연구동향 분석
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멀티레벨 컨버터 기반 직류 배전 시스템의 신뢰성 향상을 위한 전압 변조 및 고장 허용 제어 = Modulation and Fault Tolerant Strategies for Multilevel Converter Based High Reliable Direct Current Distribution Systems

김석민 2020년

논문상세정보
인용/피인용
' 멀티레벨 컨버터 기반 직류 배전 시스템의 신뢰성 향상을 위한 전압 변조 및 고장 허용 제어 = Modulation and Fault Tolerant Strategies for Multilevel Converter Based High Reliable Direct Current Distribution Systems' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • Fault tolerance
  • Multilevel converters
  • Reliability
  • dc distribution
  • modulation
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
1,061 0

0.0%

' 멀티레벨 컨버터 기반 직류 배전 시스템의 신뢰성 향상을 위한 전압 변조 및 고장 허용 제어 = Modulation and Fault Tolerant Strategies for Multilevel Converter Based High Reliable Direct Current Distribution Systems' 의 참고문헌

  • ¡°VoltageControl of Multiterminal VSC-HVDC Transmission Systems for Offshore Wind Power Plants : Design and Implementation in a Scaled Platform
    vol . 60 , no . 6 , pp . 2381 ? 2391 [2013]
  • ¡°Voltage-Balancing Method for IGBTsConnected in Series
    vol . 40 , no . 4 , pp . 1025 ? 1030 , Jul./Aug [2004]
  • ¡°Virtual Positive-Damping Reshaped Impedance StabilityControl Method for the Offshore MVDC System
    vol . 34 , no . 5 , pp . 4951 ? 4966
  • ¡°Unbalanced ThreePhaseControl using Offset-Voltage for H-Bridge Multilevel Inverter with Faulty PowerCells
    [2008]
  • ¡°Thermal Stress Analysis of Medium-VoltageConverters for Smart Transformers ,
    vol . 32 , no . 6 , pp . 4753 ? 4765 [2017]
  • ¡°Simplified Thermal Modeling for IGBT Modules With Periodic Power Loss Profiles in Modular MultilevelConverters
    vol . 66 , no . 3 , pp . 2323 ? 2332 [2019]
  • ¡°Series-Connected IGBTs Using Active VoltageControl Technique
    vol . 28 , no . 8 , pp . 4083 ? 4103 [2013]
  • ¡°Series-Connected HV-IGBTs Using Active Voltage BalancingControl With Status FeedbackCircuit
    vol . 30 , no . 8 , pp . 4165 ? 4174 [2015]
  • ¡°Seamless TransitionControl for Modular MultilevelConverters When Inserting aCold-Reserve Redundant Submodule
    vol . 30 , no . 8 , pp . 4052 ? 4057 [2015]
  • ¡°Reliability Improvement Technology for PowerConverters
    ISBN 978-981-10-4991-0 [2017]
  • ¡°Reconfiguration ofCarrier-Based Modulation Strategy for Fault Tolerant Multilevel Inverters
    vol . 22 , no . 5 , pp . 2050 ? 2060 [2007]
  • ¡°Reconfigurable Multilevel Inverter With Fault-Tolerant Ability ,
    vol . 33 , no . 9 , pp . 7880 ? 7893 [2018]
  • ¡°Recent Advances and Industrial Applications of MultilevelConverters
    vol . 57 , no . 8 , pp . 2553 ? 2580 [2010]
  • ¡°Quasi-Square-Wave Modulation of Modular Multilevel High-Frequency DCConverter for Medium-Voltage DC Distribution Application
    vol . 33 , no . 9 , pp . 7480 ? 7495 [2018]
  • ¡°Physical Model Analysis During Transient for Series-Connected HVIGBTs ,
    vol . 29 , no . 11 , pp . 5727 ? 5737 [2014]
  • ¡°Optimal Design ofController Parameters for Improving the Stability of MMC-HVDC for Wind Farm Integration , ¡± IEEE J. Emerg
    vol . 6 , no . 1 , pp . 40 ? 53 [2018]
  • ¡°Operation ,Control , and Applications of the Modular MultilevelConverter : A Review
    vol . 30 , no . 1 , pp . 37 ? 53 [2015]
  • ¡°Modulation , Losses , and Semiconductor Requirements of Modular MultilevelConverters
    vol . 57 , no . 8 , pp . 2633 ? 2642 [2010]
  • ¡°Modular MultilevelConverters for HVDC Applications : Review onConverterCells and Functionalities
    vol . 30 , no . 1 , pp . 18 ? 36 [2015]
  • ¡°Minimum Voltage Tracking BalanceControl Based on Switched Resistor for ModularCascadedConverter in MVDC Distribution Grid
    vol . 63 , no . 9 , pp . 5437 ? 5441 [2016]
  • ¡°Lifetime Estimation of MMC for Offshore Wind Power HVDC Application
    vol . 4 , no . 2 , pp . 504 ? 511 [2016]
