Conferences related to Power Supply

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2017 IEEE Power & Energy Society General Meeting

The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2015 IEEE Power & Energy Society General Meeting

    The annual IEEE PES General Meeting will bring together over 2500 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more PLEASE NOTE: Abstracts are not accepted for the 2015 IEEE PES General Meeting, full papers only can be submitted to the submission site 24 October 2014 through 21 November 2014.  The site will be available from the PES home page www.ieee-pes.org

  • 2014 IEEE Power & Energy Society General Meeting

    The annual IEEE PES General Meeting will bring together over 2500 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutotials and more

  • 2013 IEEE Power & Energy Society General Meeting

    The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2012 IEEE Power & Energy Society General Meeting

    The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2011 IEEE Power & Energy Society General Meeting

    IEEE Power & Energy Annual Meeting --Papers --Awards --Plenary --Committee Meetings --Governing Board --Receptions --Tech tours --Tutorials --Companions Program

  • 2010 IEEE Power & Energy Society General Meeting

    IEEE Power & Energy Society Annual Meeting --Technical Sessions --Committee Meetings --Plenary Session --Gove Board Meeting --Awards Banquet --Tutorials --Student Activities --Social Events --Companions Program

  • 2009 IEEE Power & Energy Society General Meeting

    Paper and Panel sessions involving topics of interest to electric power engineers, technical committee meetings, administrative committee meetings, awards luncheon and plenary session.

  • 2008 IEEE Power & Energy Society General Meeting

    This meeting has paper and panel sessions on all areas of interest to electric power engineers.

  • 2007 IEEE Power Engineering Society General Meeting

  • 2006 IEEE Power Engineering Society General Meeting


2012 China International Conference on Electricity Distribution (CICED)

Network Asset and its management; Power Quality and Over-voltage Protection; Operation, Control, Protection and Communication; Distributed Energy Resources and Its Interconnection to the network; Smart Distribution; Customer Service.

  • 2010 China International Conference on Electricity Distribution (CICED)

    Electricity Distribution

  • 2008 China International Conference on Electricity Distribution (CICED 2008)

    The theme of the CICED 2008 is Share sustainable innovation, better serve society . We will discuss the current issues in power industry and energy domain, exchange new challenges and new trends brought to the distribution network by renewable energy, , etc, share the achievements in distribution network planning, design, operation and management


2012 IEEE International Conference on Power System Technology - (POWERCON 2012)

The theme of this conference is Towards Smarter Resilient and Economic Power Systems . This is topical in the context of emerging trends of Smart Grids; resilience of electricity infrastructure to recent earthquakes, floods, nuclear-meltdown in the Asia-Pacifc region; and, trends towards Emission Trading Scheme and increased participation of private capital markets into electricity generation. A flavour of this theme in the context of New Zealand will be highlight to all our international participants.

  • 2010 International Conference on Power System Technology - (POWERCON 2010)

    distributed generation, renewables generation and its integration into power systems, UHV transmission, wide area interconnections, development of smart grid, energy storage, energy saving and emission reduction.

  • 2008 Joint International Conference on Power System Technology (POWERCON) and IEEE Power India Conference

    State-of-the-art lectures and tutorials by experts, and papers by practicing Engineers and Researchers will be presented in the areas of Power System Analysis , Computing and Economics, Modelling and Dynamic Performance, FACTS and HVDC, Restructured Energy Systems, Control and Operation, Communication and Control, Relaying and Protection, Energy Management System and Distribution Automation, Applications of Power Electronics and Power Quality, Distributed Generation & Renewable Energy Sources

  • 2006 International Conference on Power System Technology - (POWERCON 2006)


2010 9th International Power & Energy Conference (IPEC 2010)

The theme of the conference is "Developing Electrical Power and Energy Systems through Technological Innovation". IPEC2010 welcomes technical contributions in all areas of power engineering and power electronics, with special emphasis on the theme of the conference.

  • 2007 International Power Engineering Conference (IPEC)

    The theme of the conference is "Sustainable Development of Electrical Power Systems: Challenges and Opportunities". Topics of interest include, but are not limited to, Electricity market, system operation and planning, reliability, security and risk assessment, power system modeling, analysis and control, system blackouts, renewable and distributed generation, power electronics, electrical machines and drives, protection, power quality, HVDC and FACTS, asset mgmnt.

  • 2005 International Power Engineering Conference (IPEC)



Periodicals related to Power Supply

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Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on

Methods, algorithms, and human-machine interfaces for physical and logical design, including: planning, synthesis, partitioning, modeling, simulation, layout, verification, testing, and documentation of integrated-circuit and systems designs of all complexities. Practical applications of aids resulting in producible analog, digital, optical, or microwave integrated circuits are emphasized.


