コード例 #1
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def setup():
    #setup pixels
    pixelBrightness = 0.05
    pixels = neopixel.NeoPixel(
        board.NEOPIXEL, 10, brightness=pixelBrightness
    )  #determine beightness (Value can be between 0 and 1)

    #setup recording
    recordLength = 5
    SAMPLERATE = 8000
    NUM_SAMPLES = 160

    ##setup  speaker
    spkrenable = DigitialInOut(bouard.SPEAKER_ENABLE)
    spkrenable.direction = Direction.OUTPUT
    spkrenable.value = True

    #setup recording
    mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                           board.MICROPHONE_DATA,
                           sample_rate=16000,
                           bit_depth=16)

    samples = array.array('H', [0] * NUM_SAMPLES)

    #debounce time
    debounceTime = 0.2

    buttonD = DigitalInOut(board.BUTTON_A)  #button a is the down button
    buttonD.direction = Direction.INPUT
    buttonD.pull = Pull.DOWN

    buttonU = DigitalInOut(board.BUTTON_B)  # button b is the up button
    buttonU.direction = Direction.INPUT
    buttonU.pull = Pull.DOWN
コード例 #2
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def microphoneRead():
    b = array.array("H")
    for i in range(200):
        b.append(0)
    with audiobusio.PDMIn(board.MICROPHONE_CLOCK, board.MICROPHONE_DATA, bit_depth=16) as mic:
        mic.record(b, len(b))

    time.sleep(2)
    print(normalized_rms(b))
コード例 #3
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 def __init__(self, board, button, samples):
     super().__init__(button)
     self.samples = samples
     self.board = board
     self.mic = audiobusio.PDMIn(
             board.TX,
             board.D12,
             sample_rate=16000,
             bit_depth=16)
コード例 #4
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    def __init__(self):
        # Define I2C:
        self._i2c = board.I2C()

        # Define touch:
        # Initially, self._touches stores the pin used for a particular touch. When that touch is
        # used for the first time, the pin is replaced with the corresponding TouchIn object.
        # This saves a little RAM over using a separate read-only pin tuple.
        # For example, after `clue.touch_2`, self._touches is equivalent to:
        # [board.D0, board.D1, touchio.TouchIn(board.D2)]
        self._touches = [board.D0, board.D1, board.D2]
        self._touch_threshold_adjustment = 0

        # Define buttons:
        self._a = digitalio.DigitalInOut(board.BUTTON_A)
        self._a.switch_to_input(pull=digitalio.Pull.UP)
        self._b = digitalio.DigitalInOut(board.BUTTON_B)
        self._b.switch_to_input(pull=digitalio.Pull.UP)
        self._gamepad = gamepad.GamePad(self._a, self._b)

        # Define LEDs:
        self._white_leds = digitalio.DigitalInOut(board.WHITE_LEDS)
        self._white_leds.switch_to_output()
        self._pixel = neopixel.NeoPixel(board.NEOPIXEL, 1)
        self._red_led = digitalio.DigitalInOut(board.L)
        self._red_led.switch_to_output()

        # Define audio:
        self._mic = audiobusio.PDMIn(
            board.MICROPHONE_CLOCK,
            board.MICROPHONE_DATA,
            sample_rate=16000,
            bit_depth=16,
        )
        self._sample = None
        self._samples = None
        self._sine_wave = None
        self._sine_wave_sample = None

        # Define sensors:
        # Accelerometer/gyroscope:
        self._accelerometer = adafruit_lsm6ds.LSM6DS33(self._i2c)

        # Magnetometer:
        self._magnetometer = adafruit_lis3mdl.LIS3MDL(self._i2c)

        # DGesture/proximity/color/light sensor:
        self._sensor = adafruit_apds9960.apds9960.APDS9960(self._i2c)

        # Humidity sensor:
        self._humidity = adafruit_sht31d.SHT31D(self._i2c)

        # Barometric pressure sensor:
        self._pressure = adafruit_bmp280.Adafruit_BMP280_I2C(self._i2c)

        # Create displayio object for passing.
        self.display = board.DISPLAY
コード例 #5
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def is_hardware_PDM(clock, data):
    try:
        p = audiobusio.PDMIn(clock, data)
        p.deinit()
        return True
    except ValueError:
        return False
    except RuntimeError:
        return True
コード例 #6
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    def __init__(self, sample_rate=16000, bit_depth=16):
        self.mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                                    board.MICROPHONE_DATA,
                                    sample_rate=sample_rate,
                                    bit_depth=bit_depth)

        # Record an initial sample to calibrate. Assume it's quiet when we start.
        self.mic.record(self.samples, len(self.samples))
        # Set lowest level to expect, plus a little.
        self.min_magnitude = normalized_rms(self.samples) + 10

        # Corresponds to sensitivity: lower means more pixels light up with lower sound
        # Adjust this as you see fit.
        self.max_magnitude = self.min_magnitude + 500
コード例 #7
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    def __init__(self):
        # Define I2C:
        self._i2c = cutebot._i2c

