Advanced Wireless Power Transfer System
Self-Paced Projects
Fee: ₹499
The overview of the Advanced Wireless Power Transfer System project is that it involves designing and implementing a circuit that can efficiently transmit and receive power wirelessly, as well as developing software to control and monitor the system. The project aims to create a functional wireless power transfer system that can transmit and receive power wirelessly without the need for wires or direct contact. The project objectives include designing and building a wireless power transmitter circuit, designing and building a wireless power receiver circuit, implementing efficient power transfer between the transmitter and receiver circuits, developing software to control and monitor the system, and optimizing the system for maximum power transfer efficiency. Through this project, participants will learn about wireless power transfer technology and its applications, electronic circuit design and prototyping, microcontroller programming, power electronics and energy conversion, and analytical and problem-solving skills.
Objectives
"advanced wireless power transfer systems have the potential to revolutionize the way we charge our devices and vehicles. Future enhancements should focus on increasing efficiency, range, and power. The high-level architecture of a wireless charging system typically consists of a power source, a transmitter, and a receiver. The workflow involves generating an electromagnetic field, receiving the field, and converting it into electrical energy to charge the device. Finally, there are several technologies used in wireless power transfer systems, including magnetic induction, magnetic resonance, and RF energy harvesting.
In this project, we will be designing an Advanced Wireless Power Transfer System. This system will allow for the wireless transfer of electrical energy from a power source to a device, without the need for wires or direct contact. The project will involve designing and implementing a circuit that can efficiently transmit and receive power wirelessly, as well as developing software to control and monitor the system.
What Will You Learn
Through this project, you will learn about the principles and applications of wireless power transfer technology. You will gain hands-on experience in designing and building electronic circuits, as well as programming microcontrollers to control and monitor the system. Additionally, you will learn about the different factors that affect the efficiency of wireless power transfer, such as distance, alignment, and resonant frequency.
Skills you will gain
Curriculum
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Project's Prelude
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Project's Problem Description
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Project's Problem Description
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Project's Objective
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Project's Expected Features
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Project's Future Enhancement
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High level Architecture and workflow and Technology