Industrial Electronics, IEEE Transactions on

Theory and applications of industrial electronics and control instrumentation science and engineering, including microprocessor control systems, high-power controls, process control, programmable controllers, numerical and program control systems, flow meters, and identification systems.


Power Electronics, IEEE Transactions on

Fundamental technologies used in the control and conversion of electric power. Topics include dc-to- dc converter design, direct off-line switching power supplies, inverters, controlled rectifiers, control techniques, modeling, analysis and simulation techniques, the application of power circuit components (power semiconductors, magnetics, capacitors), and thermal performance of electronic power systems.


Very Large Scale Integration (VLSI) Systems, IEEE Transactions on

Integrated circuits and systems;VLSI based Architecture and applications; highspeed circuits and interconnect; mixed-signal SoC; speed/area/power/noise tradeoffs in CMOS circuits.



Most published Xplore authors for Power Supply

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Xplore Articles related to Power Supply

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Modular single-stage, three-phase full-bridge converter with inherent power factor correction and isolated output

S. Y. R. Hui; Y. K. E. Ho; H. Chung IEE Proceedings - Electric Power Applications, 1999

The modular development of a three-phase, single-stage AC-DC power converter based on single-phase AC-DC full-bridge converters is described. Three-wired and four-wired modular converter systems are examined and compared. The three- wired system is found to have inherent power factor correction and is better than the four-wired system in terms of harmonic content. The fluctuation of the converter neutral voltage in ...


Effect of distributed generations based on renewable energy on the transient fault - Ride through

F. Alsokhiry; K. L. Lo Renewable Energy Research and Applications (ICRERA), 2013 International Conference on, 2013

Many power systems are facing power quality problems and transmission equipment are stressed with heavy power flows over long distances. Distributed generation (DG) units can minimize the burden on transmission networks by supplying local loads and providing ancillary services. However, increased penetration of DG units in the distribution networks require new operating conditions to ensure safe and secure system operation. ...


Power quality on ships: Today and tomorrow's challenges

Janusz Mindykowski Electrical and Power Engineering (EPE), 2014 International Conference and Exposition on, 2014

This paper deals with a problem of electrical power quality on ships, observed from today perspective and appointing tomorrow's challenges. Two basic aspects, assessment and improvement of power quality are taken into account. In the process of power quality assessment, the existing ambiguities are analyzed and discussed, after that the undertaken measures and challenges to overcome them are presented. The ...


Mitigation of voltage dips through distributed generation systems

K. J. P. Macken; M. H. J. Bollen; R. J. M. Belmans IEEE Transactions on Industry Applications, 2004

Voltage dips are often responsible for disrupting the operation of sensitive electronic equipment. In this paper, two solutions are presented to prevent sensitive equipment from disruptive operation. Both solutions make use of distributed generation systems to maintain the voltage across the equipment in the presence of voltage dips. The emphasis of this paper is on the transient response of both ...


The effects of no-load voltage level of traction power supplies on energy consumption of a mass rail transit system

S. Aç ikbaş ; M. T. Sö ylemez Railway Traction Systems (RTS 2010), IET Conference on, 2010

The energy consumption per train*km depends on many factors including characteristics of vehicles, line geometry, and power supply system. Regenerative braking system usage is one of the most effective methods of reducing energy consumption, and is a common practice in mass rail transit systems. Regenerated energy and receptivity rate of it depends on various parameters. One of these parameters is ...


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Educational Resources on Power Supply

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eLearning

Modular single-stage, three-phase full-bridge converter with inherent power factor correction and isolated output

S. Y. R. Hui; Y. K. E. Ho; H. Chung IEE Proceedings - Electric Power Applications, 1999

The modular development of a three-phase, single-stage AC-DC power converter based on single-phase AC-DC full-bridge converters is described. Three-wired and four-wired modular converter systems are examined and compared. The three- wired system is found to have inherent power factor correction and is better than the four-wired system in terms of harmonic content. The fluctuation of the converter neutral voltage in ...


Effect of distributed generations based on renewable energy on the transient fault - Ride through

F. Alsokhiry; K. L. Lo Renewable Energy Research and Applications (ICRERA), 2013 International Conference on, 2013

Many power systems are facing power quality problems and transmission equipment are stressed with heavy power flows over long distances. Distributed generation (DG) units can minimize the burden on transmission networks by supplying local loads and providing ancillary services. However, increased penetration of DG units in the distribution networks require new operating conditions to ensure safe and secure system operation. ...


