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Piezoelectricity is the charge which accumulates in

certain solid materials in response to mechanical pressure,

but also providing the charge to the piezoelectric material

causes it to physically deform. One of the most widely

used applications of piezoelectricity is the production of

sound generators, called piezo buzzers. Piezo buzzer is

an electric component that comes in dierent shapes and

sizes, which can be used to create sound waves when

provided with analog electrical signal. EasyPIC PRO

™

comes with piezo buzzer which can be connected to RB6

microcontroller pin. Connection is established using SW4.4

DIP switch. Buzzer is driven by transistor Q1 (Figure 15-1).

Microcontrollers can create sound by generating a PWM

(Pulse Width Modulated) signal – a square wave signal,

which is nothing more than a sequence of logic zeros and

ones. Frequency of the square signal determines

the pitch of the generated sound, and duty cycle of

the signal can be used to increase or decrease the

volume in the range from 0% to 100% of the duty

cycle. You can generate PWM signal using hardware

capture-compare module, which is usually available in

most microcontrollers, or by writing a custom software

which emulates the desired signal waveform.

Supported sound frequencies

Piezo buzzer’s resonant frequency (where you can expect

it's best performance) is 3.8kHz, but you can also use it to

create sound in the range between 2kHz and 4kHz.

Figure 15-2:

Turn ON

SW4.4 to

connect

Piezo buzzer

driver to

RB6 pin

PERSPECTIVE

VIEW

TOP

VIEW

DATA BUS

In order to use the on-board Piezo Buzzer in

your application, you rst have to connect the

transistor driver of piezo buzzer to the appropriate

microcontroller pin. This is done using SW4.4 DIP

switch. Once the switch is in ON position, it connects

the buzzer driver to RB6 microcontroller pin.

Buzzer starts "singing" when you provide

PWM signal from the microcontroller

to the buzzer driver. The pitch of the

sound is determined by the frequency,

and amplitude is determined by the

duty cycle of the PWM signal.

Enabling Piezo Buzzer

How to make it sing?

Figure 15-1: Piezo

buzzer connected to

RB6 microcontroller

pin via SW4.4

Freq = 3kHz, Duty Cycle = 50%

Freq = 3kHz,

Volume = 50%

Freq = 3kHz,

Volume = 80%

Freq = 3kHz,

Volume = 20%

Freq = 3kHz, Duty Cycle = 80%

Freq = 3kHz, Duty Cycle = 20%

Piezo Buzzer

page 29

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