Development magnetically-driven power source Jerome Marco B. Ramirez... [et. al]

Thesis Bachelor of Technology major in Electronics Technology University of Rizal System-Morong. 2018

EXECUTIVE SUMMARY: The researchers developed a magnetically driven power source, a device that converts kinetic energy to produce electricity. The device is composed of magnets that uses its attract and repel properties to continuously rotate a wheel connected to the motor for electric generation. It doesn't need natural resources like coal, fuel, oil, and etc. to operate. So the device is more likely unaffected by resources depletion. A magnetic powered generator is another name for a perpetual magnetic generator. The motors take the force produced by the fields within the magnets and transform this force into electric power. When magnets are positioned in the right space and timing, the two faces created which are the magnets that will pulse and the magnets that will spin will repel each other, but the magnets on the pulse is stationary so the only one who will be affected and move is the magnets attached to the wheel. Then it will be mounted to a generator to start generating electricity. This study would like to prove the development of magnetically-driven power source. Specifically, this study aimed to design magnetically-driven power source, determine the performance of the magnetically driven power source in terms of voltage output and current output in magnetic. The study about the development of magnetically driven power source utilize the development, descriptive, and experimental method of research. As to the findings, the device undergone trails and revisions on the different angle and placements of the magnets and the kind of materials used to drive the mechanism the device failed to produce voltage output and current output, however when operated manually, it produced 19 volts for voltage output and 124 mA for current output. Even though the mechanism doesn't work the charging system of the device is functional and ready for conversion. Further study is recommended for the improvement of the device to come with better results and desired outputs. Based on the trails and experimentation made by the researches, it was found out as its stated on the data gathered, it is needed that calibrating the individual area of the device alters the balance with each parts. So, when calibrating a part in the device, it is needed that the other part must calibrated too. And also, when changing the angles of the magnet, you need to keep in mind the magnetic field of each magnets and how it affects the magnets near it. when positioned at the right angle and accurate measurement, the force of the magnets, repel or attract can help the rotation of the wheel and make it spin smoother and produce more revolution. Also, it is highly recommended to use a synchronizer to easily achieve a balance pulse and constant rotation. And also the developed magnetically-driven power source was constructed out of locally available materials.