Power quality on ships: Today and tomorrow's challenges

Janusz Mindykowski Electrical and Power Engineering (EPE), 2014 International Conference and Exposition on, 2014

This paper deals with a problem of electrical power quality on ships, observed from today perspective and appointing tomorrow's challenges. Two basic aspects, assessment and improvement of power quality are taken into account. In the process of power quality assessment, the existing ambiguities are analyzed and discussed, after that the undertaken measures and challenges to overcome them are presented. The ...


Mitigation of voltage dips through distributed generation systems

K. J. P. Macken; M. H. J. Bollen; R. J. M. Belmans IEEE Transactions on Industry Applications, 2004

Voltage dips are often responsible for disrupting the operation of sensitive electronic equipment. In this paper, two solutions are presented to prevent sensitive equipment from disruptive operation. Both solutions make use of distributed generation systems to maintain the voltage across the equipment in the presence of voltage dips. The emphasis of this paper is on the transient response of both ...


The effects of no-load voltage level of traction power supplies on energy consumption of a mass rail transit system

S. Aç ikbaş ; M. T. Sö ylemez Railway Traction Systems (RTS 2010), IET Conference on, 2010

The energy consumption per train*km depends on many factors including characteristics of vehicles, line geometry, and power supply system. Regenerative braking system usage is one of the most effective methods of reducing energy consumption, and is a common practice in mass rail transit systems. Regenerated energy and receptivity rate of it depends on various parameters. One of these parameters is ...


More eLearning Resources

IEEE-USA E-Books

  • Index

    The five chapters of this book collect and illustrate techniques that have been applied to the prediction of reliability and availability of the various specific segments of an electric power system. The text emphasizes the numerical procedures employed in making these reliability and availability predictions. Other related criteria that have been put forward in the literature, such as adequacy, dependability, and security, are also introduced and defined as needed and as applied in specific contexts.The book opens with a discussion of reliability and availability applications to transmission and distribution systems, treating independent component outages and their effects on the continuity of supply. It then takes up models for generation planning and proceeds to the area of bulk power supply system reliability evaluation, offering methods for prediction of composite reliability of the generation and transmission systems. A final chapter extends the study into operating reliability assessments concerned with reserve problems: It considers the adequacy of the generating system to meet forecasted loads a short period ahead.Professor Billinton is in the Electrical Engineering Department at the University of Saskatchewan. Drs. Ringlee and Wood are with Power Technologies Inc. Their book is the sixth in the Modern Electrical Technology series, edited by Alexander Kusko.

  • A 30MHz Hybrid Analog/Digital Clock Recovery Circuit in 2m CMOS

    A high-speed hybrid. clock recovery circuit composed of an analog phase-locked loop (PLL) and a digital PLL (DPLL) for disk drive applications is described. The chip operates at a maximum data rate of 33 MHz from a single 5-V power supply and achieves fast acquisition, a decode window of 94% of full window width, effective sampling jitter of 100-ps rms, and an effective input sampling rate of 1 GHz. The ring oscillator in the analog PLL shows a 62 ppm/°C temperature coefficient (TC) and 4.5%/V supply sensitivity of free- running frequeJlcy. The total power dissipation is about 600 mW and the active area is 30000 mill2; in a 2-µm single-poly double-metal n-well CMOS process.

  • Expert System Requirements for Power System Restoration

    This paper is one of series presented on behalf of the System Operation Subcommittee with the intent of focusing industry attention on power system restoration. Expert systems are being considered for restoring bulk power supplies. In general, there are three restoration periods following a major power disturbance: establishment of initial sources of power, re-integration of a skeleton of the bulk power supply, and minimization of the unserved loads. Expert systems together with analytical tools have the potential of addressing the restoration procedures over these three periods. This paper describes the expert system requirements from the point of view of the practicing power engineers with emphasis placed on the initial power sources and requirements. The paper draws on the previous reports by the Power System Restoration Working Group.

  • Principles of Substrate Crosstalk Generation in CMOS Circuits

    Substrate noise injection is evaluated for a O.2S-µm CMOS technology, to determine the mechanisms that contribute to substrate crosstalk. At the transistor level, we find that impact ionization current and capacitive coupling from the junctions are the most significant contributors to substrate current injection. An investigation of substrate fluctuations at a circuit level included switching transients, capacitive damping, and separate substrate biasing. This investigation revealed that voltage transients on power-supply lines can be the dominant source of substrate fluctuations. Finally, a statistical analysis of signal cancellation in an integrated circuit was performed. The results indicate that more cancellation will take place for the high-frequency noise components than for the average and low- frequency components. As a consequence, the de and low-frequency components of the transient that results from an individual switching event can not be neglected even if they are a relatively small fraction of the single transient.

