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Books on the topic 'High Voltage Application'

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Published: 6 September 2023

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1

Wikström, Mats Olaf Tobias. MOS-controlled switches for high-voltage application. Konstanz: Hartung-Gorre, 2001.

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2

Dettmer, Hartmut. MOS controlled power devices for high voltage application. Kontanz, [Germany]: Hartung-Gorre Verlag, 1994.

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3

Z, Andjelic, ed. Integral methods for the calculation of electric fields: For application in high voltage engineering. Jülich: Forschungszentrum Jülich, 1992.

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4

Balciūnas, Povilas. Development and investigation of high frequency voltage-current power converters, theory and application: Summary. Kaunas: Republic of Lithuania, Kaunas University of Technology, 1994.

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5

IEEE Power Engineering Society. Switchgear Committee., Institute of Electrical and Electronics Engineers., and IEEE-SA Standards Board, eds. IEEE application guide for AC high-voltage circuit breakers rated on a symmetrical current basis. New York, N.Y., USA: Institute of Electrical and Electronics Engineers, 2000.

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6

IEEE Power Engineering Society. Switchgear Committee. and IEEE Standards Board, eds. IEEE guide for application, operation, and maintenance of high-voltage fuses, distribution enclosed single-pole air switches, fuse disconnecting switches and accessories. New York, NY: Institute of Electrical and Electronics Engineers, 1987.

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7

Superfund Innovative Technology Evaluation Program (U.S.), ed. High voltage electron beam technology: High Voltage Environmental Applications, Inc. [Washington, D.C.]: U.S. Environmental Protection Agency, Superfund Innovative Technology Evaluation, 1997.

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8

Shih, Andrew Tin-Yan. High voltage operational amplifiers for SLIC applications. Ottawa: National Library of Canada, 1994.

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9

Garzon, R. D. High voltage circuit breakers: Design and applications. New York: Marcel Dekker, 1997.

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10

Garzon, R. D. High voltage circuit breakers: Design and applications. 2nd ed. New York: Marcel Dekker, 2002.

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11

Sturman, John C. High-voltage, high-power, solid-state remote power controllers for aerospace applications. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1985.

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12

Sturman, John C. High-voltage, high-power, solid-state remote power controllers for aerospace applications. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1985.

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13

Sturman, John C. High-voltage, high-power, solid-state remote power controllers for aerospace applications. [Washington, D.C.]: National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1985.

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14

Ryter, Roland. Analysis and development of high voltage bipolar transistors for BiCMOS smart power applications. Konstanz: Hartung-Gorre, 1996.

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15

Sood, Vijay K. HVDC and FACTS controllers: Applications of static converters in power systems. Boston, MA: Kluwer Academic, 2003.

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16

HVDC and FACTS controllers: Applications of static converters in power systems. Boston: Kluwer Academic, 2004.

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17

Chan-Ki, Kim, ed. HVDC transmission: Power conversion applications in power systems. Singapore: Wiley, 2009.

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18

Wright, A. G. Voltage dividers. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0013.

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Voltage dividers provide accelerating voltages to generate multiplier gain. Dynode voltages must remain constant and independent of the light input to maintain stable gain. The standard resistive divider never quite satisfies this requirement, although acceptable performance can be achieved by careful design. The inclusion of zener diodes improves performance but field-effect transistor (FET) circuits can provide gain stability at high mean anode currents, regardless of whether the application is pulsed or analogue. Design procedures for active and semi-active voltage dividers are presented. Dividers based on the Cockcroft–Walton (CW) principle are particularly suited to portable instrumentation because of their low standing current. Consideration is given to pulsed operation, decoupling, switch-on transients, ripple, dynode signals, single cable dividers, and equivalent circuits at high frequencies. Gating is used to protect a photomultiplier, in the presence of high light levels, by reducing the gain electronically. Various methods for gating a voltage divider are presented.
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19

Application Guide for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis. IEEE Standards Office, 2000.

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20

Application Guide for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis. IEEE Standards Office, 2000.

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21

IEEE standard performance requirements for communications and control cables for application in high voltage environments. New York, NY, USA: Institute of Electrical and Electronics Engineers, 1989.

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22

Committee, IEEE Power Engineering Society Switchgear. IEEE Application Guide for Transient Recovery Voltage for Ac High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis (Ieee Std C37.011-1994). Inst of Elect & Electronic, 1995.

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23

Response of skin surface temperature to an application of high voltage pulsed galvanic current (HVPGC) as a treatment method for sports injuries. 1987.

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24

High Voltage Engineering and Applications. MDPI, 2020. http://dx.doi.org/10.3390/books978-3-03928-717-8.

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25

High Voltage Engineering: Fundamentals - Technology - Applications. Springer Vieweg, 2017.

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26

Küchler, Andreas. High Voltage Engineering: Fundamentals - Technology - Applications. Springer London, Limited, 2017.

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27

Garzon, Ruben D. High Voltage Circuit Breakers: Design and Applications. Taylor & Francis Group, 2002.

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28

National Risk Management Research Laboratory (U.S.) and Superfund Innovative Technology Evaluation Program (U.S.), eds. High Voltage Environmental Applications, Inc. electron beam technology. Cincinnati, OH: National Risk Management Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1997.

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29

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications. Taylor & Francis Group, 2003.

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30

Protection Devices and Systems for High-Voltage Applications. New York: Marcel Dekker, Inc., 2003.

