• 전기학회논문지
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• 제63권11호
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• pp.1564-1570
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• 2014

An electric vehicle (EV) not only receives electric power from the electric vehicle supply equipment (EVSE), but it also exchanges the information regarding charging process with the power gird through the EVSE. However, the EV and EVSE communicate using the ISO/IEC 15118 standard while the EVSE and power grid communicate using the IEC 61850 standard. Therefore, the EVSE should support both the ISO/IEC 15118 and IEC 61850 standards, and provide a data mapping function between the two communication protocols so that the EV and power grid, which support different protocols, can communicate with each other throughout the charging process. In this paper, we propose a mapping method of the EVSE, which converts the ISO/IEC 15118 data to IEC 61850 and vice versa, based on the XML schema of each protocol. The proposed method converts the data using the XSL (eXtensible Stylesheet Language) method, which defines the data mapping between two XML schemas. Our approach is more flexible and easier to maintain against changes in charging scenarios and the standards than other existing approaches such as one-to-one data mapping methods.

• 전기학회논문지
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• 제62권8호
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• pp.1138-1143
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• 2013

In this paper, we propose a smartphone application based on a wireless fidelity(WiFi) in order to control the charging of electric vehicle(EV) and monitor the charging status together with the vehicle history information. The driver obtains much information on vehicle status through a smartphone application which communicates with the electric vehicle supply equipment(EVSE) management server while the EV also communicates with the EVSE for the authentification through controller area network(CAN). We also implement the simulator for the EV charging control system to verify the functions of the proposed application where the simulator consists of an EV model, an EVSE, and a smartphone. It is shown by the simulator that the proposed smartphone application allows the driver to control and to monitor the charging process of an EV conveniently and, moreover, it can provide the driver with vehicle information stored in the EVSE management server.

• KEPCO Journal on Electric Power and Energy
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• 제2권1호
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• pp.71-81
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• 2016

An EVSE and the EV exchange XML formatted communication messages with each other, whose structure is described by the V2G CI schema in the ISO/IEC 15118 international standard, and the EVSE and the power grid exchange messages based on SCL file with each other, whose structure is described by SCL schema in the IEC 61850 international standard. Because XML files can be restructured by XSLT, V2G messages can be transformed to/from SCL files using XSLT. In this study, the two schemas are analyzed and compared in order for the restructuring of the two differently structured XML instances. As a result, two XSL scripts can be produced for the transformation between XML files conforming ISO/IEC 15118 V2G CI schema and IEC 61850 SCL schema respectively to avoid manual data mapping which can happen in every application development cases.

• 한국인터넷방송통신학회논문지
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• 제15권2호
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• pp.111-119
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• 2015

스마트 그리드(Smart Grid)는 기존의 전력망에 정보 통신 기술을 접목하여 양방향으로 정보를 교환함으로써 에너지 효율을 최적화하는 차세대 지능형 전력망이다. 스마트 그리드 구현을 위한 HPGP 통신 규격은 신흥 스마트 에너지, 홈 자동화, 전기 자동차 통신 어플리케이션 구동을 위해 개발되었다. HPGP 통신 규격은 이전 규격인 HPAV과 상호 운용이 가능하며 저비용, 저전력의 장점이 있다. 새로운 통신 규격의 도입을 위해서는 신뢰성 및 상호 운용성 검증을 위한 분석이 필요하다. 본 논문에서는 이러한 스마트 그리드의 중요한 응용프로그램 중 하나인 전기차와 충전기간 전력선 통신에 대한 신뢰성 테스트 방안으로써 스니퍼 테스트 방법을 제안한다. 또한, 전기차와 충전기 간 HPGP 기반 전력선 통신 환경에서 QCA7000 Device, AVitar, Tool Kit을 이용한 스니퍼 테스트 결과를 분석하였다.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2011년도 제42회 하계학술대회
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• pp.1748-1749
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• 2011

본 논문에서는 최근 전기자동차의 개발과 동시에 연구가 활발히 진행되고 있는 전기자동차의 충전시스템인 EVSE(Electric Vehicle Supply Equipment) 시뮬레이터를 구현하고 성능을 검증한다. EVSE는 전기자동차의 충전을 위해 안정적인 전원을 공급하는 기능 이외에도, 충전상태 모니터링, 인증 및 과금 등의 기능이 요구되기 때문에 전기자동차와의 통신이 필수적이다. 따라서 CAN 기반의 전기자동차 충전시스템 시뮬레이터를 구현하고, 제안된 충전 절차에 따른 실험을 통해 차량 인증, 차량 정보 확인 및 모니터링 프로그램의 성능을 검증한다.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2011년도 제42회 하계학술대회
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• pp.2019-2020
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• 2011

Electric Vehicle Supply Equipment(EVSE) is a system or an equipment to supply electric power for charging the traction batteries on the electric vehicle. Control Pilot is an electric signal generated by EVSE and is transmitted to the electric vehicle by a vehicle coupler and a contact. The duty cycle of control pilot determines the maximum current to be drawn by electric vehicle. When the duty cycle is 5%, it is indicated that digital communication is needed. This paper deals with the data format and definition about communication scheduling through the inband signal on the control pilot of EVSE.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2011년도 제42회 하계학술대회
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• pp.1175-1176
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• 2011

Electric Vehicle Supply Equipment(EVSE) is a system or an equipment to supply electric power for charging the traction batteries on the electric vehicle. EVSEs are classified with a conductive charging system and an inductive charging system by the power transfer method. Inductive charging systems are necessary to use high frequency converters to increase the output power and to reduce the size of the charging systems. In this paper, a 20kHz inverter for inductive charging system has been designed and PSCAD/EMTDC have been used to simulate the output characteristics of the 20kHz inverter.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2015년도 제46회 하계학술대회
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• pp.28-30
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• 2015

전기차 충전 장치가 전기차로부터 ISO/IEC 15118 국제 표준을 따르는 XML 형식의 통신 메시지를 받아 IEC 61850 국제 표준의 SCL (Substation Configuration Language)로 구성되는 논리 노드를 통해 통신 메시지를 전력 계통으로 보낸다. 역방향 통신 메시지의 경우에는 그 역순으로 진행된다. ISO/IEC 15118 국제 표준이 XML 형식을 스키마로 규정하고 있고 IEC 61850 국제 표준이 SCL 형식을 스키마로 규정하고 있으며 두 스키마를 변환하여 ISO/IEC 15118 통신 메시지와 IEC 61850 통신 메시지를 상호 변환할 수 있다.

• International Journal of Internet, Broadcasting and Communication
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• 제9권2호
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• pp.1-10
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• 2017

The high costs of electric vehicle supply equipment (EVSE) and installation are currently a stumbling block to the proliferation of electric vehicles (EVs). The cost-effective solutions are needed to support the expansion of charging infrastructure. In this paper, we develope EV charging system based on the big data analysis of the power consumption patterns. The developed EV charging system is consisted of the smart EV outlet, gateways, powergates, the big data management system, and mobile applications. The smart EV outlet is designed to low costs of equipment and installation by replacing the existing 220V outlet. We can connect the smart EV outlet to household appliances. Z-wave technology is used in the smart EV outlet to provide the EV power usage to users using Apps. The smart EV outlet provides 220V EV charging and therefore, we can restore vehicle driving range during overnight and work hours.