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I am using Adafruit I2S MEMS Microphone Breakout for recording. ref. https://learn.adafruit.com/adafruit-i2s-mems-microphone-breakout?view=all

When i wire the Mic to RPI in Mono configuration as per below image I am able record audio using arecord command and below python code

enter image description here

arecord -D dmic_sv -c2 -r 48000 -f S32_LE -t wav -V mono -v recording.wav

Python Code snippet:

channels=1, rate=48000, frames_per_buffer=2400

def start_recording(self):
        try:
            self.logger.info("start_recording()> enter")
            # Use a stream with a callback in non-blocking mode
            self._stream = self._pa.open(format=pyaudio.paInt32,
                                            channels=self.channels,
                                            rate=self.rate,
                                            input=True,
                                            frames_per_buffer=self.frames_per_buffer,
                                            stream_callback=self.get_callback())
            self._stream.start_stream()
            self.logger.info("start_recording()> exit")
            return self
        except Exception, e:
            self.logger.error("start_recording()>", exc_info = True)

But If I connect channel selection pin to logic high vltage i am able to record audio using arecord command but uanble to record using python code. Any changes required in python code to record right channel mono audio?

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I did something similar but using python-sounddevice. Here's my repo

EDIT: here is the specific audio recording class for clarification

import threading
import queue
import numpy
import sounddevice as sd
import soundfile as sf

class AudioRecorder():

    def __init__(self):

        self.open = True
        self.file_name = 'name_of_file.wav'
        self.channels = 1
        self.q = queue.Queue()

        # Get samplerate
        device_info = sd.query_devices(2, 'input')
        self.samplerate = int(device_info['default_samplerate'])

    def callback(self, indata, frames, time, status):

        # This is called (from a separate thread) for each audio block.
        if status:
            print(status, file=sys.stderr)
        self.q.put(indata.copy())

    def record(self):
        with sf.SoundFile(self.file_name, mode='x', samplerate=self.samplerate, channels=self.channels) as file:
            with sd.InputStream(samplerate=self.samplerate, channels=self.channels, callback=self.callback):

                while(self.open == True):
                    file.write(self.q.get())

EDIT 2: The code is a Python Class that creates an audio file using an I2S microphone similar to the image shown in the question. While the value self.open is true, sounddevice will write the audio data into a queue (def callback) and then write the data into a file. All you have to do is toggle self.open to start and stop recording.

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  • Thanks Kyle for taking the previous feedback on board and providing the code from the link into the answer. Now to make this a good answer, it would be great if you could provide some explanation to the code, to help future readers :). (Also, it looks like some of your formatting is a little off) – WhatsThePoint Nov 27 '18 at 8:30

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