IEEE Organizations related to Dc Distribution Systems

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Conferences related to Dc Distribution Systems

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2020 IEEE Industry Applications Society Annual Meeting

The Annual Meeting is a gathering of experts who work and conduct research in the industrial applications of electrical systems.


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


IECON 2020 - 46th Annual Conference of the IEEE Industrial Electronics Society

IECON is focusing on industrial and manufacturing theory and applications of electronics, controls, communications, instrumentation and computational intelligence.


2019 10th International Conference on Power Electronics and ECCE Asia (ICPE 2019 - ECCE Asia)

1. Power Electronic Devices (Si and Wide band-gap) and Applications, 2. Power electronic packaging and integration, 3. Modeling, Simulation and EMI, 4. Lighting Technologies and Applications, 5. Wireless Power Transfer, 6. Uncontrolled Rectifiers and AC/DC Converters, 7. AC/AC Converters, 8. DC/AC Inverters, 9. DC/DC Converters, 10. Multilevel Power Converters, 11. Electric Machines, Actuators and Sensors, 12. Motor Control and Drives, 13. Sensorless and Sensor-Reduction Control, 14. Renewable Energy and Distributed Generation Systems, 15. Smart/Micro Grid, 16. DC Distribution 17. Power Quality (or Power Electronics for Utility Interface), 18. Energy Storage and Management Systems, 19. Power Electronics for Transportation Electrification, 20. Reliability, diagnosis, prognosis and protection, 21. High Voltage DC Transmission, 22. Other Selected Topics in Power Electronics

  • 2015 IEEE 9th International Conference on Power Electronics and ECCE Asia (ICPE-ECCE Asia)

    Power electronics, renewable energy, electric vehicle, smart grid

  • 2014 International Power Electronics Conference (IPEC-Hiroshima 2014 ECCE-ASIA)

    The seventh International Power Electronics Conference, IPEC-Hiroshima 2014 -ECCE Asia-, will be held from May 18 to May 21, 2014 in Hiroshima, Japan. The conference venue will be the International Conference Center Hiroshima, which is located in Hiroshima Peace Memorial Park. Power electronics has been providing numerous new technologies in the fields of electric energy conversion and motor drive systems for more than 40 years. In recent years, global energy and environmental issues are becoming more serious and power electronics is expected to play a key role in solving such problems. The IPEC-Hiroshima 2014 -ECCE Asia- will provide a unique opportunity for researchers, engineers, and academics from all over the world to present and exchange the latest information on power electronics, motor drives, and related subjects.

  • 2011 IEEE 8th International Conference on Power Electronics & ECCE Asia (ICPE 2011- ECCE Asia)

    01. Power Semiconductor Devices and Packaging 02. Modeling, Simulation, EMI and Reliability 03. Electric Machines, Actuators and Sensors 04. Motor Control and Drives 05. Sensorless Control 06. Renewable Green Energy (Wind, Solar, Tidal Power Generation) 07. Micro Grid and Distributed Generation 08. Electric Propulsion System (EV, Train, Electric Ship) 09. Electric and Hybrid Vehicles 10. Power Supplies and EV Chargers 11. Power Electronics and Drives for Home Appliance 12. Power Elect

  • 2007 7th International Conference on Power Electronics (ICPE)

    - Power Semiconductor Devices - DC-DC Converters - Inverters and Inverter Control Techniques - Motor Drives - Rectifiers and AC-AC Converters - Renewable Energy - Power Quality and Utility Applications - Automotive Applications and Traction Drives - Energy Storage - Control Techniques Applied to Power Electronics - Modeling, Analysis, and Simulation - Consumer Applications - Other Power Applications


2019 IEEE 10th International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

PEDG 2019 will feature plenary speeches, tutorials, and regular technical sessions on theory, analysis, design and development, testing, deployment and impact of power electronics for distributed generation, energy storage, and sustainable sources.


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Periodicals related to Dc Distribution Systems

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No periodicals are currently tagged "Dc Distribution Systems"


Most published Xplore authors for Dc Distribution Systems

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Xplore Articles related to Dc Distribution Systems

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A New Protection Scheme for MMC-Based MVdc Distribution Systems With Complete Converter Fault Current Handling Capability

IEEE Transactions on Industry Applications, 2019

DC fault handling is a critical aspect for designing and operating dc distribution systems. DC distribution protection must be rapid to avoid the damages caused by the fast growth of dc fault currents. For medium-voltage dc (MVdc) distribution systems, low-cost high-speed dc breakers are still challenging. A hybrid modular multilevel converter (MMC)-based dc fault protection and restoration method is proposed ...


Transient High-frequency Impedance Comparison Based Protection for Flexible DC Distribution Systems

IEEE Transactions on Smart Grid, None

Flexible direct current (DC) distribution systems have emerged as the development trend for future distribution grids. However, these systems are vulnerable to DC faults, rapid fault identification and faulted line selection method are required to enhance the security of the entire system. A novel transient high-frequency impedance comparison based DC protection for flexible DC distribution systems is proposed in this ...


