Hybrid DC Circuit Breaker and Fault Current Limiter With Optional Interruption Capability

Since most of renewable energy resources are dc type, dc microgrids find more attention in deregulated power systems for improvement of reliability and efficiency of the system. In dc microgrids, there is no zero-crossing in current and voltage; so the circuit breaking and fault current limiting are serious concerns. Conventional thyristor-based dc fault current limiters are attractive solutions for tackling this problem. However, they impose permanent interruption on the system in case of temporary fault. In this paper, a novel hybrid circuit breaker (HCB) is proposed to improve power quality of the system by adopting different limiting behaviors for permanent and temporary faults. The proposed HCB transfers load power through a mechanical circuit breaker (MCB) under normal condition. Upon fault occurrence in both sides of the HCB, the fault current is transferred from the MCB to a current limiting path incorporating a zero voltage switching (ZVS) transition mechanism. The HCB limits the fault current for a predefined duration and then interrupts the faulty feeder. In case of temporary fault, the current is returned to the MCB in ZVS. The HCB operation principle is discussed in different operation modes. Capabilities of the proposed HCB are tested and verified by different experiments carried out on a prototype.

[1]  Pierluigi Siano,et al.  A Review of Architectures and Concepts for Intelligence in Future Electric Energy Systems , 2015, IEEE Transactions on Industrial Electronics.

[2]  H. Pugliese,et al.  Discovering DC: A Primer on dc Circuit Breakers, Their Advantages, and Design , 2013, IEEE Industry Applications Magazine.

[3]  Anshuman Shukla,et al.  A Survey on Hybrid Circuit-Breaker Topologies , 2015, IEEE Transactions on Power Delivery.

[4]  Kari Alanne,et al.  Distributed energy generation and sustainable development , 2006 .

[5]  A. Abramovitz,et al.  Survey of Solid-State Fault Current Limiters , 2012, IEEE Transactions on Power Electronics.

[6]  J. Driesen,et al.  Protection Issues in Microgrids with Multiple Distributed Generation Units , 2007, 2007 Power Conversion Conference - Nagoya.

[7]  A. Sannino,et al.  Low-Voltage DC Distribution System for Commercial Power Systems With Sensitive Electronic Loads , 2007, IEEE Transactions on Power Delivery.

[8]  Chen Wang,et al.  A Hybrid DC Vacuum Circuit Breaker for Medium Voltage: Principle and First Measurements , 2015, IEEE Transactions on Power Delivery.

[9]  J.G.J. Sloot,et al.  Hybrid switching: a review of current literature , 1998, Proceedings of EMPD '98. 1998 International Conference on Energy Management and Power Delivery (Cat. No.98EX137).

[10]  Mohammad Shahidehpour,et al.  DC Microgrids: Economic Operation and Enhancement of Resilience by Hierarchical Control , 2014, IEEE Transactions on Smart Grid.

[11]  W. Rieder Circuit breakers Physical and engineering problems III - Arc-medium considerations , 1970, IEEE Spectrum.

[12]  Bin Li,et al.  Studies on the Application of R-SFCL in the VSC-Based DC Distribution System , 2016, IEEE Transactions on Applied Superconductivity.

[13]  Edris Pouresmaeil,et al.  Distributed energy resources and benefits to the environment , 2010 .

[14]  Wang Li,et al.  Research on main circuit topology for a novel DC solid-state circuit breaker , 2010, 2010 5th IEEE Conference on Industrial Electronics and Applications.

[15]  Li Ren,et al.  The Application of Active Superconducting DC Fault Current Limiter in Hybrid AC/DC Power Supply Systems , 2008, IEEE Transactions on Applied Superconductivity.

[16]  R.W. De Doncker,et al.  Solid-state circuit breaker based on active thyristor topologies , 2006, IEEE Transactions on Power Electronics.

[17]  Alvaro Luna,et al.  Protection of AC and DC distribution systems. Embedding distributed energy resources: a comparative review and analysis , 2015 .

[18]  Rudy Setiabudy,et al.  Review of microgrid technology , 2013, 2013 International Conference on QiR.

[19]  S. Okabe,et al.  Applications of DC Breakers and Concepts for Superconducting Fault-Current Limiter for a DC Distribution Network , 2009, IEEE Transactions on Applied Superconductivity.

[20]  A. Shukla,et al.  State of art of power electronics in circuit breaker technology , 2012, 2012 IEEE Energy Conversion Congress and Exposition (ECCE).

