Efficient Rectenna with Wide Dynamic Input Power Range for 900 MHz Wireless Power Transfer Applications

A. M. Almohaimeed; M. C. E. Yagoub; R. E. Amaya; IEEE

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Conference proceeding

Efficient Rectenna with Wide Dynamic Input Power Range for 900 MHz Wireless Power Transfer Applications

A. M. Almohaimeed, M. C. E. Yagoub, R. E. Amaya and IEEE

2016 IEEE ELECTRICAL POWER AND ENERGY CONFERENCE (EPEC)

IEEE Electrical Power and Energy Conference

01/01/2016

Abstract

Energy & Fuels

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

This work demonstrates the design of a rectenna to operate over wide dynamic input power range. It utilizes an adaptive reconfigurable rectifier to overcome the issue of early breakdown voltage in conventional rectifiers. A depletion-mode field-effect transistor has been introduced to operate as a switch and compensate at low and high input power levels for the rectifier. In addition, a meandered monopole antenna has been exploited to collect RF energy. The rectifier design achieves 40% of RF-DC power conversion efficiency over a wide dynamic input power range from -17 dBm to 27 dBm and the antenna exhibits a directivity of 1.92 dBi as well as a return loss of -33 dB. The rectenna is designed to operate in the 900 MHz ISM band and suitable for Wireless Power Transfer (WPT) applications.

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Details

Title: Efficient Rectenna with Wide Dynamic Input Power Range for 900 MHz Wireless Power Transfer Applications
Creators - without role: A. M. Almohaimeed - University of Ottawa
M. C. E. Yagoub - University of Ottawa
R. E. Amaya - Carleton University
IEEE
Publication Details: 2016 IEEE ELECTRICAL POWER AND ENERGY CONFERENCE (EPEC)
Series: IEEE Electrical Power and Energy Conference
Publisher: IEEE
Number of pages: 4
Identifiers: 9928731308331
Academic Unit: Qassim University
Language: English
Resource Type: Conference proceeding