• 제목/요약/키워드: EV charging

검색결과 180건 처리시간 0.031초

소형 연료전지 연계형 DC GRID 부하 특성 (Load Characteristics of the DC GRID Connected to Small Fuel Cells)

  • 이상우;이상철;권오성;배준형;박태준;강진규;이동하
    • 한국태양에너지학회 논문집
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    • 제32권spc3호
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    • pp.289-294
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    • 2012
  • In recent years, understanding the dynamics of DC distribution system has become critically important due mainly to the increasing needs for the interconnection of DC distributed generators and the (DC-based) electric vehicle (EV) charging systems. In this paper, the characteristics of the DC grid system connected to the compact proton exchange membrane fuel cell (PEMFC) has been studied. In particular, the voltage and current transient phenomena were measured by varying the load of the DC grid system. Also, the voltage and current ripple were measured at the different load conditions. Our experimental results clearly manifested that the study contributes to the establishment of fundamental method to characterize the small DC grid system including distributed generation.

소형 연료전지 연계형 DC GRID 부하 특성 실험 (Load Characteristics of the DC GRID Connected to Small Fuel Cells)

  • 이상우;권오성;이상철;배준형;박태준;강진규;이동하
    • 한국태양에너지학회:학술대회논문집
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    • 한국태양에너지학회 2012년도 춘계학술발표대회 논문집
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    • pp.414-418
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    • 2012
  • In recent years, understanding the dynamics of DC distribution system has become critically important due mainly to the increasing needs for the interconnection of DC distributed generators and the (DC-based) electric vehicle (EV) charging systems. In this paper, the characteristics of the DC grid system connected to the compact proton exchange membrane fuel cell (PEMFC) has been studied. In particular, the voltage and current transient phenomena were measured by varying the load of the DC grid system. Also, the voltage and current ripple were measured at the different load conditions. Our experimental results clearly manifested that the study contributes to the establishment of fundamental method to characterize the small DC grid system including distributed generation.

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A New Maximum Inductive Power Transmission Capacity Tracking Method

  • Ameri, Mohammad Hassan;Varjani, Ali Yazdian;Mohamadian, Mustafa
    • Journal of Power Electronics
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    • 제16권6호
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    • pp.2202-2211
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    • 2016
  • In certain applications, such as IPT-based EV charger (IPTEC), any variation in alignment and distance between pickup and charger primary leads to a change in leakage and magnetic impedance magnitudes. The power transmission capacity is not always at the maximum level because of these variations. This study proposes a new low-cost tracking method that achieves the Maximum Inductive Power Transmission Capacity (MIPTC). Furthermore, in the proposed method, the exchange of information between load and source is not required. For an application such as IPTEC, the load detected by the IPTEC varies continuously with time because of the change in state of the charge. This load variation causes a significant variation in IPT resonant circuit voltage gain. However, the optimized charging output voltage should be kept constant. From the analysis of the behavior of the IPT circuit at different working frequencies and load conditions, a MIPTC operation point that is independent of load condition can be identified. Finally, the experimental results of a developed prototype IPT circuit test show the performance of the proposed method.

Differential type Single-stage Isolated AC-DC Converter with AC Power Decoupling for EV Battery Charger

  • 알리 타우시프;김형진;김재훈;눌 바누 사흐파자르;최세완
    • 전력전자학회:학술대회논문집
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    • 전력전자학회 2018년도 전력전자학술대회
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    • pp.198-200
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    • 2018
  • In this paper a single-stage single-phase differential type isolated AC-DC converter is proposed. This converter eliminates the requirement to use bulky electrolytic capacitor from the system and at the same time provides DC charging by employing the AC Power Decoupling waveform control method. All the switches of the converter achieve ZVS turn on during half line cycle and all diodes achieve ZCS turn off during entire line cycle. A conventional controller is implemented for PFC control and output regulation, whereas a power decoupling controller is added to compensate $2^{nd}$ harmonic ripple power. In addition, an interleaving technique is applied to increase the power range of the converter and reduce the input inductor size. In the end simulation verification is performed and results are obtained for 6.6KW.

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Modeling of Lithium Battery Cells for Plug-In Hybrid Vehicles

  • Shin, Dong-Hyun;Jeong, Jin-Beom;Kim, Tae-Hoon;Kim, Hee-Jun
    • Journal of Power Electronics
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    • 제13권3호
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    • pp.429-436
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    • 2013
  • Online simulations are utilized to reduce time and cost in the development and performance optimization of plug-in hybrid electric vehicle (PHEV) and electric vehicles (EV) systems. One of the most important factors in an online simulation is the accuracy of the model. In particular, a model of a battery should accurately reflect the properties of an actual battery. However, precise dynamic modeling of high-capacity battery systems, which significantly affects the performance of a PHEV, is difficult because of its nonlinear electrochemical characteristics. In this study, a dynamic model of a high-capacity battery cell for a PHEV is developed through the extraction of the equivalent impedance parameters using electrochemical impedance spectroscopy (EIS). Based on the extracted parameters, a battery cell model is implemented using MATLAB/Simulink, and charging/discharging profiles are executed for comparative verification. Based on the obtained results, the model is optimized for a high-capacity battery cell for a PHEV. The simulation results show good agreement with the experimental results, thereby validating the developed model and verifying its accuracy.

