Wireless Electricity project

Last crawled date: 10 months ago

The wireless electricity project aimed to transmit electrical power without the need for traditional wired connections. The key components used in the project included a 2N2222 transistor, a 1K resistor, a 3V CR2032 battery with a battery snap, a custom-designed 3D printed body, a toggle switch, and a coiling made from insulated copper wire.

The 2N2222 transistor served as the primary control component in the circuit, allowing the regulation of the power flow. The 1K resistor was used to limit the current and protect the transistor. The 3V CR2032 battery, connected through the battery snap, provided the power source for the project.

The custom-designed 3D printed body served as the structural framework for the project, holding all the components together and ensuring proper alignment. It provided a sturdy and compact enclosure for the circuitry.

The toggle switch was incorporated to enable easy control of the power transmission. It allowed the user to turn the wireless electricity system on or off conveniently.

The most critical component of the project was the coiling made from insulated copper wire. This self-made coil played a crucial role in the wireless power transmission. When connected to the circuit, it created an oscillating magnetic field that could transfer electrical energy wirelessly to a compatible receiver device.

The project aimed to demonstrate the feasibility of wireless power transmission using simple and readily available components. While the specific details of the circuitry and coil design may vary, the overall concept of wireless electricity transmission remained the primary focus.

Overall, the wireless electricity project combined the use of a 2N2222 transistor, a 1K resistor, a 3V CR2032 battery, a custom-designed 3D printed body, a toggle switch, and a self-made insulated copper wire coil to achieve wireless power transmission, showcasing the potential for wire-free energy transfer.