  • ¡°Integration of Offshore Wind Farm Using a Hybrid HVDC TransmissionComposed by the PWMCurrent-SourceConverter and Line-CommutatedConverter
    vol . 28 , no . 1 , pp . 125 ? 134 , [2013]
  • ¡°Improvement of Post-Fault Performance of aCascaded H-bridge Multilevel Inverter
    vol . 64 , no . 4 , pp . 2779 ? 2788 [2017]
  • ¡°Hybrid Topology of a Diode-Rectifier-Based HVDC System for Offshore Wind Farms , ¡± IEEE J. Emerg
    vol . 7 , no . 3 , pp . 2116 ? 2128 [2019]
  • ¡°Hybrid MultilevelConverter WithCascaded H-bridgeCells for HVDC Applications : Operating Principle and Scalability
    vol . 30 , no . 1 , pp . 65 ? 77 , [2015]
  • ¡°Hybrid Modulation Scheme for Switching Loss Reduction in a Modular Multilevel High-voltage DirectCurrentConverter
    vol . 34 , no . 4 , pp . 3178 ? 3191 [2019]
  • ¡°Harmonic Voltage andCurrent Transfer , and ACand DC-Side Impedances of HVDCConverters
    vol . 20 , no . 3 , pp . 2095 ? 2099 [2005]
  • ¡°Fault-TolerantControl of MMC With Hot Reserved Submodules Based onCarrier Phase Shift Modulation
    vol . 32 , no . 9 , pp . 6778 ? 6791 [2017]
  • ¡°Fault-TolerantControl Scheme for Modular MultilevelConverter Based on Sorting Algorithm Without Reserved Submodules
    pp . 223 ? 227 [2018]
  • ¡°Fault-Tolerant Operation of a BatteryEnergy-Storage System Based on a MultilevelCascade PWMConverter With StarConfiguration
    vol . 25 , no . 9 , pp . 2386 ? 2396 [2010]
  • ¡°Fault-Tolerant Multilevel Topology Based on Three-Phase H-Bridge Inverters for Open-End Winding Induction Motor Drives
    vol . 32 , no . 3 , pp . 895 ? 902 , [2017]
  • ¡°Fault PerformanceComparison Study of a Dual Active Bridge ( DAB )Converter and an Isolated Modular Multilevel DC/DC ( iM2DC )Converter for PowerConversion Module Application in a Breaker-Less Shipboard MVDC System
    vol . 54 , no . 5 , pp . 5444 ? 5455 [2018]
  • ¡°Fault Diagnostic System for a Multilevel Inverter Using a Neural Network
    vol . 22 , no . 3 , pp . 1062 ? 1069
  • ¡°Fault Diagnosis and Reconfiguration for Multilevel Inverter Drive Using AI-Based Techniques
    vol . 54 , no . 6 , pp . 2954 ? 2968 [2007]
  • ¡°Fault Detection on MulticellConverter Based on Output Voltage Frequency Analysis
    vol . 56 , no . 6 , pp . 2275 ? 2283 [2009]
  • ¡°Efficiency and Fault Ride-Through Performance of a Diode-Rectifierand VSC-Inverter-Based HVDC Link for Offshore Wind Farms
    vol . 60 , no . 6 , pp . 2401 ? 2409 [2013]
  • ¡°Dynamic Assessment of Source ? Load Interactions in Marine MVDC Distribution
    vol . 64 , no . 6 , pp . 4372 ? 4381 [2017]
  • ¡°Distributed PLL-BasedControl of Offshore Wind TurbinesConnected With Diode-Rectifier-Based HVDC Systems
    vol . 33 , no . 3 , pp . 1328 ? 1336 [2018]
  • ¡°Discontinuous PWM Scheme for Switching Losses Reduction in Modular MultilevelConverters
    vol . 17 , no . 6 , pp . 1490 ? 1499 [2017]
  • ¡°Development of plug and socket-outlet for 400 volts directCurrent distribution system ,
    pp . 218 ? 222 . [2011]
  • ¡°Detecting Open-Switch Faults : Using Asymmetric ZeroVoltage Switching States ,
    vol . 22 , no . 2 , pp . 27 ? 37 , Mar./Apr [2016]
  • ¡°Design and Implementation of a Modular MultilevelConverter With Hierarchical Redundancy Ability for Electric Ship MVDC System
    vol . 5 , no . 1 , pp . 189 ? 202 [2017]
  • ¡°Current-SourceConverter andCycloconverter Topologies for Industrial Medium-Voltage Drives
    vol . 55 , no . 7 , pp . 2786 ? 2797 [2008]
  • ¡°Control of a Single-PhaseCascaded HBridge Multilevel Inverter for Grid-Connected Photovoltaic Systems ,
    vol . 56 , no . 11 , pp . 4399 ? 4406 [2009]
  • ¡°Control of HVDC Light System UsingConventional and DirectCurrent VectorControl Approaches
    vol . 25 , no . 12 , pp . 3106 ? 3118 [2010]
  • ¡°Closed-Loop Discontinuous Modulation Technique forCapacitor Voltage Ripples and Switching Losses Reduction in Modular MultilevelConverters
