Far-Field Energy Harvesting Rectifier Analysis

被引：0

作者：

Pflug, Hans W. ^{[1
]}

Keyrouz, Shady ^{[2
]}

Visser, Hubregt J. ^{[1
,2
]}

机构：

[1] IMEC, Holst Ctr, Eindhoven, Netherlands

[2] Eindhoven Univ Technol, Eindhoven, Netherlands

来源：

2016 IEEE WIRELESS POWER TRANSFER CONFERENCE (WPTC) | 2016年

关键词：

Diode; diode model; rectifier; Schottky barrier diode; wireless energy transfer;

D O I：

暂无

中图分类号：

TE [石油、天然气工业]; TK [能源与动力工程];

学科分类号：

0807 ; 0820 ;

摘要：

An accurate equivalent circuit model to predict the power conversion efficiency (PCE) of a Schottky Barrier Diode (SBD) is presented in this paper. By making use of good insight into the used SBD models and careful analysis of circuit behavior, more efficient rectifier circuits have been identified. An increase in circuit efficiency of 18-25% is shown compared to state of the art, resulting in 20-180% more available energy from the rectifying circuit. Also the accuracy of the simulation results has increased significantly. All the simulations in this paper are performed in a conjugately matched environment, which allows for an objective comparison of different Schottky diodes.

引用

页数：4

共 50 条

[1] A dual-input extended-dynamic-PCE rectifier for dedicated far-field RF energy harvesting systems
Poo, Chee Ming
Chong, Gabriel
Ramiah, Harikrishnan
ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING, 2021, 107 (03) : 567 - 573
[2] A dual-input extended-dynamic-PCE rectifier for dedicated far-field RF energy harvesting systems
Chee Ming Poo
Gabriel Chong
Harikrishnan Ramiah
Analog Integrated Circuits and Signal Processing, 2021, 107 : 567 - 573
[3] Sensitive and Nonlinear Far-Field RF Energy Harvesting in Wireless Communications
Alevizos, Panos N.
Bletsas, Aggelos
IEEE TRANSACTIONS ON WIRELESS COMMUNICATIONS, 2018, 17 (06) : 3670 - +
[4] Far-Field RF Energy Harvesting System for Distribution Power Lines
Mahamat, Yava
Hussain, Syed Rezwanur
Eroglu, Abdullah
2016 IEEE/ACES INTERNATIONAL CONFERENCE ON WIRELESS INFORMATION TECHNOLOGY AND SYSTEMS (ICWITS) AND APPLIED COMPUTATIONAL ELECTROMAGNETICS (ACES), 2016,
[5] Additive Manufacturing Technologies for Near- and Far-field Energy Harvesting Applications
Nauroze, Syed Abdullah
Kimionis, John
Bito, Jo
Su, Wenjing
Hester, Jimmy G.
Nate, Kunal
Tehrani, Bijan
Tentzeris, Manos M.
2016 IEEE RADIO AND WIRELESS SYMPOSIUM (RWS), 2016, : 159 - 161
[6] Ambient Radiofrequency Energy Mapping of Montreal for Far-Field Wireless Power Harvesting
Gu, Xiaoqiang
Dousset, David
Wu, Ke
Grauwin, Louis
Hemour, Simon
2020 IEEE INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION AND NORTH AMERICAN RADIO SCIENCE MEETING, 2020, : 1577 - 1578
[7] Information Harvesting for Far-Field Wireless Power Transfer
Ilter M.C.
Wichman R.
Saily M.
Hamalainen J.
IEEE Internet of Things Magazine, 2022, 5 (02): : 127 - 132
[8] Enabling Far-Field Ambient Energy Harvesting Through Multi-Physical Sources
Gu, Xiaoqiang
Hemour, Simon
Wu, Ke
2018 ASIA-PACIFIC MICROWAVE CONFERENCE PROCEEDINGS (APMC), 2018, : 204 - 206
[9] Efficient far-field radio frequency energy harvesting for passively powered sensor networks
Le, Triet
Mayaram, Karti
Fiez, Terri
IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2008, 43 (05) : 1287 - 1302
[10] A 2.45 GHz Rectenna System for Far-Field Wireless Power Transfer / Energy Harvesting
Pattapu, Udayabhaskar
Das, Sushrut
2022 INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION (ISAP), 2022, : 83 - 84

← 1 2 3 4 5 →