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Arduino Mosquito Repeller

Saturday August 24, 2024 / Ibrar Ayyub
Categories: Other Projects
Tags: connectors, pcb, terminal
Contents hide
1 Step 1: Tools and Components
2 Step 2: Measuring
3 Step 3: Cutting
4 Step 4: Circuit

In this tutorial, I will demonstrate how to create a mosquito repellent device with the help of an Arduino. The repellent comes in a shield form that can be connected to the Arduino board, allowing for easy modification of its frequency.

This project is perfect for camping and hiking outdoor activities, as it emits a 31KHz Frequency sound that works as a mosquito repellent. This device can be tuned to different frequencies and also functions as a dog whistle between 23 kHz and 54 kHz. These frequency ranges are not detected by human ears.

You have the option to watch the video below to learn how to construct this project.

https://youtu.be/KsspeH1-t90

Step 1: Tools and Components

Here is a list of the components and tools required, the list is simple and all you need is

  • Arduino Uno
  • PCB
  • Piezoelectric Disk
  • Header Pins
  • A breadboard (optional)
  • Wires
  • Soldering Iron
  • Soldering Lead

Step 2: Measuring

This tutorial will show how to make a mosquito repellent device using an Arduino. The shield-shaped repellent can be attached to the Arduino board for simple adjustment of its frequency.

This project is ideal for outdoor camping and hiking activities, as it produces a 31KHz Frequency sound that acts as a mosquito repellent. This gadget has the ability to be adjusted to various frequencies and can also double as a dog whistle ranging from 23 kHz to 54 kHz. Human ears are unable to detect these frequency ranges.

You can choose to view the video below for instructions on how to build this project.

Step 3: Cutting

Once the headers are soldered, remove the extra PCB by cutting it with a rotary tool or a PCB cutter. Once you have cut the PCB, you should have a shield that looks similar to the one shown in the image. You have the option to smooth down uneven edges for a neater appearance.

Insert the board into the Arduino to ensure proper fitting.

Step 4: Circuit

The setup is straightforward – one piezoelectric disk is linked to digital pin 9 while the other is connected to digital pin 11. Both disks’ remaining terminals are joined and secured to the Arduino’s ground terminal. I am utilizing two digital pins in order to produce two distinct frequencies. If you prefer using just one frequency, you have the option to connect both disks in parallel.

Adjusting both disks to match the same frequency will result in the board vibrating in harmony, which will lead to an increased coverage area.

Read more: Arduino Mosquito Repeller


About The Author

Ibrar Ayyub

I am an experienced technical writer holding a Master's degree in computer science from BZU Multan, Pakistan University. With a background spanning various industries, particularly in home automation and engineering, I have honed my skills in crafting clear and concise content. Proficient in leveraging infographics and diagrams, I strive to simplify complex concepts for readers. My strength lies in thorough research and presenting information in a structured and logical format.

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