Conferences related to Power Systems

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2019 21st European Conference on Power Electronics and Applications (EPE '19 ECCE Europe)

Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies


2019 IEEE 28th International Symposium on Industrial Electronics (ISIE)

The conference will provide a forum for discussions and presentations of advancements inknowledge, new methods and technologies relevant to industrial electronics, along with their applications and future developments.


2019 IEEE 46th Photovoltaic Specialists Conference (PVSC)

Photovoltaic materials, devices, systems and related science and technology


2019 IEEE 69th Electronic Components and Technology Conference (ECTC)

premier components, packaging and technology conference


2019 IEEE Applied Power Electronics Conference and Exposition (APEC)

APEC focuses on the practical and applied aspects of the power electronics business. The conference addresses issues of immediate and long term importance to practicing power electronics engineer.


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Periodicals related to Power Systems

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Advanced Packaging, IEEE Transactions on

The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.


Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Circuits and Systems Magazine, IEEE


Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


Communications Surveys & Tutorials, IEEE

Each tutorial reviews currents communications topics in network management and computer and wireless communications. Available tutorials, which are 2.5 to 5 hours in length contains the original visuals and voice-over by the presenter. IEEE Communications Surveys & Tutorials features two distinct types of articles: original articles and reprints. The original articles are exclusively written for IEEE Communications Surveys & Tutorials ...


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Most published Xplore authors for Power Systems

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Xplore Articles related to Power Systems

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Historical Reliability Data for IEEE 3006 Standards: Power Systems Reliability

[] 3006HistoricalData-2012 Historical Reliability Data for IEEE 3006 Standards, 2012

Reliability data gathered from equipment reliability surveys and analyses over a period of 35 years or more is summarized in this collection. Equipment surveys conducted prior to 1976, detailed reports on the surveys and data collection efforts, and extensive lists of references on equipment reliability are presented. The collection provides the analyst with options for determining reliability parameters for older ...


Distributed control implementation for zonal MVDC ship power systems

[{u'author_order': 1, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37085523835', u'full_name': u'Tuyen V. Vu', u'id': 37085523835}, {u'author_order': 2, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37086135427', u'full_name': u'David Gonsoulin', u'id': 37086135427}, {u'author_order': 3, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37086029099', u'full_name': u'Dallas Perkins', u'id': 37086029099}, {u'author_order': 4, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37944968000', u'full_name': u'Behnaz Papari', u'id': 37944968000}, {u'author_order': 5, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37528992700', u'full_name': u'Hesan Vahedi', u'id': 37528992700}, {u'author_order': 6, u'affiliation': u'Center for Advanced Power Systems, Florida State University, Tallahassee, Florida/USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37282907400', u'full_name': u'Chris S. Edrington', u'id': 37282907400}] 2017 IEEE Electric Ship Technologies Symposium (ESTS), 2017

In this paper, we present a potential distributed adaptive control architecture applied to a zonal medium voltage DC (MVDC) ship power systems. The power sharing in the MVDC network among distributed generators will be presented first. Second, the active and reactive power sharing among zones in the low voltage AC (LVAC) network will be addressed. The effect of control in ...


Graph traversal-based automation of fault detection, location, and recovery on MVDC shipboard power systems

[{u'author_order': 1, u'affiliation': u'FH OOE Upper Austria Research & Development, Stelzhammerstr. 23, 4600 Wels, Austria', u'authorUrl': u'https://ieeexplore.ieee.org/author/37086050163', u'full_name': u'Christoph Diendorfer', u'id': 37086050163}, {u'author_order': 2, u'affiliation': u'FH OOE Upper Austria Research & Development, Stelzhammerstr. 23, 4600 Wels, Austria', u'authorUrl': u'https://ieeexplore.ieee.org/author/37086058617', u'full_name': u'Jean D. Hallewell Haslwanter', u'id': 37086058617}, {u'author_order': 3, u'affiliation': u'Center for Advanced Power Systems, Florida State University, USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37297208300', u'full_name': u'Mark Stanovich', u'id': 37297208300}, {u'author_order': 4, u'affiliation': u'Center for Advanced Power Systems, Florida State University, USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37281862400', u'full_name': u'Karl Schoder', u'id': 37281862400}, {u'author_order': 5, u'affiliation': u'Center for Advanced Power Systems, Florida State University, USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37550872800', u'full_name': u'Mike Sloderbeck', u'id': 37550872800}, {u'author_order': 6, u'affiliation': u'Center for Advanced Power Systems, Florida State University, USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37594514800', u'full_name': u'Harsha Ravindra', u'id': 37594514800}, {u'author_order': 7, u'affiliation': u'Center for Advanced Power Systems, Florida State University, USA', u'authorUrl': u'https://ieeexplore.ieee.org/author/38194551100', u'full_name': u'Mischa Steurer', u'id': 38194551100}] 2017 IEEE Second International Conference on DC Microgrids (ICDCM), 2017

This paper describes a graph traversal-based method for automating system-wide programming of differential fault protection and generation of fault isolation steps in MVDC shipboard power systems (SPS). Automation is highly desired due to the increased complexity of isolating faults using disconnect switches rather than breakers. The method in this paper describes the derivation of a graph abstraction from the electrical ...


