A New Modelling Technique for Inductive Power Transfer (IPT) Systems

被引：2

作者：

Dong, Weihao ^{[1
]}

Madawala, Udaya ^{[1
]}

Baguley, Craig ^{[2
]}

机构：

[1] Univ Auckland, Dept Elect Comp & Software Engn, Auckland, New Zealand

[2] Auckland Univ Technol, Dept Engn Comp & Math Sci, Auckland, New Zealand

来源：

2021 IEEE 12TH ENERGY CONVERSION CONGRESS AND EXPOSITION - ASIA (ECCE ASIA) | 2021年

关键词：

Compensation network; Inductive power transfer (IPT); Unified model; ZERO PHASE-ANGLE; CONTROLLER;

D O I：

10.1109/ECCE-Asia49820.2021.9479133

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

Loosely coupled IPT systems generally employ compensation networks to reduce reactive power drawn from the supply. Various compensation strategies exist, including four fundamental types with differing characteristics. These must be analyzed and evaluated during IPT system design stages to allow for the best selection according to the IPT application. For this purpose, existing approaches are inelegant and cumbersome. Therefore, a new modelling technique is proposed that allows each of the four fundamental forms of IPT compensation to be analyzed through the very simple manipulation of key circuit parameters. The proposed technique is verified through comparison to IPT system circuit simulation results in the time domain. Its utility is demonstrated through its ability to give IPT system sensitivity analysis under a range of coupling conditions and voltage ratio conditions.

引用

页码：485 / 490

页数：6

共 50 条

[11] Technological inductive power transfer systems
Madzharov, Nikolay D.
Nemkov, Valentin S.
JOURNAL OF ELECTRICAL ENGINEERING-ELEKTROTECHNICKY CASOPIS, 2017, 68 (03): : 235 - 244
[12] Magnetostimulation by Inductive Power Transfer Systems
McLean, James
Medina, A.
Sutton, Robert
2013 IEEE RADIO AND WIRELESS SYMPOSIUM (RWS), 2013, : 298 - 300
[13] Magnetostimulation by Inductive Power Transfer Systems
McLean, James
Medina, A.
Sutton, Robert
2013 IEEE 13TH TOPICAL MEETING ON SILICON MONOLITHIC INTEGRATED CIRCUITS IN RF SYSTEMS (SIRF), 2013, : 198 - 200
[14] Magnetostimulation by Inductive Power Transfer Systems
McLean, James
Medina, A.
Sutton, Robert
2013 IEEE TOPICAL CONFERENCE ON BIOMEDICAL WIRELESS TECHNOLOGIES, NETWORKS, AND SENSING SYSTEMS (BIOWIRELESS), 2013, : 121 - 123
[15] Magnetostimulation by Inductive Power Transfer Systems
McLean, James
Medina, A.
Sutton, Robert
2013 IEEE TOPICAL CONFERENCE ON WIRELESS SENSORS AND SENSOR NETWORKS (WISNET), 2013, : 94 - 96
[16] Magnetostimulation by Inductive Power Transfer Systems
McLean, James
Medina, A.
Sutton, Robert
2013 IEEE TOPICAL CONFERENCE ON POWER AMPLIFIERS FOR WIRELESS AND RADIO APPLICATIONS (PAWR), 2013, : 127 - 129
[17] Matlab/Simulink-Based Modeling of Typical Inductive Power Transfer (IPT) System
Hardan, Sumer S.
Hairik, Haroutuon A.
THejeel, Rabee H.
2020 6TH IEEE INTERNATIONAL ENERGY CONFERENCE (ENERGYCON), 2020, : 86 - 92
[18] A New Controller for Bi-directional Inductive Power Transfer Systems
Neath, M. J.
Madawala, Udaya K.
Thrimawithana, D. J.
2011 IEEE INTERNATIONAL SYMPOSIUM ON INDUSTRIAL ELECTRONICS (ISIE), 2011,
[19] State of the Art on Modelling Inductive Power Transfer for EVs
De Meco, D.
Dolara, A.
Longo, M.
Yaici, W.
7TH INTERNATIONAL CONFERENCE ON CLEAN ELECTRICAL POWER (ICCEP 2019): RENEWABLE ENERGY RESOURCES IMPACT, 2019, : 157 - 164
[20] A quadrature pickup for inductive power transfer systems
Raabe, S.
Elliott, G. A. J.
Covic, G. A.
Boys, J. T.
ICIEA 2007: 2ND IEEE CONFERENCE ON INDUSTRIAL ELECTRONICS AND APPLICATIONS, VOLS 1-4, PROCEEDINGS, 2007, : 68 - 73

← 1 2 3 4 5 →