• Title/Summary/Keyword: Electric Vehicle Battery

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Development of Eco-Friendly Range Extension UTV Hybrid Vehicle System (주행거리 확장을 위한 하이브리드형친환경UTV 차량 시스템 개발)

  • Kim, Kee Joo;Won, Si Tae
    • Journal of the Korean Society for Precision Engineering
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    • v.33 no.12
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    • pp.1015-1020
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    • 2016
  • An advantage of electric vehicles is that they are environmentally sustainable because they do not emit exhaust gases, such as $CO_2$ or Nox. A disadvantage is the low power performance of the motor and battery source, necessitating a reduction in the weight of the vehicle to increase efficiency. Another disadvantage is that the rechargeable battery enables an electric vehicle to only run for a limited number of miles before requiring electric charging. To solve these problems, the hybrid vehicle has been developed by combining environmental sustainability with the high performance of a conventional internal combustion engine. In this study, an electric UTV (Utility Terrain Vehicle) was transformed into a hybrid vehicle system by outfitting the vehicle with a drive auxiliary power system including a 125 cc internal combustion engine. This modification enabled us to extend the range of the hybrid UTV from 50km to 100km per one electric charging.

A Research on Stray-Current Corrosion Mechanism of High Voltage Cable Connector on Electrification Vehicles

  • Lee, Hwi Yong;Ahn, Seung Ho;Im, Hyun Taek
    • Corrosion Science and Technology
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    • v.18 no.4
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    • pp.117-120
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    • 2019
  • Considering the tendency of development of electrification vehicles, development and verification of new evaluation technology is needed because of new technology applications. Recently, as the battery package is set outdoors of an electric vehicle, such vehicles are exposed to corrosive environments. Among major components connected to the battery package, rust prevention of high-voltage cables and connectors is considered the most important issue. For example, if corrosion of high voltage cable connectors occurs, the corrosion durability assessment of using an electric vehicle will be different from general environmental corrosion phenomena. The purpose of this study is to investigate the corrosion mechanism of high voltage cable connectors of an electric vehicle under various driving environments (road surface vibration, corrosion environment, current conduction by stray current, etc.) and develop an optimal rust prevention solution. To improve our parts test method, we have proposed a realistic test method to reproduce actual electric vehicle corrosion issues based on the principle test.

A Study on the Application of Phase Change Material for Electric Vehicle Battery Thermal Management System using Dymola (전기자동차 배터리팩 열관리시스템에서 상변화물질 적용에 관한 고찰)

  • Choi, Chulyoung;Choi, Woongchul
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.66 no.12
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    • pp.1889-1894
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    • 2017
  • Global automobile manufacturers are developing electric vehicles (EVs) to eliminate the pollutant emissions from internal combustion vehicles and to minimize fossil fuel consumptions for the future generations. However, EVs have a disadvantage of shorter traveling distance than that of conventional vehicles. To answer this shortfall, more batteries are installed in the EV to satisfy the consumer expectation for the driving range. However, as the energy capacity of the battery mounted in the EV increases, the amount of heat generated by each cell also increases. Naturally, a better battery thermal management system (BTMS) is required to control the temperature of the cells efficiently because the appropriate thermal environment of the cells greatly affects the power output from the battery pack. Typically, the BTMS is divided into an active and a passive system depending on the energy usage of the thermal management system. Heat exchange materials usually include gas and liquid, semiconductor devices and phase change material (PCM). In this study, an application of PCM for a BTMS was investigated to maintain an optimal battery operating temperature range by utilizing characteristics of a PCM, which can accumulate large amounts of latent heat. The system was modeled using Dymola from Dassault Systems, a multi-physics simulation tool. In order to compare the relative performance, the BTMS with the PCM and without the PCM were modeled and the same battery charge/discharge scenarios were simulated. Number of analysis were conducted to compare the battery cooling performance between the model with the aluminum case and PCM and the model with the aluminum case only.

Optimal Power Distribution for an Electric Vehicle with Front In-line Rear In-wheel Motors (전륜 인라인 후륜 인휠 모터 적용 전기자동차의 최적 동력 분배)

  • Kim, Jeongmin
    • Transactions of the Korean Society of Automotive Engineers
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    • v.22 no.2
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    • pp.76-82
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    • 2014
  • In this paper, an optimal power distribution algorithm is proposed for the small electric vehicle with front in-line and rear in-wheel motors. First, it is assumed that the vehicle driving torque and velocity are given conditions. And, an optimal problem is defined that finding the front and rear motor torques which minimizes the battery power. From the above optimization problem, the optimized front-rear motor torque distribution map is obtained. And, the vehicle simulations are performed to verify the performance of the optimal power distribution algorithm which is proposed in this study. The simulations are performed based on the federal urban driving schedule for two cases which are constant ratio power distribution, and optimal power distribution. From the simulation results, it is found that the optimal power distribution shows the 6.3% smaller battery energy consumption than the constant ratio power distribution.

