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Title: Vehicular Integration of Wireless Power Transfer Systems and Hardware Interoperability Case Studies

Abstract

Several wireless charging methods are under development or available as an aftermarket option in the light-duty automotive market. However, there are not a sufficient number of studies detailing the vehicle integration methods, particularly a complete vehicle integration with higher power levels. This paper presents the design, development, implementation, and vehicle integration of wireless power transfer (WPT)-based electric vehicle (EV) charging systems for various test vehicles. Before having the standards effective, it is expected that WPT technology first will be integrated as an aftermarket retrofitting approach. Inclusion of this technology on production vehicles is contingent upon the release of the international standards. The power stages of the system are introduced with the design specifications and control systems including the active front-end rectifier with power factor correction, high frequency power inverter, high frequency isolation transformer, coupling coils, vehicle side full-bridge rectifier and filter, and the vehicle battery. The operating principles of the control, and communications, systems are presented. Aftermarket conversion approaches including the WPT on-board charger (OBC) integration, WPT CHAdeMO integration, and WPT direct battery connection scenarios are described. The experiments are carried out using the integrated vehicles and the results obtained to demonstrate the system performance including the stage-by-stage efficiencies.

Authors:
ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1]; ORCiD logo [1]
  1. ORNL
Publication Date:
Research Org.:
Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
Sponsoring Org.:
USDOE
OSTI Identifier:
1351755
DOE Contract Number:  
AC05-00OR22725
Resource Type:
Conference
Resource Relation:
Conference: IEEE Energy Conversion Congress and Exposition - Milwaukee, Wisconsin, United States of America - 9/18/2016 12:00:00 AM-9/22/2016 12:00:00 AM
Country of Publication:
United States
Language:
English
Subject:
Wireless power transfer; electric vehicle; electromagnetic induction resonant; wireless charging

Citation Formats

Onar, Omer C., Campbell, Steven L., Seiber, Larry Eugene, White, Cliff P., and Chinthavali, Madhu Sudhan. Vehicular Integration of Wireless Power Transfer Systems and Hardware Interoperability Case Studies. United States: N. p., 2016. Web. doi:10.1109/ECCE.2016.7855553.
Onar, Omer C., Campbell, Steven L., Seiber, Larry Eugene, White, Cliff P., & Chinthavali, Madhu Sudhan. Vehicular Integration of Wireless Power Transfer Systems and Hardware Interoperability Case Studies. United States. doi:10.1109/ECCE.2016.7855553.
Onar, Omer C., Campbell, Steven L., Seiber, Larry Eugene, White, Cliff P., and Chinthavali, Madhu Sudhan. Thu . "Vehicular Integration of Wireless Power Transfer Systems and Hardware Interoperability Case Studies". United States. doi:10.1109/ECCE.2016.7855553.
@article{osti_1351755,
title = {Vehicular Integration of Wireless Power Transfer Systems and Hardware Interoperability Case Studies},
author = {Onar, Omer C. and Campbell, Steven L. and Seiber, Larry Eugene and White, Cliff P. and Chinthavali, Madhu Sudhan},
abstractNote = {Several wireless charging methods are under development or available as an aftermarket option in the light-duty automotive market. However, there are not a sufficient number of studies detailing the vehicle integration methods, particularly a complete vehicle integration with higher power levels. This paper presents the design, development, implementation, and vehicle integration of wireless power transfer (WPT)-based electric vehicle (EV) charging systems for various test vehicles. Before having the standards effective, it is expected that WPT technology first will be integrated as an aftermarket retrofitting approach. Inclusion of this technology on production vehicles is contingent upon the release of the international standards. The power stages of the system are introduced with the design specifications and control systems including the active front-end rectifier with power factor correction, high frequency power inverter, high frequency isolation transformer, coupling coils, vehicle side full-bridge rectifier and filter, and the vehicle battery. The operating principles of the control, and communications, systems are presented. Aftermarket conversion approaches including the WPT on-board charger (OBC) integration, WPT CHAdeMO integration, and WPT direct battery connection scenarios are described. The experiments are carried out using the integrated vehicles and the results obtained to demonstrate the system performance including the stage-by-stage efficiencies.},
doi = {10.1109/ECCE.2016.7855553},
journal = {},
number = ,
volume = ,
place = {United States},
year = {2016},
month = {9}
}

Conference:
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