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Книги з теми "Voltage generator and current generator"

Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Tanzawa, Toru. On-chip High-Voltage Generator Design. New York, NY: Springer New York, 2013.

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2

Tanzawa, Toru. On-chip high-voltage generator design. New York: Springer, 2013.

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3

Tanzawa, Toru. On-chip High-Voltage Generator Design. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-21975-2.

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4

Tanzawa, Toru. On-chip High-Voltage Generator Design. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-3849-6.

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5

Zuev, Sergey, Ruslan Maleev, and Aleksandr Chernov. Energy efficiency of electrical equipment systems of autonomous objects. ru: INFRA-M Academic Publishing LLC., 2021. http://dx.doi.org/10.12737/1740252.

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Анотація:
When considering the main trends in the development of modern autonomous objects (aircraft, combat vehicles, motor vehicles, floating vehicles, agricultural machines, etc.) in recent decades, two key areas can be identified. The first direction is associated with the improvement of traditional designs of autonomous objects (AO) with an internal combustion engine (ICE) or a gas turbine engine (GTD). The second direction is connected with the creation of new types of joint-stock companies, namely electric joint-stock companies( EAO), joint-stock companies with combined power plants (AOKEU). The energy efficiency is largely determined by the power of the generator set and the battery, which is given to the electrical network in various driving modes. Most of the existing methods for calculating power supply systems use the average values of disturbing factors (generator speed, current of electric energy consumers, voltage in the on-board network) when choosing the characteristics of the generator set and the battery. At the same time, it is obvious that when operating a motor vehicle, these parameters change depending on the driving mode. Modern methods of selecting the main parameters and characteristics of the power supply system do not provide for modeling its interaction with the power unit start-up system of a motor vehicle in operation due to the lack of a systematic approach. The choice of a generator set and a battery, as well as the concept of the synthesis of the power supply system is a problem studied in the monograph. For all those interested in electrical engineering and electronics.
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6

Shokrollah-Timorabadi, Hamid. Voltage source inverter for voltage and frequency control of a stand-alone self-excited induction generator. Ottawa: National Library of Canada, 1998.

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7

Institute Of Electrical and Electronics Engineers. IEEE guide for synchronous generator modeling practices in stability analyses. New York, NY, USA: Institute of Electrical and Electronics Engineers, 1991.

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8

Dodd, C. V. Improved eddy-current inspection for steam generator tubing progress report for period January 1985 to December 1987. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1990.

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9

Dodd, C. V. Improved eddy-current inspection for steam generator tubing progress report for period January 1985 to December 1987. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1990.

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10

IEEE Power Engineering Society. Switchgear Committee. and IEEE Standards Board, eds. IEEE standard for AC high-voltage generator circuit breakers rated on a symmetrical current. New York, N.Y: The Institute of Electrical and Electronics Engineers, 1997.

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11

IEEE Standard for Ac High-Voltage Generator Circuit Breakers Rated on a Symmetrical Current. Inst of Elect & Electronic, 1993.

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12

Institute Of Electrical and Electronics Engineers. IEEE Standard for AC High-Voltage Generator Circuit Breakers Rated on a Symmetrical Current Basis. Institute of Electrical & Electronics Enginee, 1997.

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13

IEEE Power Engineering Society. Switchgear Committee. and IEEE Standards Board, eds. IEEE standard for AC high-voltage generator circuit breakers rated on a symmetrical current basis. New York, N.Y., USA: The Institute of Electrical and Electronics Engineers, 1989.

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14

Alternating current generator components. Golden, Colo: Western Area Power Administration, Electric Power Training Center, 1991.

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15

Tanzawa, Toru. On-chip High-Voltage Generator Design. Springer, 2012.

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16

Tanzawa, Toru. On-chip High-Voltage Generator Design. Springer, 2014.

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17

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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18

IEEE guide for AC generator protection. New York, NY: Institute of Electrical and Electronics Engineers, 1996.

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19

Tanzawa, Toru. On-chip High-Voltage Generator Design: Design Methodology for Charge Pumps. Springer, 2016.

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20

Tanzawa, Toru. On-chip High-Voltage Generator Design: Design Methodology for Charge Pumps. Springer, 2015.

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21

Matsuo, M., E. Saitoh, and S. Maekawa. Spin-Mechatronics—mechanical generation of spin and spin current. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198787075.003.0025.

