• 제목/요약/키워드: PCC (Point of Common coupling)

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직병렬 임피던스 보상을 통한 계통 연계 분산전원 인버터의 PCC 무효전력 제어 알고리즘 (Reactive Power Control Algorithm of Grid-Connected Inverter at the Point of Common Coupling With Compensation of Series and Parallel Impedances)

  • 허철영;송승호;김용래
    • 전력전자학회논문지
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    • 제27권2호
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    • pp.92-99
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    • 2022
  • Due to space and geographical constraints, the power source may be located outside the island area, resulting in the considerable length of transmission line. In these cases, when an active power is transmitted, unexpected reactive power is generated at a point of common coupling (PCC). Unlike the power transmitted from the power generation source, the reactive power adversely affects the system. This study proposes a new algorithm that controls reactive power at PCC. Causes of reactive power errors are separated into parallel and series components, which allows the algorithm to compensate the reactive current of the inverter output and control reactive power at the PCC through calculations from the impedance, voltage, and current. The proposed algorithm has economic advantages by controlling the reactive power with the inverter of the power source itself, and can flexibly control power against voltage and output variations. Through the simulation, the algorithm was verified by implementing a power source of 3 [kVA] capacity connected to the low voltage system and of 5 [MVA] capacity connected to the extra-high voltage system. Furthermore, a power source of 3 [kVA] capacity inverter is configured and connected to a mock grid, then confirmed through experiments.

배전 시스템의 고조파 분석 및 모델링에 관한 연구 (A Study on Harmonics Analysis and Modelling for Distribution System)

  • 왕용필;정종원;정동일
    • 조명전기설비학회논문지
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    • 제21권3호
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    • pp.62-68
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    • 2007
  • 최근 전력 전자 응용 기기의 사용증가로 비선형 특성 부하에 의한 고조파가 상당히 발생하고 있으며, 이에 의한 영향으로 배전시스템의 변압기 열화, 소자의 고장, 통신 간섭 등의 여러 가지 문제를 발생시키고 있다. 따라서 배전 시스템에서의 고조파 수준과 전달특성을 정확하게 분석하기 위하여 배전시스템의 효과적인 실측정과 모델링에 관한 연구가 필요한 실정이다. 본 논문에서는 고조파 관리기준 IEC61000-3-6 토대로 배전 시스템의 고조파 특성을 해석하기 위하여 공통 결합점(Point of Common Coupling : PCC)을 선택하였다. 실 배전 시스템의 PCC 지점에서 고조파 전압, 전류를 측정하여, 고조파 분포, 비선형 부하 성분 및 고조파 전압, 전류 왜형률 (Voltage/Current Total Harmonic Distortion: VTHD/ITHD)을 분석하였다. 또한 정상상태에서 고조파 임피던스, 전압, 전류을 해석을 통하여 실 배전시스템을 효과적이고 정확하게 모델링 되었을 확인하였다. 또한 고조파 전류원 발생시에 고조파 전압, 전류를 비교 분석하여 고조파 전달특성을 조사하였다.

배전계통의 VTHD레벨 제시를 위한 최적측정위치 선정 (Optimal Measurement Placement for VTHD level presentation in Distribution Systems)

  • 박희철;조남훈
    • 대한전기학회:학술대회논문집
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    • 대한전기학회 2003년도 하계학술대회 논문집 A
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    • pp.378-380
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    • 2003
  • This paper presents the optimal point for measuring harmonic levels in distribution systems. Harmonic should be measure PCC (Point of Common Coupling), where is extended over distribution systems, but some PCCs are limited for economical and technical reason : for this reason, the harmonic measurement for a real distribution system and computer simulation are performed to find the optimal PCC in this paper.

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무효전력 제어에 의한 PCC전압 보상을 갖는 삼상 병렬형 능동전력필터 (A Three-Phase Parallel Active Power Filter Operating with PCC Voltage Compensation by Controlling Reactive Power)

  • 이우철;현동석;이택기
    • 대한전기학회논문지:전기기기및에너지변환시스템부문B
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    • 제49권3호
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    • pp.211-218
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    • 2000
  • The performance and dynamic characteristics of three-phase active power filter with PCC voltage compensation is presented and analyzed in this paper. The characteristics of parallel active filter are discussed when they are applied to nonlinear loads with current source and voltage source type, the characteristics of voltage compensator and comparison of two functions are discussed. The proposed scheme in this paper employs a PWM voltage-source inverter and has two operation modes. First, it operates as a conventional active filter with reactive power compensation while PCC voltage is in a certain range. Second, is operates as a voltage compensator while PCC voltage is out of range. Finally, the validity of this scheme is investigated through analysis of simulation and experimental results for a prototype active power filter system rated at 10KVA.