[21]  W. Rieder,et al.  Circuit breakers Physical and engineering problems I - Fundamentals , 1970, IEEE Spectrum.

[22]  Osama A. Mohammed,et al.  DC microgrids and distribution systems: An overview , 2013, 2013 IEEE Power & Energy Society General Meeting.

[23]  R.W. De Doncker,et al.  Design of solid-state circuit breakers for medium-voltage systems , 2003, 2003 IEEE PES Transmission and Distribution Conference and Exposition (IEEE Cat. No.03CH37495).

[24]  Keith Corzine,et al.  DC Microgrid Protection: Using the Coupled-Inductor Solid-State Circuit Breaker , 2016, IEEE Electrification Magazine.

[25]  Juan C. Vasquez,et al.  DC Microgrids—Part II: A Review of Power Architectures, Applications, and Standardization Issues , 2016, IEEE Transactions on Power Electronics.

[26]  A. Sannino,et al.  Protection of Low-Voltage DC Microgrids , 2009, IEEE Transactions on Power Delivery.

[27]  Y. Chen,et al.  Design and Application of a Superconducting Fault Current Limiter in DC Systems , 2014, IEEE Transactions on Applied Superconductivity.

[28]  E. A. Lomonova,et al.  Multi-stage DC hybrid switch with slow switching , 2011, IECON 2011 - 37th Annual Conference of the IEEE Industrial Electronics Society.

[29]  Mei Li,et al.  Research on a novel two-stage direct current hybrid circuit breaker. , 2014, The Review of scientific instruments.

[30]  A.R. Bendre,et al.  Circuit Breaker Technologies for Advanced Ship Power Systems , 2007, 2007 IEEE Electric Ship Technologies Symposium.

[31]  Tsuyoshi Murata,et al.  {m , 1934, ACML.

[32]  S. B. Tennakoon,et al.  A two-stage DC thyristor circuit breaker , 1997 .

[33]  T. Lipski,et al.  Hybrid arcless low-voltage AC/DC current limiting interrupting device , 2000 .

[34]  Juan C. Vasquez,et al.  DC Microgrids—Part I: A Review of Control Strategies and Stabilization Techniques , 2016, IEEE Transactions on Power Electronics.

[35]  A. Sannino,et al.  Feasibility of a DC network for commercial facilities , 2002, Conference Record of the 2002 IEEE Industry Applications Conference. 37th IAS Annual Meeting (Cat. No.02CH37344).

[36]  M. Steurer,et al.  A Novel Hybrid Current-Limiting Circuit Breaker for Medium Voltage: Principle and Test Results , 2002, IEEE Power Engineering Review.

[37]  K. Frohlich,et al.  A novel hybrid current-limiting circuit breaker for medium voltage: principle and test results , 2003, 2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491).

[38]  Robert M. Cuzner,et al.  The Status of DC Micro-Grid Protection , 2008, 2008 IEEE Industry Applications Society Annual Meeting.

[39]  Jae-Sang Hwang,et al.  Validity Analysis on the Positioning of Superconducting Fault Current Limiter in Neighboring AC and DC Microgrid , 2013, IEEE Transactions on Applied Superconductivity.

[40]  Magdi S. Mahmoud,et al.  Review of microgrid architectures – a system of systems perspective , 2015 .

[41]  J. R. McDonald,et al.  UK distribution system protection issues , 2007 .

[42]  W. Rieder Circuit breakers Physical and engineering problems II - Design considerations , 1970, IEEE Spectrum.

[43]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[44]  R.W. De Doncker,et al.  Solid-state circuit breakers and current limiters for medium-voltage systems having distributed power systems , 2004, IEEE Transactions on Power Electronics.

[45]  Xi Fang,et al.  3. Full Four-channel 6.3-gb/s 60-ghz Cmos Transceiver with Low-power Analog and Digital Baseband Circuitry 7. Smart Grid — the New and Improved Power Grid: a Survey , 2022 .

[46]  G. D. Gregory Applying low-voltage circuit breakers in direct current systems , 1994 .

[47]  R.G. Hoerauf,et al.  Characteristics and applications of various arc interrupting methods , 1990, Conference on Industrial and Commercial Power Systems.

[48]  He Zhiyuan,et al.  A hybrid circuit breaker for DC-application , 2015, 2015 IEEE First International Conference on DC Microgrids (ICDCM).