Electronic Piano Using 555 Timer IC | Easy | DIY | Homemade | Simple Electronics Projects


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Introduction: Electronic Piano Using 555 Timer IC | Easy | DIY | Homemade | Simple Electronics Projects

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Electronic Piano Using 555 Timer IC | Easy | DIY | Simple Electronics Projects simple piano electric piano

Hello , Today In This Tutorial I Am Going To Show You Step By Step ( Home Made ) How to make Electronic Piano Using 555 Timer IC Electronic Project

This Electronic Project is Very Simple Easy and DIY (Do It Yourself)

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Step 1: Hardware Required

  • (1) +9 to +12 supply voltage
  • (2) 555 timer IC
  • (3) 100Ω, 10KΩ (5pieces) and 2K2Ω resistors
  • (4) 100KΩ pot or variable resistor
  • (5) 0.1µF and 10µF capacitors, 100µF capacitor (not a compulsory, connected in parallel to power)
  • (6) Buttons(6 pieces)
  • (7) Speaker (8Ω,0.5WATT).

Step 2: Circuit Diagram

Step 3: Description

Piano is developed by connecting a 555 timer ASTABLE multivibrator
with variable frequency to a speaker. Piano is a wonderful musical instrument and one can make a cheap one using 555 timer IC chip. This concept of piano is achieved by making the timer generate 5-15 different kind of sounds. The different sounds are generated through timer by allowing it to run as free running mode or astable mode or square wave mode, with variable frequency output option.

Before going for circuit, one should understand
how the frequency output of square wave generated by free running timer can be changed.

The figure shown below is a mere square wave generator. In the third formula it can be see that the frequency of output square wave is inversely related to R2 (in the piano circuit it is a button network). So if R2 increases the frequency decreases. This changing frequency with changing resistance when connected to speaker we get different sounds.

The below figure shows the circuit diagram of piano or ASTABLE with different frequencies. In
this circuit consider a case, a button first from left is pressed, the resistance between pin7 and pin6 goes as (100+POT resistance). For example consider the frequency generated here is 1KHz square wave and so we get a tone. Now if the second from left is pressed, the resistance between pin7 and pin6 goes as (100+Pot resistance+10K resistance), now here the frequency of square wave generated is different from that of first one as the effective resistance have changed between pin7 and 6. With this frequency change of square wave, we get a different tone to the first one. This is how every button is set up in the circuit.

So every time a button is pressed a different
amount of resistance gets connected to generate a different frequency square wave and so we get a different tone for different button. This concept is used to generate the whole combinations of tones form the piano.

To make this more interesting (and usable too!), the number of tones in this piano circuit can be increased by connecting more resistor buttons configuration. So we can get more than ten tones depending on one’s choice.

The pot is to adjust for a pleasant tone. The 10K resistors can be replaced with any kind of resistances depending on the convenience.

Step 4: Datasheet



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