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SG/KA3525 PWM Controller



Introduction

Hey everyone in this session we learn how to use KA/SG3525 IC to make PWM controller circuit having feedback, low voltage and over heating protection.



Components

So lets take look at components we need to make this circuit -

1.SG/KA3525 IC

2.LM358 IC

3.LM555 IC

4.10K NTC

5.Variable resistor - 10K*4, 500K*1

6.16-pin, 8-pin IC Base

7.Capacitors - 1nF*2, 100nF*4, 2.2uF*1)

8.Resistors - 100R*1, 220R*2, 1K*10, 5.6K*1, 10K*6, 15K*2, 100K*1

9.BC547*1

10.LED*2

11.Push Button*1

12.Zero PCB







Working                                                                                                                           

In this circuit we used SG3525 to make PWM controller and use to drive mosfets or IGBT to make converters and this features adjustable frequency from 30Hz to 70KHz & adjust the duty cycle from 0% to 50% main thing you noticed that it consists of PC817 optocoupler which is used to correct or adjust output without having any direct contact, it is galvanic isolated. By using inverting and non-inverting pins and 5v reference pins to make feedback circuit and also this IC have SD-pin i.e. shut down pin, this pin used to protect from having low battery or Mosfet getting over heating or any kind of short circuit. The 5v reference pin is used to power LM358 and LM555 IC.


LM358 is used to Sence input voltage and mosfet temperature to stop PWM and main role of LM555 is acts as bi-stable multivibrator, when LM358 detects low voltage then it triggers 555 IC and it stays off untile reset push button is pressed to again activates the output.

Testing

First we need all components as shown then on breadboard place all components and test its properly working and then make on zero PCB. 

You can adjust frequency and duty cycle with the help of preset given in the circuit like in the picture.
                                            
            




                                                                                                                                                           
After all done this is the half version i.e. PWM and feedback controller     





Circuit Diagram                                                                                                              

Here is the final circuit diagram of KA3525 with LOW voltage, Over heating and Short circuit protection. In circuit you can see pin 16 which connected with vcc pins of LM358 and LM555 IC.


Hey friends if you have any problem regarding the circuit, components then ask me in comments.







Comments

  1. AnonymousMarch 19, 2023 at 5:24 AM

    Thanks for sharing!

    ReplyDelete
  2. AnonymousAugust 29, 2023 at 12:54 PM

    Pls sir, I need more explanation on the pins of the pwm controller module. Are the order of the pins in the circuit diagram the same with your finished pwm controller in the video you made. Thanks.

    ReplyDelete
  3. AnonymousJanuary 30, 2024 at 2:41 AM

    Please can you make a video of your Mobile phone Oscilloscope? Thank you.

    ReplyDelete
  4. AnonymousFebruary 12, 2024 at 10:02 PM

    How do I reach you by email? Can you add soft start?

    ReplyDelete
    Replies
    1. Innovation ICFebruary 13, 2024 at 7:18 PM

      It have soft start by using 2.2uF capacitor connected at pin-8 and GND

      Delete
  5. AnonymousMarch 5, 2024 at 4:13 AM

    hello sir, i am an electronic student at university and I designed an SMPS I used SG3525 but ı want to ask yo about feedback, ı hope you can back this message 🙏🏻

    ReplyDelete
  6. Jah'swillApril 29, 2024 at 2:27 AM

    Hello Sir, Can you make PCB for this ?

    ReplyDelete
    Replies
    1. Innovation ICJune 14, 2024 at 4:38 PM

      Watch this video -
      https://youtu.be/HL9gfEzcwbw

      Delete
  7. AnonymousJune 11, 2024 at 10:22 AM

    Hello dear sir please reply quickly as possible, I have made same circuit design but my circuit is not working, sg3525 outputs giving 5vots pin 11/14 but when connected to MOSFET gates with 20ohm, it's immediately shorting the MOSFET and sg3525 damaged, the transformer is 3+3 turn/ 80 turns

    ReplyDelete
    Replies
    1. Innovation ICJune 14, 2024 at 4:36 PM

      check the oscillator section this might cause the output is just stay high and causes the mosfets to short and also damages the sg3525
      This can be also test with connecting passive buzzer(not active) to test the correct signal is coming at output of SG3525

      Delete

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