Difference between revisions of "Projects:2016s1-196 Wireless Power Transfer"

From Projects
Jump to: navigation, search
(Introduction)
Line 19: Line 19:
 
=== Motivation ===
 
=== Motivation ===
 
The WPT technology has been widely used, especially power charging for portable devices, medical implants and electric vehicles. However, the contradiction between high efficiency, small size and long distance has limited the commercial applications of WPT. Current applications have to sacrifice one of these parameters. Designers should adjust these parameters carefully to meet the requirements of a specified application. Suitable coil design and frequency selection can also improve efficiency without affecting size and distance [1].
 
The WPT technology has been widely used, especially power charging for portable devices, medical implants and electric vehicles. However, the contradiction between high efficiency, small size and long distance has limited the commercial applications of WPT. Current applications have to sacrifice one of these parameters. Designers should adjust these parameters carefully to meet the requirements of a specified application. Suitable coil design and frequency selection can also improve efficiency without affecting size and distance [1].
 +
 +
 +
=== Objectives ===
 +
Since the developed system shall be able to reach a balance between efficiency, size, distance and output power, the following objectives shall be achieved:
 +
• The output power shall be more than 100 mW.
 +
• The efficiency shall be greater than 60% at a distance of less than 1 cm.
 +
• The system shall be portable. Its size shall be like a common mobile phone.

Revision as of 00:10, 28 October 2016

Project Team

Supervisors:

- Dr Withawat Withayachumnankul

- Prof Christophe Fumeaux

Students

- Hang Yin

- Matt Reynolds

Introduction

Wireless power transfer (WPT) is a technology that exploits magnetic, electric or electromagnetic fields to transmit electric power without conductors. This project aims to develop a magnetic WPT system for charging portable devices. The system consists of an oscillator, an amplifier, two coils, a rectifier and the load.

Motivation

The WPT technology has been widely used, especially power charging for portable devices, medical implants and electric vehicles. However, the contradiction between high efficiency, small size and long distance has limited the commercial applications of WPT. Current applications have to sacrifice one of these parameters. Designers should adjust these parameters carefully to meet the requirements of a specified application. Suitable coil design and frequency selection can also improve efficiency without affecting size and distance [1].


Objectives

Since the developed system shall be able to reach a balance between efficiency, size, distance and output power, the following objectives shall be achieved: • The output power shall be more than 100 mW. • The efficiency shall be greater than 60% at a distance of less than 1 cm. • The system shall be portable. Its size shall be like a common mobile phone.