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31

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications. Taylor & Francis Group, 2003.

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32

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications. Taylor & Francis Group, 2003.

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33

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications. Taylor & Francis Group, 2003.

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34

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications. Taylor & Francis Group, 2003.

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35

Gurevich, Vladimir. Protection Devices and Systems for High-Voltage Applications (Power Engineering, 20). CRC, 2003.

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36

Spicer, Jodie T. A new photoconductive material for use in high voltage applications. 2002.

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37

Pierce, Linda. AN2102 Designing Applications with MCP16331 High-Input Voltage Buck Converter. Microchip Technology Incorporated, 2016.

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38

Arora, Ravindra, and W. Mosch. High Voltage Insulation Engineering: Behaviour of Dielectrics - Their Properties & Applications. Wiley Eastern Limited, 1995.

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39

AlMayouf, Moayad Abdullah. Principles and Special Purpose Applications of Electromagnetic Field and High Voltage. Partridge Publishing Singapore, 2018.

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40

2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE). IEEE, 2022.

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41

Boles, Melanie. AN2085, Designing Applications with MCP166X High Output Voltage Boost Converter Family. Microchip Technology Incorporated, 2016.

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42

Ungarala, Mohan Rao, Issouf Fofana, and Ramanujam Sarathi. Alternative Liquid Dielectrics for High Voltage Transformer Insulation Systems: Performance Analysis and Applications. Wiley & Sons, Incorporated, John, 2021.

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43

Ungarala, Mohan Rao, Issouf Fofana, and Ramanujam Sarathi. Alternative Liquid Dielectrics for High Voltage Transformer Insulation Systems: Performance Analysis and Applications. Wiley & Sons, Limited, John, 2022.

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44

Ungarala, Mohan Rao, Issouf Fofana, and Ramanujam Sarathi. Alternative Liquid Dielectrics for High Voltage Transformer Insulation Systems: Performance Analysis and Applications. Wiley & Sons, Incorporated, John, 2021.

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45

Ungarala, Mohan Rao, Issouf Fofana, and Ramanujam Sarathi. Alternative Liquid Dielectrics for High Voltage Transformer Insulation Systems: Performance Analysis and Applications. Wiley & Sons, Incorporated, John, 2021.

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46

Wright, A. G. Electronics for PMTs. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0014.

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Photomultipliers (PMTs) are current generators characterized by high gain, wide bandwidth, and high-output impedance. The role of preamplifiers and amplifiers is generally one of conditioning the PMT output. Either the time signature is preserved using a fast voltage preamplifier, or a voltage proportional to the charge in each event is generated with a charge-sensitive preamplifier. Both preamplifier types are generally of low-output impedance, suitable for driving matched coaxial cable. Preamplifiers and amplifiers are available as modular units (e.g. nuclear instrument module), stand alone, or are incorporated in a module including the PMT. Shaping amplifiers are used to further condition preamplifier signals, using integrating and differentiating circuits—particularly relevant to scintillation spectrometers. Discrete-component amplifiers and current-feedback operational amplifiers serve fast applications. Digital signal processing has overtaken many of the classical electronic techniques involving resolution and in pulse shape discrimination. Electronic circuitry for generating fast LED pulses is discussed.
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47

Sood, Vijay K. HVDC and FACTS Controllers: Applications of Static Converters in Power Systems. Springer, 2013.

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48

Innovative Antriebe 2016. VDI Verlag, 2016. http://dx.doi.org/10.51202/9783181022894.

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Rechargeable Energy Storage Technologies for Automotive Applications Abstract This paper provides an extended summary of the available relevant rechargeable energy storage electrode materials that can be used for hybrid, plugin and battery electric vehicles. The considered technologies are the existing lithium-ion batteries and the next generation technologies such as lithium sulfur, solid state, metal-air, high voltage materials, metalair and sodium based. This analysis gives a clear overview of the battery potential and characteristics in terms of energy, power, lifetime, cost and finally the technical hurdles. Inhalt Seite Vorwort 1 Alternative Energiespeicher – und Wandler S. Hävemeier, Neue Zelltechnologien und die Chance einer deutschen 3 M. Hackmann, Zellproduktion – Betrachtung von Technologie, Wirtschaft- R. Stanek lichkeit und dem Standort Deutschland N. Omar, Rechargeable Energy Storage Technologies for 7 R. Gopalakrishnan Automotive Applications – Present and Future ...
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49

Sood, Vijay K. HVDC and FACTS Controllers: Applications of Static Converters in Power Systems (Power Electronics and Power Systems). Springer, 2004.

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50

Vaez-Zadeh, Sadegh. Direct Torque Control. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198742968.003.0004.

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The fundamental principles of direct torque control (DTC) of permanent magnet synchronous (PMS) motors are presented in this chapter. The basic DTC system is then described. The operating limits of PMS machines under DTC are presented in terms of current limit, voltage limit, and flux linkage limit. Also, flux linkage control, including maximum torque per ampere (MTPA), unity power factor, and flux weakening at high speed, is derived. Then, alternative DTC schemes, including different SVM-DTC schemes, are presented. In line with the increasing energy-saving tendency in industrial applications, major emphasis is placed on the loss minimization of DTC. Finally, a comprehensive comparison was made between the basic DTC and vector control, emphasizing the pros and cons of DTC with respect to vector control.
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