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      KCI등재 SCIE SCOPUS

      Analysis and Application of Repetitive Control Scheme for Three-Phase Active Power Filter with Frequency Adaptive Capability

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      https://www.riss.kr/link?id=A101852169

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      다국어 초록 (Multilingual Abstract)

      Active power filter (APF) has been proved as a flexible solution for compensating the harmonic distortion caused by nonlinear loads in power distribution power systems. Digital repetitive control can achieve zero steady-state error tracking of any per...

      Active power filter (APF) has been proved as a flexible solution for compensating the harmonic distortion caused by nonlinear loads in power distribution power systems. Digital repetitive control can achieve zero steady-state error tracking of any periodic signal while the sampling points within one repetitive cycle must be a known integer. However, the compensation performance of the APF would be degradation when the grid frequency varies. In this paper, an improved repetitive control scheme with frequency adaptive capability is presented to track any periodic signal with variable grid frequency, where the variable delay items caused by time-varying grid frequency are approximated with Pade approximants. Additionally, the stability criterion of proposed repetitive control scheme is given. A three-phase shunt APF experimental platform with proposed repetitive control scheme is built in our laboratory. Simulation and experimental results demonstrate the effectiveness of the proposed repetitive control scheme.

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      목차 (Table of Contents)

      • Abstract
      • 1. Introduction
      • 2. Repetitive Control Scheme with Frequency Adaptive Capability
      • 3. Three-Phase Shunt APF with Frequency Adaptive Capability
      • 4. Simulation and Experimental Validation
      • Abstract
      • 1. Introduction
      • 2. Repetitive Control Scheme with Frequency Adaptive Capability
      • 3. Three-Phase Shunt APF with Frequency Adaptive Capability
      • 4. Simulation and Experimental Validation
      • 5. Conclusion
      • References
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      참고문헌 (Reference)

      1 Dong Chen, "Research on fast transient and 6n±1 harmonics suppressing repetitive control scheme for three-phase grid-connected inverters" 6 (6): 601-610, 2013

      2 K. Zhou, "Repetitive controlled three-phase reversible PWM rectifier" 1 : 125-129, 2000

      3 H. Akagi, "New trends in active filters for power Cconditioning" 32 (32): 1312-1332, 1996

      4 P. Tomei, "Linear repetitive learning controls for nonlinear systems by Pade approximants" 29 : 783-804, 2015

      5 B. Francis, "Internal model principle in control theory" 1976

      6 T. Hornik, "H ¥ repetitive voltage control of grid-connected inverters with a frequency adaptive mechanism" 3 (3): 925-935, 2010

      7 C. Lascu, "Frequency response analysis of current controllers for selective harmonic compensation in active power filters" 56 (56): 337-347, 2009

      8 Yongheng Yang, "Frequency adaptive selective harmonic control for gridconnected inverters" 30 (30): 3912-3924, 2011

      9 Rabia Nazir, "Frequency adaptive repetitive control of gridconnected inverters" 584-588, 2014

      10 Ali Asbafkan, "Frequency adaptive repetitive control of grid connected inverter for wind turbine applications" 2013

      1 Dong Chen, "Research on fast transient and 6n±1 harmonics suppressing repetitive control scheme for three-phase grid-connected inverters" 6 (6): 601-610, 2013

      2 K. Zhou, "Repetitive controlled three-phase reversible PWM rectifier" 1 : 125-129, 2000

      3 H. Akagi, "New trends in active filters for power Cconditioning" 32 (32): 1312-1332, 1996

      4 P. Tomei, "Linear repetitive learning controls for nonlinear systems by Pade approximants" 29 : 783-804, 2015

      5 B. Francis, "Internal model principle in control theory" 1976

      6 T. Hornik, "H ¥ repetitive voltage control of grid-connected inverters with a frequency adaptive mechanism" 3 (3): 925-935, 2010

      7 C. Lascu, "Frequency response analysis of current controllers for selective harmonic compensation in active power filters" 56 (56): 337-347, 2009

      8 Yongheng Yang, "Frequency adaptive selective harmonic control for gridconnected inverters" 30 (30): 3912-3924, 2011

      9 Rabia Nazir, "Frequency adaptive repetitive control of gridconnected inverters" 584-588, 2014

      10 Ali Asbafkan, "Frequency adaptive repetitive control of grid connected inverter for wind turbine applications" 2013

      11 Zixiang Zou, "Fractional-order repetitive control of programmable AC power sources" 7 (7): 431-438, 2014

      12 Yigang, "Fractional delay based repetitive control with application to PWM DC/AC converters" 928-933, 2007

      13 G. F. Franklin, "Feedback Control of Dynamic Systems" Addison-Wesley 1991

      14 Zheng Zeng, "Fast-Transient Repetitive Control Strategy for a Three-phase LCL Filter-based Shunt Active Power Filter" 전력전자학회 14 (14): 392-401, 2014

      15 S. Rahmani, "Experimental design of a nonlinear control technique for three-phase shunt active power filter" 57 (57): 3364-3374, 2010

      16 K. Zhang, "Direct repetitive control of SPWM inverters for UPS purpose" 18 (18): 784-792, 2003

      17 R. Griñó, "Digital repetitive plug-in controller for odd-harmonic periodic references and disturbances" 41 (41): 153-157, 2005

      18 Keliang Zhou, "Digital repetitive controlled three-phase PWM rectifier" 48 (48): 820-830, 2001

      19 R. Griñó, "Digital Repetitive Control of a Three-Phase Four-Wire Shunt Active Filter" 54 (54): 1495-1503, 2007

      20 R. I. Bojoi, "Current control strategy for power conditioners using sinusoidal signal integrators in synchronous reference frame" 20 (20): 1402-1412, 2005

      21 S. Buso, "Comparison of current control techniques for active filters applications" 45 (45): 722-729, 1998

      22 F. Z. Peng, "Application issues of active power filters" 4 (4): 21-30, 1998

      23 Dong Chen, "An improved repetitive control scheme for grid-connected inverter with frequency-adaptive capability" 60 (60): 814-823, 2013

      24 Quoc-Nam Trinh, "Advanced Repetitive Controller to Improve the Voltage Characteristics of Distributed Generation with Nonlinear Loads" 전력전자학회 13 (13): 409-418, 2013

      25 S. K. Chung, "A phase tracking system for three phase utility interface inverters" 15 (15): 431-438, 2000

      26 Ye Y, "A novel modeling and control method for three-phase PWM converters" 1 : 102-107, 2001

      27 T. Hornik, "A current-control strategy for voltage-source inverter in microgrids based on H ¥ and repetitive control" 26 (26): 943-952, 2011

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      학술지등록 한글명 : Journal of Electrical Engineering & Technology(JEET)
      외국어명 : Journal of Electrical Engineering & Technology
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-01 평가 학술지 통합 (기타) KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.45 0.21 0.39
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.37 0.34 0.372 0.04
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