Pulse Width Modulation | PWM Circuit Using 555 Timer IC | How to | DIY | Easy

PWM (Pulse Width Modulation) is a important feature of today’s every microcontroller due to its requirement for controlling many devices in every field of Electronics almost. PWM is widely used for motor controlling, lighting controlling etc. Sometime we do not use microcontroller in our applications and if we need to generate PWM without microcontroller then we prefer some general purpose ICs like op-amp, timers, pulse generators etc. Here we are using a 555 timer IC for generating PWM. 555 Timer IC is a very useful and general purpose IC which can be used in many applications.

Hardware Required:

  1. 555 timer IC -1
  2. 10K pot -1
  3. 100ohm resistor -1
  4. 0.1uF capacitor -1
  5. 1k resistor -1 (optional)
  6. Bread board -1
  7. 9v Battery -1
  8. LED -1
  9. Multimeter or CRO -1
  10. Jumper wire –
  11. Battery connector -1

Circuit Diagram:

PWM Generation Circuit Diagram
PWM Generation Circuit Diagram

Working Explanation:

What is a PWM Signal?

Pulse Width Modulation (PWM) is a digital signal which is most commonly used in control circuitry. This signal is set high (5v) and low (0v) in a predefined time and speed. The time during which the signal stays high is called the “on time” and the time during which the signal stays low is called the “off time”.  There are two important parameters for a PWM as discussed below:

Duty cycle of the PWM:

The percentage of time in which the PWM signal remains HIGH (on time) is called as duty cycle. If the signal is always ON it is in 100% duty cycle and if it is always off it is 0% duty cycle.

Duty Cycle =Turn ON time/ (Turn ON time + Turn OFF time)

Frequency of a PWM:

The frequency of a PWM signal determines how fast a PWM completes one period. One Period is complete ON and OFF of a PWM signal as shown in the above figure. In our tutorial we will set a frequency of 5KHz.

We can notice if LED being OFF for half second and LED being ON for other half second. But if Frequency of ON and OFF times increased from ‘1 per second’ to ’50 per second’. The human eye cannot capture this frequency. For a normal eye the LED will be seen, as glowing with half of the brightness. So with further reduction of ON time the LED appears much lighter.

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