사운드센서를 이용하여 일정한 소리크기 이상이 들어오면 웨이브쉴드를 작동하는 작업을 하려고 합니다.
예제중에 analoginoutserial을 통해 사운드센서가 작동하는 걸 확인했고
웨이브쉴드예제를 통해 노래가 따로 동작하는 걸 확인해서 이 둘을 합치려고 합니다.
그런데 시리얼모니터확인이 안되서 이게 작동하는건지 잘 모르겠네요.
뭐가문제일까요....ㅠㅠ
#include <FatReader.h>
#include <SdReader.h>
#include <avr/pgmspace.h>
#include "WaveUtil.h"
#include "WaveHC.h"
SdReader card; // This object holds the information for the card
FatVolume vol; // This holds the information for the partition on the card
FatReader root; // This holds the information for the filesystem on the card
FatReader f; // This holds the information for the file we're play
WaveHC wave; // This is the only wave (audio) object, since we will only play one at a time
const int numReadings = 300;
const int analogInPin = A0; // Analog input pin that the potentiometer is attached to
int readings[numReadings]; // the readings from the analog input
int readIndex = 0; // the index of the current reading
int total = 0; // the running total
int average = 0; // the average
int Threshold = 410;
int averageNoise = 0;
// this handy function will return the number of bytes currently free in RAM, great for debugging!
int freeRam(void)
{
extern int __bss_end;
extern int *__brkval;
int free_memory;
if((int)__brkval == 0) {
free_memory = ((int)&free_memory) - ((int)&__bss_end);
}
else {
free_memory = ((int)&free_memory) - ((int)__brkval);
}
return free_memory;
}
void sdErrorCheck(void)
{
if (!card.errorCode()) return;
putstring("\n\rSD I/O error: ");
Serial.print(card.errorCode(), HEX);
putstring(", ");
Serial.println(card.errorData(), HEX);
while(1);
}
void setup() {
byte i;
// set up serial port
Serial.begin(9600);
putstring_nl("WaveHC with ");
putstring("Free RAM: "); // This can help with debugging, running out of RAM is bad
Serial.println(freeRam()); // if this is under 150 bytes it may spell trouble!
// Set the output pins for the DAC control. This pins are defined in the library
pinMode(2, OUTPUT);
pinMode(3, OUTPUT);
pinMode(4, OUTPUT);
pinMode(5, OUTPUT);
for (int thisReading = 0; thisReading < numReadings; thisReading++){
readings[thisReading] = 0; }
// if (!card.init(true)) { //play with 4 MHz spi if 8MHz isn't working for you
if (!card.init()) { //play with 8 MHz spi (default faster!)
putstring_nl("Card init. failed!"); // Something went wrong, lets print out why
sdErrorCheck();
while(1); // then 'halt' - do nothing!
}
// enable optimize read - some cards may timeout. Disable if you're having problems
card.partialBlockRead(true);
// Now we will look for a FAT partition!
uint8_t part;
for (part = 0; part < 5; part++) { // we have up to 5 slots to look in
if (vol.init(card, part))
break; // we found one, lets bail
}
if (part == 5) { // if we ended up not finding one :(
putstring_nl("No valid FAT partition!");
sdErrorCheck(); // Something went wrong, lets print out why
while(1); // then 'halt' - do nothing!
}
// Lets tell the user about what we found
putstring("Using partition ");
Serial.print(part, DEC);
putstring(", type is FAT");
Serial.println(vol.fatType(),DEC); // FAT16 or FAT32?
// Try to open the root directory
if (!root.openRoot(vol)) {
putstring_nl("Can't open root dir!"); // Something went wrong,
while(1); // then 'halt' - do nothing!
}
// Whew! We got past the tough parts.
putstring_nl("Ready!");
TCCR2A = 0;
TCCR2B = 1<<CS22 | 1<<CS21 | 1<<CS20;
//Timer2 Overflow Interrupt Enable
TIMSK2 |= 1<<TOIE2;
}
void loop() {
// subtract the last reading:
total= total - readings[readIndex];
// read from the sensor:
readings[readIndex] = analogRead(analogInPin);
// add the reading to the total:
total= total + readings[readIndex];
// advance to the next position in the array:
readIndex = readIndex + 1;
// if we're at the end of the array...
if (readIndex >= numReadings)
// ...wrap around to the beginning:
readIndex = 0;
// calculate the average:
average = total / numReadings;
// send it to the computer as ASCII digits
//Serial.println(average);
delay(1); // delay in between reads for stability
averageNoise = average;
Serial.print("averageNoise = " );
Serial.print(averageNoise);
if (averageNoise > Threshold) {
playcomplete("MUST.WAV");
}
else{
wave.stop();
}
// wait 20000 milliseconds(20 sec) before the next loop
// for the analog-to-digital converter to settle
// after the last reading:
delay(20000);
}
void HIGH_OUTPUT() {
digitalWrite(digitalOutPin,HIGH);
delay(200);
digitalWrite(digitalOutPin,LOW);
}
void LOW_OUTPUT() {
digitalWrite(digitalOutPin,LOW);
}
// Plays a full file from beginning to end with no pause.
void playcomplete(char *name) {
// call our helper to find and play this name
playfile(name);
while (wave.isplaying) {
// do nothing while its playing
}
// now its done playing
}
void playfile(char *name) {
// see if the wave object is currently doing something
if (wave.isplaying) {// already playing something, so stop it!
wave.stop(); // stop it
}
// look in the root directory and open the file
if (!f.open(root, name)) {
putstring("Couldn't open file "); Serial.print(name); return;
}
// OK read the file and turn it into a wave object
if (!wave.create(f)) {
putstring_nl("Not a valid WAV"); return;
}
// ok time to play! start playback
wave.play();
}
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