//AudioRecordQueue queue5; //xy=624,348
//AudioRecordQueue queue6; //xy=624,381
//AudioRecordQueue queue7; //xy=624,414
//AudioRecordQueue queue3; //xy=625,281
//AudioRecordQueue queue8; //xy=625,447
AudioRecordQueue queue2; //xy=626,248
AudioRecordQueue queue1; //xy=627,214
AudioConnection patchCord1(tdm1, 0, queue1, 0);
AudioConnection patchCord2(tdm1, 1, queue2, 0);
//AudioConnection patchCord3(tdm1, 2, queue3, 0);
//AudioConnection patchCord4(tdm1, 3, queue4, 0);
//AudioConnection patchCord5(tdm1, 4, queue5, 0);
//AudioConnection patchCord6(tdm1, 5, queue6, 0);
//AudioConnection patchCord7(tdm1, 6, queue7, 0);
//AudioConnection patchCord8(tdm1, 7, queue8, 0);
//AudioConnection patchCord9(tdm1, 8, queue9, 0);
//AudioConnection patchCord10(tdm1, 9, queue10, 0);
//AudioConnection patchCord11(tdm1, 10, queue11, 0);
//AudioConnection patchCord12(tdm1, 11, queue12, 0);
//AudioConnection patchCord13(tdm1, 12, queue13, 0);
//AudioConnection patchCord14(tdm1, 13, queue14, 0);
//AudioConnection patchCord15(tdm1, 14, queue15, 0);
//AudioConnection patchCord16(tdm1, 15, queue16, 0);
AudioControlSGTL5000 sgtl5000_1; //xy=369,479
// GUItool: end automatically generated code
// Use these with the Teensy Audio Shield
//#define SDCARD_CS_PIN 10
//#define SDCARD_MOSI_PIN 7
//#define SDCARD_SCK_PIN 14
// Use these with the Teensy 3.5 & 3.6 SD card
#define SDCARD_CS_PIN BUILTIN_SDCARD
#define SDCARD_MOSI_PIN 11 // not actually used
#define SDCARD_SCK_PIN 13 // not actually used
// Use these for the SD+Wiz820 or other adaptors
//#define SDCARD_CS_PIN 4
//#define SDCARD_MOSI_PIN 11
//#define SDCARD_SCK_PIN 13
// Remember which mode we're doing
int mode = 0; // 0=stopped, 1=recording
int choice = 0;
int sample_number = 0;
unsigned int tsamplemillis = 11000;
String typeofsound;
// The file where data is recorded
File frec;
void setup() {
Serial.begin(9600);
// Audio connections require memory, and the record queue
// uses this memory to buffer incoming audio.
AudioMemory(512);
// Initialize the SD card
SPI.setMOSI(SDCARD_MOSI_PIN);
SPI.setSCK(SDCARD_SCK_PIN);
if (!(SD.begin(SDCARD_CS_PIN))) {
// stop here if no SD card, but print a message
while (1) {
Serial.println("Unable to access the SD card");
delay(500);
}
}
while(!Serial);
Serial.println("Welcome to the beta version of Viband's TDM sound recorder, 11 second clips are going to be recorded, be \ncareful introducing a new type of sound already introduced since previous samples will be overwritten.");
Serial.println("\nNote: SD Library uses short 8.3 names (12 characters). Filename (i.e baby/baby24) can't be longer.");
}
void loop() {
if(choice==0){
Serial.println("\nIntroduce new type of sound (i.e baby): ");
while(!Serial.available());
typeofsound = Serial.readString();
sample_number = 0;
record(typeofsound,sample_number);
} else if(choice==1){
sample_number++;
record(typeofsound,sample_number);
} else {
//Do nothing
}
Serial.print("\nIntroduce 1 to take another sample or 0 to introduce a new type of sound: ");
while(!Serial.available());
choice = Serial.readString().toInt();
Serial.println(choice);
}
void record(String type, int number){
Serial.println("Recording " + type + String(number) + "...");
elapsedMillis recordingTime = 0;
String sname = type + number + ".RAW";
String path = type + "/" + type + number + ".RAW";
startRecording(sname, path, type);
while(recordingTime<tsamplemillis) continueRecording();
stopRecording();
}
void startRecording(String sname, String path, String type) {
int str_len = path.length()+1;
char charpath[str_len];
path.toCharArray(charpath,str_len);
if (SD.exists(charpath)) {
// The SD library writes new data to the end of the
// file, so to start a new recording, the old file
// must be deleted before new data is written.
SD.remove(charpath);
}
str_len = type.length()+1;
char chartype[str_len];
type.toCharArray(chartype,str_len);
if(!SD.exists(chartype)){
SD.mkdir(chartype);
}
frec = SD.open(charpath, FILE_WRITE);
if (frec) {
Serial.println("File Open");
queue1.begin();
queue2.begin();
// queue3.begin();
// queue4.begin();
// queue5.begin();
// queue6.begin();
// queue7.begin();
// queue8.begin();
// queue9.begin();
// queue10.begin();
// queue11.begin();
// queue12.begin();
// queue13.begin();
// queue14.begin();
// queue15.begin();
// queue16.begin();
mode = 1;
}
}
void continueRecording() {
if (queue1.available() >= 2 && queue2.available() >=2) {
uint16_t buffer1[128];
uint16_t buffer2[128];
memcpy(buffer1, queue1.readBuffer(), 256);
memcpy(buffer2, queue2.readBuffer(), 256);
queue1.freeBuffer();
queue2.freeBuffer();
for(int i = 0; i < 128; i ++){
frec.write(highByte(buffer2[i])); // LSB
frec.write(lowByte(buffer1[i])); // Middle Byte
frec.write(highByte(buffer1[i])); // MSB
//frec.write(lowByte(buffer2[i])); // Zeros
}
}
}
void stopRecording() {
Serial.println("Finished recording.");
queue1.end();
queue2.end();
queue1.clear();
queue2.clear();
frec.close();
mode = 0;
}
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