    vol . 30 , no . 9 , pp . 4714 ? 4725 [2015]
  • ¡°Circuit Topologies , Modeling ,Control Schemes , and Applications of Modular MultilevelConverters
    vol . 30 , no . 1 , pp . 4 ? 17 [2015]
  • ¡°Balancing Algorithm for a Self-Powered High-Voltage Switch Using Series-Connected IGBTs for HVDC Applications
    vol . 34 , no . 9 , pp . 8481 ? 8490 [2019]
  • ¡°Analysis of Resonance Between a VSC-HVDCConverter and the AC Grid
    vol . 33 , no . 12 , pp . 10157 ? 10167 [2018]
  • ¡°Analysis of Dual-Infeed HVDC With LCC ? HVDC and VSC ? HVDC
    vol . 27 , no . 3 , pp . 1529 ? 1537 [2012]
  • ¡°Analysis and Experiment of a MicroLoss Multi-Port Hybrid DCCB for MVDC Distribution System
    vol . 34 , no . 8 , pp . 7933 ? 7941 [2019]
  • ¡°An Improved DroopControl Strategy for VSC-Based MVDC Traction Power Supply System
    vol . 54 , no . 5 , pp . 5173 ? 5186 , Sep./Oct [2018]
  • ¡°ActiveClampingCircuit With Status Feedback for Series-Connected HV-IGBTs ,
    vol . 50 , no . 5 , pp . 3579 ? 3590 , Sep./Oct [2014]
  • ¡°A Theoretical and Experimental Analysis of N+1 and 2N+1 Phase-ShiftedCarrier-Based PWM Strategies in Modular MultilevelConverters
    pp . 1332 ? 1339 [2014]
  • ¡°A Survey onCascaded Multilevel Inverters
    vol . 57 , no . 7 , pp . 2197 ? 2206 [2010]
  • ¡°A Novel Modulation Method for Half-Bridge Based Modular MultilevelConverter under Submodule Failure with Reduced Switching Frequency , ¡± in Proc . APEC2019Conf.
    pp . 620 ? 624 [2019]
  • ¡°A Modified Level-Shifted PWM Strategy for Fault TolerantCascaded Multilevel Inverters with Improved Power Distribution
    vol . 63 , no . 11 , pp . 7264 ? 7274 [2016]
  • ¡°A Hybrid Active Gate Drive for Switching Loss Reduction and Voltage Balancing of Series-Connected IGBTs ,
    vol . 32 , no . 10 , pp . 7469 ? 7481 [2017]
  • ¡°A Fault-Tolerant Operation Method for Medium Voltage Modular MultilevelConverters With Phase-ShiftedCarrier Modulation
    vol . 34 , no . 10 , pp . 9459 ? 9470 [2019]
  • ¡°A Fault Diagnosis Method inCascaded H-bridge Multilevel Inverter Using OutputCurrent Analysis ,
    vol . 12 , no . 6 , pp . 2278 ? 2288 [2017]
  • Trainer , and K. J. Dyke , ¡°The Extended Overlap Alternate Arm Converter : A Voltage-Source Converter With DC
    ¡± IEEE Trans . Power Electron. , vol . 33 , no .
  • R. W. D. Doncker , and S.-K. Sul , ¡°A Modular MultilevelConverter with a Zigzag Transformer for Bipolar MVDC Distribution Systems
    vol . 34 , no . 2 , pp . 1038 ? 1043 [2019]
  • M. Daiguji , and K. Baba , ¡°STATCOM Applying Flat-Packaged IGBTs Connected in Series
    vol . 20 , no . 5 , pp . 1125 ? 1132 [2005]
  • M. A. Haj-ahmed , and M. S. Illindala , ¡°Protection Strategies for Medium-Voltage Direct-Current Microgrid at a Remote Area Mine Site
    vol . 51 , no . 4 , pp . 2846 ? 2853 [2015]
  • J.-W. Park , ¡°Design and Control of a Modular Multilevel HVDC Converter With Redundant Power Modules for
    Power Del. , vol . 27 , no . 3 , pp . [1619]
  • J. O. Pontt , and S. Kouro , ¡°Multilevel Voltage-Source-Converter Topologies for Industrial Medium-Voltage Drives
    vol . 54 , no . 6 , pp . 2930 ? 2945 [2007]
  • High-Performance Switch Using Series-Connected IGBTs
    vol . 25 , no . 9 , pp . 2450 ? 2459 [2010]
  • H. Stagge , and R. W. D. Doncker , ¡°Comparison of the Modular Multilevel DC Converter and the Dual-Active Bridge Converter for Power Conversion in HVDC and MVDC Grids
    vol . 30 , no . 1 , pp . 124 ? 137 , [2015]
  • E. Elbouchikhi , and M. E. H. Benbouzid , ¡°Cascaded H-Bridge Multilevel Inverter System Fault Diagnosis Using a PCA and Multiclass Relevance Vector Machine Approach
    vol . 30 , no . 12 , pp . 7006 ? 7018 [2015]
  • 77. J. Lamb and B. Mirafzal, ¡°Open-Circuit IGBT Fault Detection and Location Isolation for Cascaded Multilevel Converters,¡± IEEE Trans. Ind. Electron., vol. 64, no. 6, pp. 4846?4856, Jun. 2017.
