19 For the purpose of learning, I have tear down a small mosquito zapper racket. I am now trying to understand how the circuit is working (which goal is to produce high voltage). (yellow = resistor, black = transistor, red = led, gray = diode, blue = capacitor, brown = switch or wire) Battery is on the left, high voltage output on the right. The moment a mosquito or any bug comes in contact with the meshes, the stored high voltage in the capacitor discharges violently through the body of the entangled bug creating a big spark and electrocuting it instantly. Ever want to build your own mosquito killing device?
Mosquito Swatter Bat Circuit Circuit Diagram Centre
The proposed mosquito swatter bat or mosquito zapper circuit can be seen in the diagram given below, the functioning may be understood with the following points: Building a mosquito zapper circuit diagram involves connecting a power source, such as a battery, to a transformer. This changes the voltage to a higher level, which is then passed through a capacitor, resistor, and coil. The capacitor stores energy which is released as an electric shock when the mosquito touches the metal grid. the required Zapper voltage is from 600 to 1200 volts ac. Figure 1.1 is the general circuit diagram of the Zapper. The Zapper Circuit functions by the following principles; when the battery power is switched on, the RC oscillator produces a waveform like a square wave which switches transistor T1 On and Off and as such A bug zapper, more formally known as an electronic insect-control system or electrical-discharge insect-control system, lures bugs into it and kills them with electricity. In this article, we will examine the parts of a bug zapper, learn how this device works and discuss the controversies surrounding its use.
Electronic Mosquito Racket Circuit Diagram
Contexts in source publication. Context 1.. main body resistance of most bugs and mosquitoes fall within the range of 0.70 -0.75Ω and the required Zapper voltage is from 600 to 1200 volts ac. required Zapper voltage is from 600 to 1200 volts ac. Figure 1.1 is the general circuit d iagram of the Zapper. It was concepted from the many on the net to be sho wn having four simple sections. A mosquito zapper is a device used for killing mosquitoes using high voltages [2]. The mosquito zappers are in different shapes and sizes but consist of the same basic building blocks specifically. Circuit Diagram A basic circuit diagram of a mosquito swatter bat How the Circuit Functions C1 and R1 plus the preset determine the oscillation frequency. Then, we have TR1 built from an EE type of ferrite core, forming a small ferrite core transformer.
Mosquito Racket Circuit Diagram
Mosquito Zapper Circuit Diagram and Theory of Operation Uploaded by crecosiro Learn about a theory of operation of a mosquito zapper circuit Copyright: © All Rights Reserved Available Formats Download as DOCX, PDF, TXT or read online from Scribd Flag for inappropriate content Download now of 3 There are three stages to a bug zapper circuit: Charging circuit stage Transistor stage Voltage booster stage Charging Circuit Stage The charging circuit stage comprises a capacitive power supply that rectifies the voltage by adjusting the current from the source.
6. Activity points. 1,065. Hello, I'm in the process of designing a mosquito zapper. I tried to gather as much details as I can about their theory of operation and popular circuits. I have also a bunch of them here and I have already opened some to take a look at their inner workings. Well, as an embedded designer, I do not get involved a lot. Mosquito Zapper Circuit Diagram A mosquito zapper is a device that uses electricity to kill mosquitoes. It typically consists of a high-voltage transformer, a metal grid, and a light source. When a mosquito flies into the grid, it completes the circuit and receives a fatal electric shock. Mosquito zappers are a popular way to control mosquito.
Mosquito Repeller Circuit Diagram
Mosquito Killer Circuit Diagram: This is the high voltage mosquito killer circuit diagram which only consists of capacitors and diodes. This is basically a voltage multiplier circuit which gives a high voltage of around 1860 volts. As a general rule of thumb, multiply the total number of capacitors with the voltage and then divide it by 2 and. The main body resistance of most bugs and mosquitoes fall within the range of 0.70 - 0.75 Ω [3] and the required Zapper voltage is from 600 to 1200 volts ac. Figure 1.1 is the general circuit diagram of the Zapper. The Zapper Circuit functions by the following principles; when the battery power is switched on, the