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Analysis and Compensation of PCC Voltage Variations caused by Wind Turbine Power Fluctuations

  • Im, Ji-Hoon;Song, Seung-Ho;Kang, San
    • Journal of Power Electronics
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    • 제13권5호
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    • pp.854-860
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    • 2013
  • The voltage variation problem at the point of common coupling (PCC) in a grid-connected wind turbine is investigated. The voltage variation problem is one of the most frequent power quality issues for the grid connection of large amounts of input power in a weak grid. Through the simplified modeling of the wind turbine and power network, the magnitude of PCC voltage variation is calculated by using the equivalent circuit parameters and output power of the wind turbine. The required amount of reactive power that can compensate the voltage variation is also presented analytically by using the vector diagram method. The proposed calculation and compensation method of the PCC voltage variation is verified by computer simulations and experiments.

간략화된 풍력발전기 모델링과 계통연계 조건에 따른 PCC 전압 변동량 계산 (Simplified Wind Turbine Modeling and Calculation of PCC Voltage Variation according to Grid Connection Conditions)

  • 임지훈;송승호
    • 전기학회논문지
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    • 제58권12호
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    • pp.2402-2409
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    • 2009
  • This paper proposed a simple and helpful analysis model of voltage variation in order to predict the voltage variation at PCC (Point of Common Coupling), when a wind turbine is connected in an isolated grid. The PCC voltage flucuates when the wind turbine outputs active power to an isolated grid. This voltage variation is proportional to the product of the line impedance from the ideal generator to the PCC and the wind turbine output current. And It is different according as where wind turbine is connected. To solve the problem of voltage variation, this paper proposed the reactive power control. To verify the proposed analysis model, this paper utilized PSCAD/EMTDC Simulation and the field measurement data of the voltage variation during the wind power generation.

불평형을 포함한 PCC전압 유지를 위한 분산전원의 제어전략 (A Control Algorithm of Distributed Generation for Maintaining PCC Voltage even during Unbalanced Voltage Conditions)

  • 임지훈;송승호;정승기;최주엽
    • 전력전자학회:학술대회논문집
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    • 전력전자학회 2014년도 전력전자학술대회 논문집
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    • pp.457-458
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    • 2014
  • 본 논문에서는 분산전원의 출력여부와 상관없이 계통연계지점의 (PCC : Point of Common Coupling) 전압제어를 위한 새로운 알고리즘을 제안한다. 또한, PCC전압이 불평형을 포함했을 때에도 분산전원이 PCC 전압유지를 위한 보상을 할 수 있음을 제안한다. 이를 구현하기 위해 분산전원은 전압유지를 위해서는 무효분 전류를, 불평형 보상을 위해서는 역상분 전류를 이용한다. PSIM 시뮬레이션을 통해 이를 증명하였다.

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An Integrated Compensation Algorithm for PCC Voltage Fluctuation and Unbalance with Variable Limit of Positive and Negative Sequence Currents

  • Im, Ji-Hoon;Song, Seung-Ho;Cho, Sung-Min
    • Journal of Electrical Engineering and Technology
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    • 제12권2호
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    • pp.751-760
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    • 2017
  • This paper proposes a point of common coupling (PCC) voltage compensation algorithm using a current limitation strategy for use in distributed generation (DG). The proposed strategy maintains the PCC voltage by prioritizing currents when an output current reference is larger than the current capacity of the power condition system (PCS) of the DG. With this strategy, the DG outputs the active current, reactive current, and the negative sequence current. The DG uses the reactive current for maintaining the PCC voltage within a normal range; the negative sequence current is used for reducing the PCC voltage unbalance. The proposed method was verified using PSIM simulation and experimental results.

A Communicationless PCC Voltage Compensation Using an Improved Droop Control Scheme in Islanding Microgrids

  • Ding, Guangqian;Gao, Feng;Li, Ruisheng;Wu, Bingxin
    • Journal of Power Electronics
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    • 제17권1호
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    • pp.294-304
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    • 2017
  • This paper proposes a point of common coupling (PCC) voltage compensation method for islanding microgrids using an improved power sharing control scheme among distributed generators (DGs) without communication. The PCC voltage compensation algorithm is implemented in the droop control scheme to reduce the PCC voltage deviation produced by the droop controller itself and the voltage drop on the line impedance. The control scheme of each individual DG unit is designed to use only locally measured feedback variables and an obtained line impedance to calculate the PCC voltage. Therefore, traditional voltage measurement devices installed at the PCC as well as communication between the PCC and the DGs are not required. The proposed control scheme can maintain the PCC voltage amplitude within an allowed range even to some extent assuming inaccurate line impedance parameters. In addition, it can achieve proper power sharing in islanding microgrids. Experimental results obtained under accurate and inaccurate line impedances are presented to show the performance of the proposed control scheme in islanding microgrids.