Distance Protection Scheme for DC Distribution Systems Based on the High Frequency Characteristics of Faults

IEEE Transactions on Power Delivery, None

Due to the advantages of flexible and efficient power conversion, large power supply radius and high power quality, flexible DC distribution system has become an important research trend. However, when DC fault occurs, the short- circuit current provided by the converter is nonlinear due to different controls. In this case, it is difficult to identify the correct faulted area based ...


Extra-Fast DC Distribution System Protection for Future Energy Systems

IEEE Transactions on Industry Applications, 2019

DC distribution systems are being widely adopted in many industrial, commercial, and military energy systems such as commercial buildings, data centers, railway electrification systems, off-shore wind farms, and shipboard power systems. A dc distribution system can improve energy efficiency and reduce the size or weight of power systems. A typical dc distribution system, like the ones mentioned, includes multiple power ...



Educational Resources on Dc Distribution Systems

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IEEE-USA E-Books

  • A New Protection Scheme for MMC-Based MVdc Distribution Systems With Complete Converter Fault Current Handling Capability

    DC fault handling is a critical aspect for designing and operating dc distribution systems. DC distribution protection must be rapid to avoid the damages caused by the fast growth of dc fault currents. For medium-voltage dc (MVdc) distribution systems, low-cost high-speed dc breakers are still challenging. A hybrid modular multilevel converter (MMC)-based dc fault protection and restoration method is proposed for a cost-effective dc fault protection solution for MMC-based MVdc systems. In the proposed protection solution, the converter topology and associated fault handling can bypass and interrupt the fault currents from both ac and dc sources, and thus allowing fast dc fault isolation by low-cost no-load dc disconnectors. Furthermore, the proposed dc protection solution facilitates converter fault ride-through and system restoration after fault removal. Simulation results of the pole-to-pole fault protection show the satisfactory performance of the proposed protection solution and scheme.

  • Transient High-frequency Impedance Comparison Based Protection for Flexible DC Distribution Systems

    Flexible direct current (DC) distribution systems have emerged as the development trend for future distribution grids. However, these systems are vulnerable to DC faults, rapid fault identification and faulted line selection method are required to enhance the security of the entire system. A novel transient high-frequency impedance comparison based DC protection for flexible DC distribution systems is proposed in this paper. The control-independent high frequency impedance model of power converter is also investigated. Based on this model, the proposed method identified the faulted lines by comparing high frequency impedance measurement differences. For DC bus with multiple branches, this technique minimizes the threshold calculation job, which is usually difficult to process for the transient value based protections. Strict synchronization of data is also not required for this method. The simulation model of four-terminal flexible DC distribution networks is built in PSCAD/EMTDC to verify the effectiveness of the proposed protection model. Simulation results prove that the protection is robust to fault transition resistances and the measurement noise.

  • Distance Protection Scheme for DC Distribution Systems Based on the High Frequency Characteristics of Faults

    Due to the advantages of flexible and efficient power conversion, large power supply radius and high power quality, flexible DC distribution system has become an important research trend. However, when DC fault occurs, the short- circuit current provided by the converter is nonlinear due to different controls. In this case, it is difficult to identify the correct faulted area based on the converter's varying impedance. Aiming at the above problems, based on the characteristics of fault transient components in the system, the circuits of fault high frequency signal in the converters are analyzed. Then the high frequency constant impedance equivalent models of converters are established, which are not affected by the control strategies. On this basis, a distance protection method based on the feature of high-frequency fault transient is proposed. This method utilizes the electrical transients of several milliseconds before and after the fault, extracts the high frequency components of the voltage and current to map the faulted section, and realizes the fault region identification by combining the protection setting and coordination. The detailed model of a six-terminal flexible DC distribution system is built on PSCAD/EMTDC electromagnetic transient simulation platform. The simulation results show that the proposed method has good speed and selectivity. It can reliably identify faulted areas, and can withstand transition resistance and system noise.

  • Extra-Fast DC Distribution System Protection for Future Energy Systems

    DC distribution systems are being widely adopted in many industrial, commercial, and military energy systems such as commercial buildings, data centers, railway electrification systems, off-shore wind farms, and shipboard power systems. A dc distribution system can improve energy efficiency and reduce the size or weight of power systems. A typical dc distribution system, like the ones mentioned, includes multiple power electronics converters, distributed capacitors, active loads, and short lines with low impedance. Thus, in case of a short circuit fault, the dc fault current increases extremely fast without zero-crossing. This is a great challenge for dc system protection. In addition, in-line dc series arc faults are also a potential threat that must be detected and localized to reduce fire hazards. This paper presents a comprehensive protection approach leveraging the converter fault current limiting function as well as an advanced fault localization approach to achieve reliable fault detection, localization, and isolation. Numerical simulation and experimental tests are used to validate the effectiveness of the proposed method.



Standards related to Dc Distribution Systems

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Jobs related to Dc Distribution Systems

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