Piezo Speaker

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Description

A Piezo-Speaker has two connectors and can generate sounds if you apply a frequency. One is + and one is -. If you connect it to the ESP + is connected to the Pin and - to GND. With the speaker in the LMUBox the long Pin is +.

Piezo Speaker close up.jpg Piezospeaker.PNG Piezospeaker1.PNG

How to connect it electrically

Piezzo.PNG

How to control it in MicroPython

Example code shows how you can play a melody with the speaker. If you want to add higher notes see https://en.wikipedia.org/wiki/Piano_key_frequencies for the needed frequency. The example code was taken and edited from https://micropython-on-esp8266-workshop.readthedocs.io/en/latest/basics.html#beepers.

There are some issues with restarting PWM outsputs - see Known Issues.

 1 # beeper code from https://micropython-on-esp8266-workshop.readthedocs.io/en/latest/basics.html#beepers
 2 from machine import Pin, PWM
 3 from time import sleep
 4 
 5 tempo = 4
 6 #notes and corresponding frequency
 7 tones = {
 8     'c': 262,
 9     'd': 294,
10     'e': 330,
11     'f': 349,
12     'g': 392,
13     'a': 440,
14     'b': 494,
15     'C': 523,
16     ' ': 0,
17 }
18 pin = Pin(27, Pin.OUT)
19 # Init Beeper without frequency.
20 beeper = PWM(pin, duty=512)
21 melody = 'cdefggaaaagaaaagffffeeddddc'
22 rhythm = [8, 8, 8, 8, 4, 4, 8, 8, 8, 8, 4, 8, 8, 8, 8, 4, 8, 8, 8, 8, 4, 4, 8, 8, 8, 8, 4]
23 
24 for tone, length in zip(melody, rhythm):
25     beeper.freq(tones[tone])
26     sleep(tempo/length)
27     
28 beeper.deinit()

Piezo Speaker.jpg Piezo Speaker close up.jpg

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