  • LowPower LowPhaseNoise Differentially Tuned Quadrature VCO Design in Standard CMOS

    This paper describes the design and optimization or voltage controlled oscillators with quadrature outputs. Systematic design or fully integrated LC- VCOs with a high inductance tank leads to a cross-coupled double core LC-VCO as the optimal solution in tenns or power consumption. Futhennore, a novel fully differential frequency tuning concept is introduced to ease high integration. The concepts are verified with a 0.25-µm standard CMOS fully integrated quadrature voltage-controlled oscillator (VCO) for zero- or low-IF DCS1800, DECT, or GSM receivers. At 2.5-V power supply voltage and a total power dissipation of 20 mW, the quadrature VCO features a worst-case phase noise of -143 dBc/Hz at 3-MHz frequency offset over the tuning range. The oscillator is tuned from 1.71 to 1.99 GHz through a differential nMOS/pMOS varactor input.

  • Design AST with Vendor ElectronicsReprinted from Reliability Growth Through Application of Accelerated Reliability Techniques and Continual Improvement Processes, Proceedings of the IES Annual Technical Meeting, pp. 347354, with permission from the author and the Institute of Environmental Sciences and Technology (IEST) 1991.

    This chapter contains sections titled: Introduction The Test-Analyze-Correct-Verify Process Accelerated Reliability Techniques (ART) Original Equipment Manufacturer (OEM) Power Supply Example Conclusions Acknowledgments References

  • A Monolithic 156 Mb/s Clock and Data Recobery PLL Circuit Using the SampleandHold Technique

    The PLL circuit described here performs the function of data and clock recovery for random data patterns by using a sample-and-hold technique, and four component circuits (a phase comparator, a delay circuit, a voltage- controlled oscillator, and a S/H switch with a low-pass-filter) were specially designed to further stabilize the PLL operation. A test chip fabricated using Si bipolar process technology demonstrated error-free operation with an input of 223-1 PRBS data at 156 Mb/s. The rms data pattern jitter was reduced to only 1.2 degrees with only an external power supply bypass capacitor.

  • Conducted Interference Measurements

    This chapter contains sections titled: Introduction Characterization of Conduction Currents/Voltages Conducted EM Noise on Power Supply Lines Conducted EMI from Equipment Immunity to Conducted EMI Detectors and Measurement References Assignments

  • Measurements and Analysis of PLL Jitter Caused by Digital Switching Noise

    When integrating analog and digital circuits onto a mixed-mode chip, power supply noise coupling is a major limitation on the performance of the analog circuitry. Several techniques exist for reducing the noise coupling, or which one of the cheapest is separating the power supply distribution networks for the analog and digital circuits. Noise coupling from a digital noise- generating circuit through the power supply/substrate into an analog phase- locked loop (PLL) is analyzed for three different power supply schemes. The main mechanisms for noise coupling are identified by comparing different PLLs and varying their bandwidths. It is found that the main cause of jitter strongly depends on the power supply configuration of the PLL. Measurements were done on mixed-mode designs in a standard 0.25-µm digital CMOS process with a low-resistivity substrate. The same circuits were also implemented with triple-well processing for comparisons.

  • Analysis of Performance Impact Caused by Power Supply Noise in Deep Submicron Devices

    The paper addresses the problem of analyzing the performance degradation caused by noise in power supply lines for deep submicron CMOS devices. We first propose a statistical modeling technique for the power supply noise including inductive ?>_I_ noise and power net _IR_ voltage drop. The model is then integrated with a statistical timing analysis framework to estimate the performance degradation caused by the power supply noise. Experimental results of our analysis framework, validated by HSPICE, for benchmark circuits implemented on both 0.25 µ, 2.5 V and 0.55 µ, 3.3 V technologies are presented and discussed. The results show that on average, with the consideration of this noise effect, the circuit critical path delays increase by 33% and 18%, respectively for circuits implemented on these two technologies



Standards related to Power Supply

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IEEE Standard for Transformers and Inductors in Electronic Power Conversion Equipment

This standard pertains to transformers and inductors of both the saturating and nonsaturating type that are used in electronic power conversion equipment. Power conversion equipment includes items known as inverters, converters, power conditioners, switching power supplies, switched mode power supplies, and the like. These items are mostly devices used to change dc power from one voltage to another, to change ...