A Study of Durability Evaluation for Couplers in Battery Changeable Electric Vehicle (배터리 교환형 전기자동차의 배터리 접속기 내구성 평가에 관한 연구)

  • Kim, Kwang-Min;Yun, Jun-Bo;Kang, Byung-Guk;Lee, Ju
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.28 no.8
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    • pp.69-74
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    • 2014
  • Recently, many countries are researching and developing the various Electric Vehicle(EV) for reserving their natural environments and so on. But the charging time that is longer than the time of filling up the traditional engine vehicle will be the obstacles of spreading them. So, the other type EV is developed. It is the Battery Changeable EV. But there is not testing method for it. Especially, the defining of the durability evaluation for the couplers between battery and charger is very important because the couplers are changed very frequently. So, they may cause many faults and problems. Therefore, this study shows the definition of the durability procedure and the test is conducted with the equipment.

A Hybrid PWM-Resonant DC-DC Converter for Electric Vehicle Battery Charger Applications

  • Lee, Il-Oun
    • Journal of Power Electronics
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    • v.15 no.5
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    • pp.1158-1167
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    • 2015
  • In this paper, a new hybrid DC-DC converter is proposed for electric vehicle 3.3 kW on-board battery charger applications, which can be modulated in a phase-shift manner under a fixed frequency or frequency variation. By integrating a half-bridge (HB) LLC series resonant converter (SRC) into the conventional phase-shift full-bridge (PSFB) converter with a full-bridge rectifier, the proposed converter has many advantages such as a full soft-switching range without duty-cycle loss, zero-current-switching operation of the rectifier diodes, minimized circulating current, reduced filter inductor size, and better utilization of transformers than other hybrid dc-dc converters. The feasibility of the proposed converter has been verified by experimental results under an output voltage range of 250-420V dc at 3.3 kW.

Wide Output Range AC/DC Converter for Rechargeable Battery of Electric Vehicle (광대역 출력을 가지는 전기자동차 배터리 충전용 AC/DC 컨버터)

  • Kim, Young-il;Kim, Hong-jung;Jun, Bum-su;Park, Gwi-chul;Choi, Jaeho
    • Proceedings of the KIPE Conference
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    • 2016.07a
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    • pp.73-74
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    • 2016
  • This paper proposes a wide output range AC/DC converter for a rechargeable battery of electric vehicle. In the proposed wide output range AC/DC converter for rechargeable battery of electric vehicle, the main transformer in the DC/DC stage is divided by two. Therefore, if the switch is connected to the middle tap, then half of the maximum voltage is applied. Otherwise, it can be applied the full range of the high voltage by connecting the switch to the whole tab. And also, it is designed to have a wide output voltage range by applying Vin/2 made by changing the full-bridge to half-bridge by using the bridge change switch of the input stage. As it can be supplied the wide range output voltage with a single module, it has the advantage of space utilization and cost reduction effect.

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Development of An Electric Circuit Model of Vehicle Charging-discharging System for Simulation (시뮬레이션을 위한 자동차 충 방전 시스템의 등가 회로 모델 개발)

  • Park, Hyun-Jin;SunWoo, Myoung-Ho;Lee, Jae-In
    • Proceedings of the KIEE Conference
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    • 1999.11c
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    • pp.570-572
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    • 1999
  • An equivalent circuit model of vehicle charging-discharging system for simulation is developed. The vehicle electric power system consists of alternator and battery. The alternator must have adequate capacity for providing electric energy to all loads, and the battery supports the alternator by offering insufficient energy when the alternator output energy is not enough. The alternator model is simplified for the use of characteristic curve, which was provided by its manufacturer, and the battery model is separated in charging mode and discharging mode because of its complex characteristics. Developed circuit model is validated by comparing the simulation data and real experimental data.

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Hybrid Sinusoidal-Pulse Charging Method for the Li-Ion Batteries in Electric Vehicle Applications Based on AC Impedance Analysis

  • Hu, Sideng;Liang, Zipeng;He, Xiangning
    • Journal of Power Electronics
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    • v.16 no.1
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    • pp.268-276
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    • 2016
  • A hybrid sinusoidal-pulse current (HSPC) charging method for the Li-ion batteries in electric vehicle applications is proposed in this paper. The HSPC charging method is based on the Li-ion battery ac-impedance spectrum analysis, while taking into account the high power requirement and system integration. The proposed HSPC method overcomes the power limitation in the sinusoidal ripple current (SRC) charging method. The charger shares the power devices in the motor inverter for hardware cost saving. Phase shifting in multiple pulse currents is employed to generate a high frequency multilevel charging current. Simulation and experimental results show that the proposed HSPC method improves the charger efficiency related to the hardware and the battery energy transfer efficiency.

Modeling and Simulation of Electrical Power System of Electric Vehicle (전기자동차 전력 시스템의 모델링 및 시뮬레이션)

  • Lee, Jea-Moon;Cho, Bo-Hyung
    • Proceedings of the KIEE Conference
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    • 1996.11a
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    • pp.355-358
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    • 1996
  • Electrical Power System (EPS) of Electric Vehicle which consists of batteries, motor and driving subsystem, has been modeled. A battery model is modeled with an electrical circuit representing a characteristics of real battery. Driving subsystem is modeled as three different level namely exact, average and functional models. Load profile includes road information, speed profile and EV mechanical parameters, which are incorporated into a reference torque in the driving subsystem model. A system model is integrated to simulate the performance of electric vehicle such as energy balance, battery status, and electrical stress of each subsystem.

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