Query the number of amplitudes available for reading using read()
amplitudeAnalyzer.available();
The number of amplitudes available for reading using read()
/*
This example reads audio data from an InvenSense ICS-43432 I2S microphone
breakout board, and prints out the amplitude to the Serial Monitor. The
Serial Plotter built into the Arduino IDE (Tools -> Serial Plotter) can be
used to plot the audio amplitude data.
Circuit:
* Arduino Zero, MKR Zero or MKR1000 board
* ICS-43432:
* GND connected GND
* 3.3V connected 3.3V (Zero) or VCC (MKR1000, MKR Zero)
* WS connected to pin 0 (Zero) or pin 3 (MKR1000, MKR Zero)
* CLK connected to pin 1 (Zero) or pin 2 (MKR1000, MKR Zero)
* SD connected to pin 9 (Zero) or pin A6 (MKR1000, MKR Zero)
created 23 November 2016
by Sandeep Mistry
*/
#include <ArduinoSound.h>
// create an amplitude analyzer to be used with the I2S input
AmplitudeAnalyzer amplitudeAnalyzer;
void setup() {
// Open serial communications and wait for port to open:
// A baud rate of 115200 is used instead of 9600 for a faster data rate
// on non-native USB ports
Serial.begin(115200);
while (!Serial) {
; // wait for serial port to connect. Needed for native USB port only
}
// setup the I2S audio input for 44.1 kHz with 32-bits per sample
if (!AudioInI2S.begin(44100, 32)) {
Serial.println("Failed to initialize I2S input!");
while (1); // do nothing
}
// configure the I2S input as the input for the amplitude analyzer
if (!amplitudeAnalyzer.input(AudioInI2S)) {
Serial.println("Failed to set amplitude analyzer input!");
while (1); // do nothing
}
}
void loop() {
// check if a new analysis is available
if (amplitudeAnalyzer.available()) {
// read the new amplitude
int amplitude = amplitudeAnalyzer.read();
//dB relative to full scale
int dpFS = 20 * log10(abs(amplitude));
// print out the decibel to the serial monitor
Serial.println(dpFS);
}
}