        # Define buttons:
        self._a = digitalio.DigitalInOut(board.BUTTON_A)
        self._a.switch_to_input(pull=digitalio.Pull.UP)
        self._b = digitalio.DigitalInOut(board.BUTTON_B)
        self._b.switch_to_input(pull=digitalio.Pull.UP)
        self._gamepad = gamepad.GamePad(self._a, self._b)

        # Define LEDs:
        self._white_leds = digitalio.DigitalInOut(board.WHITE_LEDS)
        self._white_leds.switch_to_output()
        self._pixel = neopixel.NeoPixel(board.NEOPIXEL, 1)
        self._red_led = digitalio.DigitalInOut(board.L)
        self._red_led.switch_to_output()

        # Define audio:
        self._mic = audiobusio.PDMIn(
            board.MICROPHONE_CLOCK,
            board.MICROPHONE_DATA,
            sample_rate=16000,
            bit_depth=16,
        )
        self._sample = None
        self._samples = None
        self._sine_wave = None
        self._sine_wave_sample = None

        # Define sensors:
        # Accelerometer/gyroscope:
        self._accelerometer = adafruit_lsm6ds.lsm6ds33.LSM6DS33(self._i2c)

        # Magnetometer:
        self._magnetometer = adafruit_lis3mdl.LIS3MDL(self._i2c)

        # DGesture/proximity/color/light sensor:
        self._sensor = adafruit_apds9960.apds9960.APDS9960(self._i2c)

        # Humidity sensor:
        self._humidity = adafruit_sht31d.SHT31D(self._i2c)

        # Barometric pressure sensor:
        self._pressure = adafruit_bmp280.Adafruit_BMP280_I2C(self._i2c)

        # Create displayio object for passing.
        self.display = board.DISPLAY
コード例 #8
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    def __init__(self, numberOfSamples=64):
        self._NUM_SAMPLES = numberOfSamples
        self._SCALE_EXPONENT = math.pow(10, 2 * -0.1)  # curve is 2
        self._mic = audiobusio.PDMIn(
            board.MICROPHONE_CLOCK, board.MICROPHONE_DATA, sample_rate=16000, bit_depth=16)

        # Record an initial sample to calibrate. Assume it's quiet when we start.
        self._samples = array.array('H', [0] * self._NUM_SAMPLES)
        self._mic.record(self._samples, len(self._samples))

        # Set lowest level to expect, plus a little.
        self._input_floor = self.normalized_rms(self._samples) + 10
        self._input_ceiling = self._input_floor + 500
        self._level = 0
        self._magnitude = 0
        self._enabled = False
コード例 #9
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    def __init__(self):
        # Only create the cpb module member when we aren't being imported by Sphinx
        if ("__module__" in dir(digitalio.DigitalInOut)
                and digitalio.DigitalInOut.__module__ == "sphinx.ext.autodoc"):
            return

        super().__init__()

        self._sample = None

        # Define mic/sound sensor:
        self._mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                                     board.MICROPHONE_DATA,
                                     sample_rate=16000,
                                     bit_depth=16)
        self._samples = None
コード例 #10
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ファイル: cpx_sound_meter.py プロジェクト: eviljoel/cpx
    return sum(values) / len(values)


def volume_color(i):
    return i * (255 // NUM_PIXELS), 50, 0


pixels = neopixel.NeoPixel(board.NEOPIXEL,
                           NUM_PIXELS,
                           brightness=0.1,
                           auto_write=False)
pixels.fill(0)
pixels.show()

mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                       board.MICROPHONE_DATA,
                       sample_rate=16000,
                       bit_depth=16)
samples = array.array('H', [0] * NUM_SAMPLES)
mic.record(samples, len(samples))
input_floor = normalized_rms(samples) + 10

# Lower number means more sensitive - more LEDs will light up with less sound.
sensitivity = 500
input_ceiling = input_floor + sensitivity
peak = 0
tip = 0
decay = 0
while True:
    mic.record(samples, len(samples))
    magnitude = normalized_rms(samples)
    print((magnitude), )
コード例 #11
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ファイル: code_clap_on_start.py プロジェクト: 82d28a/ladyadas
def volume_color(i):
    return (200, i * (255 // NUM_PIXELS), 0)


# Main program.

# Set up NeoPixels and turn them all off.
pixels = neopixel.NeoPixel(board.NEOPIXEL,
                           NUM_PIXELS,
                           brightness=0.1,
                           auto_write=False)
pixels.fill(0)
pixels.show()

mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                       board.MICROPHONE_DATA,
                       frequency=16000,
                       bit_depth=16)
# Record an initial sample to calibrate. Assume it's quiet when we start.
samples = array.array('H', [0] * NUM_SAMPLES)
mic.record(samples, len(samples))
# Set lowest level to expect, plus a little.
input_floor = normalized_rms(samples) + 10
# OR: used a fixed floor
# input_floor = 50