7.2kW급 통합형 양방향 OBC/LDC 모듈의 전력 손실을 고려한 공진 네트워크 최적 설계 (Optimal Design of Resonant Network Considering Power Loss in 7.2kW Integrated Bi-directional OBC/LDC)

  • 송성일;노정훈;강철하;윤재은;허덕재
    • 전력전자학회논문지
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    • 제25권1호
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    • pp.21-28
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    • 2020
  • Integrated bidirectional OBC/LDC was developed to reduce the volume for elements, avoid space restriction, and increase efficiency in EV vehicles. In this study, a DC-DC converter in integrated OBC/LDC circuits was composed of an SRC circuit with a stable output voltage relative to an LLC circuit using a theoretical method and simulation. The resonant network of the selected circuit was optimized to minimize the power loss and element volume under constraints for the buck converter and the battery charging range. Moreover, the validity of the optimal model was verified through an analysis using a theoretical method and a numerical analysis based on power loss at the optimized resonant frequency.

Efficiency Optimization with a Novel Magnetic-Circuit Model for Inductive Power Transfer in EVs

  • Tang, Yunyu;Zhu, Fan;Ma, Hao
    • Journal of Power Electronics
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    • 제18권1호
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    • pp.309-322
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    • 2018
  • The technology of inductive power transfer has been proved to be a promising solution in many applications especially in electric vehicle (EV) charging systems, due to its features of safety and convenience. However, loosely coupled transformers lead to the system efficiency not coming up to the expectation at the present time. Therefore, at first, the magnetic core losses are calculated with a novel magnetic-circuit model instead of the commonly used finite-element-method (FEM) simulations. The parameters in the model can be obtained with a one-time FEM simulation, which makes the calculation process expeditious. When compared with traditional methods, the model proposed in the paper is much less time-consuming and relatively accurate. These merits have been verified by experimental results. Furthermore, with the proposed loss calculation model, the system is optimized by parameter sweeping, such as the operating frequency and winding turns. Specifically, rather than a predesigned switching frequency, a more efficiency-optimized frequency for the series-parallel (SP) compensation topology is detected and a detailed investigation has been presented accordingly. The optimized system is capable of an efficiency that is greater than 93% at a coil separation distance of 200mm and coil dimensions of $600mm{\times}400mm$.

풍력발전과 전기자동차가 전력계통의 신뢰도에 미치는 영향 평가 (Impact Analysis of Wind Power on Power System Reliability with Electric Vehicles)

  • 김담;박현곤;권헌규;박종근
    • 전기학회논문지
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    • 제64권11호
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    • pp.1535-1542
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    • 2015
  • An increasing number of electric vehicles (EVs) in power system affects its reliability in various aspects. Especially under high EV penetration level, new generating units are required to satisfy system's adequacy criterion. Wind power generation is expected to take the major portion of the new units due to environmental and economic issues. In this paper, the system reliability is analyzed using Loss of Load Expectation (LOLE) and Expected Energy Not Served (EENS) under each and both cases of increasing wind power generation and EVs. A probabilistic multi-state modeling method of wind turbine generator under various power output for adequate reliability evaluation is presented as well. EVs are modeled as loads under charging algorithm with Time-Of-Use (TOU) rates in order to incorporate EVs into hour-to-hour yearly load curve. With the expected load curve, the impact of EVs on the system adequacy is analyzed. Simulations show the reliability evaluation of increasing wind power capacity and number of EVs. With this method, system operator becomes capable of measuring appropriate wind power capacity to meet system reliability standard.

전기자동차와 충전기반시설의 V2G 기술 활용과 영향에 관한 연구 (Applications and Impact of V2G Technology for Electric Vehicle and Charging Infrastructure)

  • 이성욱;박병주
    • 문화기술의 융합
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    • 제5권2호
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    • pp.367-373
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    • 2019
  • 급격한 전기자동차의 증가에 따라 전기자동차의 배터리를 주행 목적이 아닌 다른 용도로 사용하려는 Vehicle-to-Grid (V2G) 기술 또한 산업계와 학계부터 큰 관심을 끌고 있다. V2G 기술의 도움으로 전기자동차의 배터리는 스마트 그리드 환경에서 에너지 저장장치, 전력공급원등의 여러 중요한 역할로의 사용이 가능해 진다. 본고 에서는 거주용 주택환경을 위한 기술인 Vehicle-to-Home(V2H), 상업용 건물을 위한 기술인 Vehicle-to-Building(V2B) 그리고 전체 전력망을 위한 기술인 Vehicle-to-Grid(V2G) 기술에 대해 자세히 알아보고 각 기술의 특성과 영향에 대해 검토한다. 또한 이 기술들의 경제적 영향에 대해서도 분석한다.

전기자동차 충·방전제어 통합 환경을 고려한 전기차 1차 주파수 회복예비력의 계통연계형 모델링 (Gird Connected Modeling of Primary Frequency Recovery Reserve Provided by Electric Vehicle Considering Characteristics of Electric Vehicle Charge/Discharge Control Integrated Environment)

  • 국경수;이지훈;문종희;최우영;박기준;장동식
    • KEPCO Journal on Electric Power and Energy
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    • 제7권2호
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    • pp.249-254
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    • 2021
  • As the spreading speed of electric vehicles increases rapidly, those are expected to be able to use them as flexible resources in the power system beyond the concern for the supply of its charging power. Especially when the Renewable Energy sources (RES) which have no intrinsic control capability have replaced the synchronous generators more and more, the power system needs to secure the additional frequency control resources to ensure its stability. However, the feasibility of using electric vehicles as the frequency control resources should be analyzed from the perspective of the power system operation and it requires the existing simulation frameworks for the power system. Therefore, this paper proposes the grid connected modeling of the primary frequency control provided by electric vehicles which can be integrated into the existing power system model. In addition, the proposed model is implemented considering technical performances constrained by the characteristics of the Vehicle-Grid Integration (VGI) system so that the simulation results can be accepted by the power utilities operating the power system conservatively.