by: DCEM
Motivation
LeandraChristine needed a small solution for sound in a project. Since I was designing lots of PCB’s anyway I decided to also realize this one. Another requirement was fast responsiveness. The SimpleSDAudio-library from Tut provides just that. Tut helped quite a lot with the circuit design in this project.
We did a Reflow Workshop to build plenty of them.
Features
The board is carrying:
- Atmega328
- MAX9098306 3.7W stereo Class D amplifier
- SN74LVC2G14 dual Schmitt-Trigger with its own low noise power supply
- microSD-Card Slot
- 74LVC1G53DP Analog Switch, to set the gain of the Class D amplifier (3 levels)
The controller itself is running on 3.3V (because of the SD-Card). The supply voltage is 5V.
Choose between 8bit Stereo or 16bit mono Sound.
Board size: 15 x 30mm(0.6 x 1.2 inches)
8 Pins are accessible including i²C PINS
Connections
Design Files
Arduino code (for use with SimpleSDAudio library)
To make sure the code can be uploaded:
Set the Arduino IDE to - Board - Arduino Uno
Supply the pcb with 5V (in addition to your programmer)
Your speaker for this example should be attached to +/-1
/* Simple SD Audio bare minimum example, plays file EX1.MIX from root folder of SD card. This example shows how to use the SimpleSDAudio library with Chime http://hackerspace-ffm.de/wiki/index.php?title=HackFFM-Duino_Chime See SimpleSDAudio.h or our website for more information: http://www.hackerspace-ffm.de/wiki/index.php?title=SimpleSDAudio created 27 Sep 2015 by Lutz Lisseck */ #include <SimpleSDAudio.h> /* Chime Special function block start */ #define CHIME_GAIN_SW 2 #define CHIME_GAIN_EN A3 #define CHIME_SPK_EN A1 #define CHIME_LED 5 #define CHIME_SD_DET 8 #define CHIME_SD_CS 4 /* gain 0 off, 1 quiet, 2 loud */ void setupChime(unsigned char gain) { pinMode(CHIME_GAIN_SW, OUTPUT); pinMode(CHIME_GAIN_EN, OUTPUT); pinMode(CHIME_SPK_EN, OUTPUT); pinMode(CHIME_LED, OUTPUT); digitalWrite(CHIME_LED, LOW); pinMode(CHIME_SD_DET, INPUT_PULLUP); switch(gain) { case 0: // off digitalWrite(CHIME_SPK_EN, LOW); digitalWrite(CHIME_GAIN_EN, HIGH); digitalWrite(CHIME_GAIN_SW, LOW); break; case 1: // soft digitalWrite(CHIME_SPK_EN, HIGH); digitalWrite(CHIME_GAIN_EN, HIGH); digitalWrite(CHIME_GAIN_SW, LOW); break; default: // loud digitalWrite(CHIME_SPK_EN, HIGH); digitalWrite(CHIME_GAIN_EN, LOW); digitalWrite(CHIME_GAIN_SW, HIGH); break; } SdPlay.setSDCSPin(CHIME_SD_CS); } /* Chime Special function block end */ void setup() { // Open serial communications and wait for port to open: Serial.begin(9600); setupChime(2); // Using F("...") to avoid wasting RAM Serial.print(F("\nInitializing SD card...")); if (!SdPlay.init(SSDA_MODE_FULLRATE | SSDA_MODE_STEREO | SSDA_MODE_AUTOWORKER)) { Serial.println(F("initialization failed. Is FAT formated card inserted?")); Serial.print(F("Error code: ")); Serial.println(SdPlay.getLastError()); while(1); } else { Serial.println(F("Wiring is correct and a card is present.")); } Serial.print(F("Looking for EX1.MIX... ")); if(!SdPlay.setFile("EX1.MIX")) { Serial.println(F(" not found on card! Error code: ")); Serial.println(SdPlay.getLastError()); while(1); } else { Serial.println(F("found.")); } Serial.print(F("Playing... ")); SdPlay.play(); while(!SdPlay.isStopped()) { ; // no worker needed anymore :-) delay(500); digitalWrite(CHIME_LED, !digitalRead(CHIME_LED)); } Serial.println(F("done.")); SdPlay.deInit(); } void loop(void) { }
License
Licensing CC v4.0 Share-Alike (http://creativecommons.org/licenses/by-sa/4.0/)
I started out with the open log design. Although there is not much left of it, it was some help.
I also used libraries from sparkfun and adafruit.