A methodology for selective localization of capacitor banks for power systems

[{u'author_order': 1, u'affiliation': u'Power Systems Research Center, IIIT Hyderabad, INDIA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37394629800', u'full_name': u'Sivaramakrishnan Raman', u'id': 37394629800}, {u'author_order': 2, u'affiliation': u'Power Systems Research Center, IIIT Hyderabad, INDIA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37336187700', u'full_name': u'Amit Jain', u'id': 37336187700}, {u'author_order': 3, u'affiliation': u'Power Systems Research Center, IIIT Hyderabad, INDIA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37604168700', u'full_name': u'M. Ramamoorty', u'id': 37604168700}, {u'author_order': 4, u'affiliation': u'Power Systems Research Center, IIIT Hyderabad, INDIA', u'authorUrl': u'https://ieeexplore.ieee.org/author/37396688100', u'full_name': u'Ashok Vaghamshi', u'id': 37396688100}] 2009 International Conference on Power Systems, 2009

The issue of voltage instability has been a predominant one to deal with in what has developed into power systems loaded near its maximum capabilities in recent times. To address this concern, with the added responsibility of accomplishing it with the resources economically, is a challenge in itself. As stated, the problem thus naturally draws attention to the localization of ...


IEEE Standard Nomenclature for Generating Station Electric Power Systems

[] ANSI/IEEE Std 505-1977, 1977

Electric power systems in stationary generating stations that provide electric power to the power system are covered. Nomenclature is included for the following interrelated systems: generating unit power system, generating unit auxiliaries power system, station auxiliaries power system, generating unit dc auxiliaries power system, and station dc auxiliaries power system. Nomenclature for instrumentation, controls, or auxiliaries is not included.


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Educational Resources on Power Systems

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eLearning

No eLearning Articles are currently tagged "Power Systems"

IEEE-USA E-Books

  • Power Electronics for Photovoltaic Power Systems

    The world energy demand has been increasing in a rapid manner with the increase of population and rising standard of living. The world population has nearly doubled in the last 40 years from 3.7 billion people to the present 7 billion people. It is anticipated that world population will grow towards 8 billion around 2030. Furthermore, the conventional fossil fuel supplies become unsustainable as the energy demand in emerging big economies such as China and India would rise tremendously where the China will increase its energy demand by 75% and India by 100% in the next 25 years. With dwindling natural resources, many countries throughout the world have increasingly invested in renewable resources such as photovoltaics (PV) and wind. The world has seen immense growth in global photovoltaic power generation over the last few decades. For example, in Australia, renewable resources represented nearly 15% of total power generation in 2013. Among renewable resources, solar and wind account for 38% of generation. In near future, energy in the domestic and industrial sector will become ""ubiquitous"" where consumers would have multiple sources to get their energy. Another such prediction is that co- location of solar and electrical storage will see a rapid growth in global domestic and industrial sectors; conventional power companies, which dominate the electricity market, will face increasing challenges in maintaining their incumbent business models. The efficiency, reliability and cost-effectiveness of the power converters used to interface PV panels to the mains grid and other types of off-grid loads are of major concern in the process of system design. This book describes state-of-the-art power electronic converter topologies used in various PV power conversion schemes. This book aims to provide a reader with a wide variety of topologies applied in different circumstances so that the reader would be able to make an educated choice for a given application.

  • Power Systems Basics

    No abstract.

  • Wide-area Oscillation Identification and Damping Control in Power Systems

    While electric vehicles (EVs) are becoming increasingly popular. Their low oil dependency and low emissions will significantly benefit the environment. However, as demand increases for EVs, their prevalence will also lead to two crucial consequences. First, electric vehicles introduce a heavy load impact onto the power grid by shifting energy demand from gasoline to electricity. The surging load is likely to compromise the grid’s reliability and jeopardize its power supply quality. Second, charging stations become indispensable infrastructure to support widescale deployment of EVs. EVs will therefore find themselves competing for both power supply and charging stations. Such competition can degrade quality of service and thus compromise the original intent of advocating electric vehicles. Sustainable Transportation with Electric Vehicles investigates smart electric vehicle charging. It focuses jointly on the quality of service for EV users and the stability and reliability of the power grid. It lays out a solution framework that addresses many of the key problems arising from both the lower and upper levels. The proposed solutions are developed mainly using techniques from the optimization, game theory, algorithmic, and scheduling fields.