  • 73. P. Wikstrom, L. A. Terens, and H. Kobi, ¡°Reliability, Availability, and Maintainability of High- Power Variable-Speed Drive Systems,¡± IEEE Trans. Ind. Appl., vol. 36, no. 1, pp. 231?241, Jan./Feb. 2000.
  • 71. M. Hagiwara and H. Akagi, ¡°Control and Experiment of Pulsewidth-Modulated Modular Multilevel Converters,¡± IEEE Trans. Power Electron., vol. 24, no. 7, pp. 1737?1746, Jul. 2009.
  • 64. F. Sasongko and H. Akagi, ¡°Low-Switching-Frequency Operation of a Modular Multilevel DSCC Converter With Phase-Shifted Rotating-Carrier PWM,¡± IEEE Trans. Power Electron., vol. 32, no. 7, pp. 5058?5069, Jul. 2017.
  • 5. M. R. Islam, A. M. Mahfuz-Ur-Rahman, K. M. Muttaqi, and D Sutanto, ¡°State-of-the-Art of the Medium-Voltage Power Converter Technologies for Grid Integration of Solar Photovoltaic Power Plants,¡± IEEE Trans. Energy Convers., vol. 34, no. 1, pp. 372?384, Mar. 2019.
  • 48. N. Flourentzou, V. G. Agelidis, and G. D. Demetriades, ¡°VSC-Based HVDC Power Transmission Systems: An Overview,¡± IEEE Trans. Power Electron., vol. 24, no. 3, pp. 592? 602, Mar. 2009.
  • 45. D. Karwatzki and A. Mertens, Generalized Control Approach for a Class of Modular Multilevel Converter Topologies,¡± IEEE Trans. Power Electron., vol. 33, no. 4, pp. 2888?2900, Apr. 2018.
    vol . 33 , no . 4 , pp . 2888 ? 2900 [2018]
  • 44. P. Sochor and H. Akagi, ¡°Theoretical and Experimental Comparison Between Phase-Shifted PWM and Level-Shifted PWM in a Modular Multilevel SDBC Inverter for Utility-Scale Photovoltaic Applications,¡± IEEE Trans. Ind. Appl., vol. 53, no. 5, pp. 4695?4707, SEP./OCT. 2017.
  • 43. B. Wu, High-Power Converters and AC Drives,¡± A John Wiley & Sons, 2006.
    [2006]
  • 4. M. E. Baran and N. R. Mahajan, ¡°DC Distribution for Industrial Systems: Opportunities and Challenges,¡± IEEE Trans. Ind. Appl., vol. 39, no. 6, pp. 1596?1601, Nov. 2003.
  • 32. F. D. Freijedo, E. Rodriguez-Diaz, and D. Dujic, ¡°Stable and Passive High-Power Dual Active Bridge Converters Interfacing MVDC Grids,¡± IEEE Trans. Ind. Electron., vol. 65, no. 12, pp. 9561?9570, Dec. 2018.
  • 21. S. Srianthumrong and H. Akagi, ¡°A Medium-Voltage Transformerless AC/DC Power Conversion System Consisting of a Diode Rectifier and a Shunt Hybrid Filter,¡± IEEE Trans. Ind. Appl., vol. 39, no. 3, pp. 874?882, May/Jun. 2003.
  • 2. G. AlLee and W. Tschudi, ¡°Edison Redux: 380 Vdc Brings Reliability and Efficiency to Sustainable Data Centers,¡± IEEE Power Energy Mag., vol. 10, no. 6, pp. 50?59, Nov./Dec. 2012.
  • 1. V. A. Prabhala, B. P. Baddipadiga, P. Fajri, and M Ferdowsi, ¡°An Overview of Direct Current Distribution System Architectures & Benefits,¡± Energies, vol. 11, no. 2463, pp. 1?20, Sep. 2018.