# You might want to print the input_floor to help adjust other values.
# print(input_floor)

# Corresponds to sensitivity: lower means more pixels light up with lower sound
# Adjust this as you see fit.
input_ceiling = input_floor + 500
コード例 #12
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from adafruit_pybadger import PyBadger
import array
import math
import time
import audiobusio
import displayio
import board

pybadger = PyBadger()
pybadger.auto_dim_display(delay=30)

first_display = True
run_slow = False

mic = audiobusio.PDMIn(board.TX, board.D12, sample_rate=16000, bit_depth=16)

samples1 = array.array('H', [0] * 150)

display = board.DISPLAY

# To synchronize the display update to the waveform update,
# turn off automatic display refresh.
# Use explicit refresh function calls to update the display.
# The display refresh feature requires CircuitPython v5.0.0 or later.

board.DISPLAY.auto_refresh = False

# Create a bitmap with two colors
ncolors = 3
bitmap = displayio.Bitmap(display.width, display.height, ncolors)
def record():
    """ Returns a buffer of recorded sound."""
    buf = bytearray(8000)
    with audiobusio.PDMIn(MICROPHONE_CLOCK, MICROPHONE_DATA) as mic:
        mic.record(buf, len(buf))
    return buf
コード例 #14
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ファイル: main.py プロジェクト: notionparallax/sensicorn
import audiobusio
import board
import array

# Prep a buffer to record into
b = bytearray(200)
with audiobusio.PDMIn(board.MICROPHONE_CLOCK, board.MICROPHONE_DATA) as mic:
    print(mic)
コード例 #15
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import array
import math

buf = bytearray(4000)

print(3)
time.sleep(1)
print(2)
time.sleep(1)
print(1)
time.sleep(1)
print("recording", time.monotonic())
trigger = digitalio.DigitalInOut(board.A1)
trigger.switch_to_output(value=True)
with audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                      board.MICROPHONE_DATA,
                      frequency=16000) as mic:
    mic.record(buf, len(buf))
trigger.value = False
print("done recording", time.monotonic())

for i in buf[:10]:
    print(i)
print(min(buf), max(buf))
time.sleep(0.1)

speaker_enable = digitalio.DigitalInOut(board.SPEAKER_ENABLE)
speaker_enable.switch_to_output(value=True)
trigger.value = True

length = 16000 // 440
コード例 #16
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    return sum(values) / len(values)


def normalized_rms(values):
    minbuf = int(mean(values))
    samples_sum = sum(
        float(sample - minbuf) * (sample - minbuf) for sample in values)

    return math.sqrt(samples_sum / len(values))


# signed 16 bit
s16 = array.array("H", [0] * 10000)

pdm = audiobusio.PDMIn(clock_pin=board.D11,
                       data_pin=board.D12,
                       sample_rate=24000,
                       bit_depth=16)

print("starting read")
trigger.value = False
count = pdm.record(s16, len(s16))
trigger.value = True
print("read done")
print("recorded {} samples".format(count))
for v in s16[:count]:
    print(v)

magnitude = normalized_rms(s16)
print("magnitude", magnitude)

print("count", count)
コード例 #17
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ファイル: PDM_mic.py プロジェクト: notionparallax/sensicorn
# record PDM mic to SPI memory
import audiobusio
import board

# Prep a buffer to record into. The array interface doesn't allow for
# constructing with a set size so we append to it until we have the size
# we want.
b = array.array("H")
for i in range(200):
    b.append(0)
with audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                      board.MICROPHONE_DATA,
                      bit_depth=16) as mic:
    mic.record(b, len(b))
コード例 #18
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ファイル: code_dev.py プロジェクト: ishaanv/Indoor-CPE
        but is extremely slow
    """
    pixels = neopixel.NeoPixel(board.NEOPIXEL,
                               c.NUM_PIXELS,
                               brightness=1,
                               auto_write=False)
    """ Initialise thermistor. """
    thermistor = adafruit_thermistor.Thermistor(board.TEMPERATURE, c.RMEASURED,
                                                c.NOMINALRESISTOR,
                                                c.NOMINALTEMPERATURE,
                                                c.BETACOEF)
    """ Initialise light ADC. """
    light = AnalogIn(board.LIGHT)
    """ Initialise sound measurements. """
    mic = audiobusio.PDMIn(board.MICROPHONE_CLOCK,
                           board.MICROPHONE_DATA,
                           sample_rate=c.SAMPLE_RATE,
                           bit_depth=c.BIT_DEPTH)
    # Record an initial sample to calibrate. Assume it's quiet when we start.
    # TODO: this is dangerous, get rid of it
    # an array of unsigned shorts ('H')
    samples = array.array('H', [0] * c.NUM_SAMPLES)
    mic.record(samples, len(samples))

# Set lowest level to expect, plus a little.
# input_floor = normalised_rms(samples) + 10

# TODO: does this line need to be here?
light_last = temp_last = sound_last = neopixel_last = time.monotonic()


def mean(values):