  • Overview of Applications in Power Systems

    This chapter contains sections titled: * Introduction * Optimization * Power System Applications * Model Identification * Control * Distribution System Applications * Conclusions * References

  • Large Power Systems: Structure and Operation

    This chapter aims to provide readers with a basic idea of large power systems so they have sufficient background when dealing with the LV installation of an electric machine or drive. LV installations, both single-phase and three- phase, are usually just the extreme terminal parts of a much larger system. The chapter provides some basic characteristics of large power system structures and operations. It shows the evolution from a simple subtransmission grid to a power system comprising downstream distribution networks. It discusses transmission and interconnection grids, and summarizes the typical structure of a traditional power system. Prior to 1990s, vertically integrated utilities performed all the generation and transmission activities; but now vertically integrated utilities have been progressively?>unbundled?>. The chapter also discusses smart grids and renewable energy sources.

  • Introduction to Electromagnetic Transient Analysis of Power Systems

    The analysis and simulation of electromagnetic transients has become a fundamental methodology for understanding the performance of power systems, determining power component ratings, explaining equipment failures or testing protection devices. Power system transients can be electromagnetic, when it is necessary to analyse the interaction between the (electric) energy stored in capacitors and the (magnetic) energy stored in inductors, or electromechanical, when the analysis involves the interaction between the electric energy stored in circuit elements and the mechanical energy stored in rotating machines. This book provides a basic background to the main solution techniques presently applied to the calculation of electromagnetic transients, and gives details of the main applications of the most popular transient tools (insulation coordination, power electronics applications, protection). It discusses new developments (e.g. dynamic average models, interfacing techniques) mostly aimed at overcoming some limitations of the present software tools.

  • Group Properties of Contingencies in Power Systems

    This chapter contains sections titled: * Introduction * Groups of Coherent Contingencies * Identification of a Group of Coherent Contingencies * Static Group Properties * Dynamic Group Properties * Concluding Remarks

  • Fundamentals of Electronic Power Conversion

    This chapter aims to give sufficient knowledge of how electric power is converted using electronic power converters, in order to facilitate the study of electric drives. Furthermore, it presents how inverters operate to allow power to be fed into grids from low power power plants such as small photovoltaic generators. A concise description of the behaviour of the devices, as well as an introduction to approximations in such a way that they can be analysed using the linear circuit concepts. Rectifiers are devices that convert AC power into DC without affecting (if we disregard inner power losses) the transferred power. This concept is illustrated, showing single- phase and three-phase rectifiers.

  • Electric Shock and Protective Measures

    Current flowing in the body of a human being may have several types of effect, some of them harmful or even deadly. The greater the current or the exposition time, the more serious the effects. DC currents are also dangerous, but in general they are significantly less dangerous than AC currents, when equal current (comparing DC current with rms AC) and exposition time are considered. Protection against electric shock is ensured differently for two types of risks: direct contact and indirect contact. Basic protection is mainly achieved by surrounding the live parts with insulating material. In civil environments, except for very low voltage appliances, everything live is surrounded by insulating materials. It was stated that the most common and effective device for automatic disconnection of the electric supply caused by a fault is the so-called residual current device (RCD).

  • The Fundamental Laws of Electromagnetism

    In this chapter, the author offers a concise presentation of all the basic laws of electromagnetism - that is, the laws of Gauss, Ampère (with Maxwell's added displacement current), and Faraday, as well as Gauss's law for magnetism and the definitions of E and B by means of induced forces. This way the authors provide some basic knowledge to those who have not previously encountered them. Forces, currents, potentials, and fields used in the chapter can all be time-varying. The chapter starts with the definitions of electric and magnetic fields, which link the worlds of mechanical and electromagnetic phenomena. The chapter concludes with the short biography of Faraday, Gauss, Maxwell, Ampère and Lorentz.



Standards related to Power Systems

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IEEE Application Guide for Distributed Digital Control and Monitoring for Power Plants


IEEE Application Guide for IEEE Std 1547™, IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems

This guide provides technical background and application details to support understanding of IEEE Std 1547-2003.


IEEE Application Guide for Low-Voltage AC Power Circuit Breakers Applied with Separately-Mounted Current-Limiting Fuses

This guide applies to low-voltage ac power circuit breakers of the 635 V maximum voltage class with separately-mounted current-limiting fuses for use on ac circuits with available short-circuit currents of 200 000 A (rms symmetrical) or less. Low-voltage ac fused power circuit breakers and combinations of fuses and molded-case circuit breakers are not covered by this guide. This guide sets ...


IEEE Design Guide for Electric Power Service Systems for Generating Stations


IEEE Guide for Array and Battery Sizing in Stand-Alone Photovoltaic (PV) Systems

This guide provides information to assist in sizing the array and battery of a stand-alone photovoltaic system. Systems considered in this guide consist of PV as the only power source and a battery for energy storage. These systems also commonly employ controls to protect the battery from being over- or undercharged, and may employ a power conversion subsystem (inverter or ...


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Jobs related to Power Systems

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