This device connects with a pyControl breakout to play audio tones. A Teensy 3.2 generates an i2s audio signal which is later decompressed and amplified by the SGTL5000 codec IC. A left and right amplified signal is output to two separate mono headphone jacks. The design of this pcb is based on the Teensy Audio Adaptor Board.
| Qty | Reference | Description | Value/MPN |
|---|---|---|---|
| 3 | C2, C3, C7 | 0603 Capacitor | 100nF |
| 1 | C4 | 0603 Capacitor | 150nF |
| 2 | C5, C1 | 0603 Capacitor | 1.0µF |
| 1 | C6 | 0603 Capacitor | 2.2µF |
| 1 | FB1 | 0603 Ferrite Bead | 600Ω @ 100MHz |
| 1 | J1 | RJ45 Jack | 54602-908LF |
| 2 | J3, J2 | 14pin Female Header | SSM-114-L-SV-BE |
| 2 | J4, J5 | Mono Audio Jack | 4832.2230 |
| 1 | R1 | 0603 Resistor | 100Ω |
| 2 | R3, R2 | 0603 Resistor | 2.2KΩ |
| 1 | U2 | 1.8V LDO Regulator | AP7313 |
| 1 | U3 | Codec IC | SGTL5000 |
This following firmware creates 6.5KHz and 14KHz sine waves that are frequency modulated at 6.66 Hz. It responds to commands received over serial UART. 'L' plays the left tone, 'R' plays the right tone, 'S' stops playing both tones, 'V,5' adjust the volume to 5. This firmware is loaded onto the Teensy microcontroller.
#include <Audio.h>
#include <Wire.h>
#include <SPI.h>
#include <SD.h>
#include <SerialFlash.h>
// GUItool: begin automatically generated code
AudioSynthWaveformSine modulation; //xy=323.0056381225586,328.0056438446045
AudioSynthWaveformModulated left_tone; //xy=530.0056648254395,308.0056457519531
AudioSynthWaveformModulated right_tone; //xy=533.1874694824219,363.0965919494629
AudioMixer4 mixer; //xy=719.1874771118164,330.0965805053711
AudioOutputI2S i2s; //xy=868.0056648254395,332.0056505203247
AudioConnection patchCord1(modulation, 0, left_tone, 0);
AudioConnection patchCord2(modulation, 0, right_tone, 0);
AudioConnection patchCord3(left_tone, 0, mixer, 0);
AudioConnection patchCord4(right_tone, 0, mixer, 1);
AudioConnection patchCord5(mixer, 0, i2s, 0);
AudioConnection patchCord6(mixer, 0, i2s, 1);
AudioControlSGTL5000 codec; //xy=607.0056762695312,492.0056781768799
// GUItool: end automatically generated code
int current_waveform=0;
const int LED = 13;
void setup() {
// put your setup code here, to run once:
AudioMemory(10);
codec.enable();
codec.volume(0.10);
modulation.frequency(20/3.0);
modulation.amplitude(.019);
left_tone.frequency(6500);
left_tone.amplitude(1.0);
right_tone.frequency(14000);
right_tone.amplitude(1.0);
mixer.gain(0,0);
mixer.gain(1,0);
current_waveform = WAVEFORM_SINE;
left_tone.begin(current_waveform);
right_tone.begin(current_waveform);
Serial1.begin(9600);
pinMode(LED,OUTPUT);
digitalWrite(LED,LOW);
}
void loop() {
if (Serial1.available()){
char msg = Serial1.read();
if (msg=='L' | msg == 'R' | msg == 'S' | msg == 'V'){
if (msg=='L'){ // left tone
mixer.gain(0,1);
mixer.gain(1,0);
digitalWrite(LED,HIGH);
}
else if (msg=='R'){ //right tone
mixer.gain(0,0);
mixer.gain(1,1);
digitalWrite(LED,HIGH);
}
else if (msg=='S'){
mixer.gain(0,0);
mixer.gain(1,0);
digitalWrite(LED,LOW);
}
else if (msg=='V'){
float volume = parseData();
volume = 2*volume/100.0;
codec.volume(volume);
}
}
}
}
int parseData(){
char msgData[10] = "";
Serial1.readBytesUntil('\n',msgData,10);
char* msgPointer;
msgPointer = strtok(msgData,",");
return atoi(msgPointer);
}from machine import UART
from array import array
class Teensy_audio():
def __init__(self, port):
assert port.UART is not None, '! Teensy Audio Player needs a port with UART.'
self.uart = UART(port.UART, 9600)
self.uart.init(9600, bits=8, parity=None, stop=1, timeout=1)
self.uart.write('S')
def play(self, side):
if side == 'Left':
self.uart.write('L')
elif side == 'Right':
self.uart.write('R')
return True
def stop(self):
self.uart.write('S')
return False
def set_volume(self, volume): # Between 1 - 65
self.uart.write('V,{}'.format(volume))The start and stop latencies are both about 6.5 ± 1 ms