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This chapter discusses interconversion phenomena between spin and mechanical angular momtum. In moving objects, the spin gauge fields emerge from inertial effects and produce angular momentum transfer between mechanical motion and spin. Such spin-mechanial effects are predicted by quantum theory in non-inertial frames, and confirmed by recent experiments including the resonance frequency shift in NMR, the stray field measurement of rotating metals, and the inverse spin Hall voltage generation in liquied metals. These spin-mechanical effects that arise via the spin-gauge fields open a new field of spintornics, where spin and mechanical motion couple harmoniously.
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22

United States. Bureau of Reclamation. Denver Office. Electric Power Branch., ed. Flatiron Powerplant automatic voltage regulator performance. Denver, Colo: U.S. Dept. of the Interior, Bureau of Reclamation, Denver Office, Research and Laboratory Services Division, Electric Power Branch, 1989.

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23

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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24

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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25

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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26

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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27

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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28

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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29

Voltage-based interim plugging criteria for steam generator tubes: Draft report for comment. Washington, DC: U.S. Nuclear Regulatory Commission, 1993.

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30

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

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Анотація:
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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31

G, Heasler P., Anderson C. M, U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering Technology., and Pacific Northwest National Laboratory (U.S.), eds. Performance demonstration tests for eddy current inspection of steam generator tubing. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1996.

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32

United States. Dept. of the Army., ed. Operator's manual test set generator and voltage regulator: Automotive 12- and 24-volt systems. Washington, D.C: Headquarters, Dept. of the Army, 1992.

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33

Evaluation of eddy current reliability from steam generator mock-up round-robin. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 2002.

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34

Evaluation of Eddy Current Reliability From Steam Generator Mock-Up Round-Robin. USGOV, 1999.

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35

S, Kupperman D., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering Technology., and Argonne National Laboratory, eds. Evaluation of eddy current reliability from steam generator mock-up round-robin. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 2002.

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36

Eddy Current Reliability Results From the Steam Generator Mock-Up Analysis Round Robin. USGOV, 1999.

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37

Evaluation current reliability results from the steam generator mock-up analysis round-robin. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 2002.

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38

Irfan, Alan, University of Wisconsin--Madison, and Lewis Research Center, eds. System and component design and test of a 10 HP, 18,000 RPM dynamometer utilizing a high frequency AC voltage link. Madison, WI: University of Wisconsin, Dept. of Electrical and Computer Engineering, 1991.

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39

Steam generator group project: Task 7 final report : post-service baseline eddy current examination. Washington, DC: Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1988.

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40

The selection of convertible engines with current gas generator technology for high speed rotorcraft. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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41

R, Pate J., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering Technology., and Oak Ridge National Laboratory, eds. Evaluation and field validation of eddy-current array probes for steam generator tube inspection. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1996.

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42

Nguyen, Quang Huy. Modeling the differential eddy current probe for steam generator tubing inspections using Z parameters. 1993.

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43

Inc, Business Trend Analysts, ed. The Motor and generator industry: Past performance, current trends, and opportunities for growth : a business information report. Commack, N.Y. (2171 Jericho Turnpike, Commack 11725): Business Trend Analysts, 1990.

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44

TENS-like devices. Oxford University Press, 2014. http://dx.doi.org/10.1093/med/9780199673278.003.0011.

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Анотація:
TENS-like devices deliver electrical currents across the intact surface of the skin using pulse generators with technical output specifications that differ from a standard TENS device. Technological advances have resulted in reductions in the size and cost of electrotherapeutic devices with increasing varieties of self-administered hand-held TENS-like devices available to practitioners and the general public. The diversity of TENS-like devices available on the market makes synthesizing evidence difficult. The purpose of this chapter is to categorize TENS-like devices and briefly overview the characteristics, mechanism of action, and effectiveness of various TENS-like devices. The chapter covers high-voltage pulsed (Galvanic) current, microcurrent electrical therapy, low-intensity transcutaneous cranial electrical stimulation, transcutaneous spinal electroanalgesia, transcutaneous piezoelectric current, non-invasive interactive neurostimulation, action potential simulation and H-wave therapy, and transcutaneous electrical acupoint stimulation.
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45

Takahashi, S., and S. Maekawa. Spin Hall Effect. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198787075.003.0012.

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Анотація:
This chapter discusses the spin Hall effect that occurs during spin injection from a ferromagnet to a nonmagnetic conductor in nanostructured devices. This provides a new opportunity for investigating AHE in nonmagnetic conductors. In ferromagnetic materials, the electrical current is carried by up-spin and downspin electrons, with the flow of up-spin electrons being slightly deflected in a transverse direction while that of down-spin electrons being deflected in the opposite direction; this results in an electron flow in the direction perpendicular to both the applied electric field and the magnetization directions. Since up-spin and downspin electrons are strongly imbalanced in ferromagnets, both spin and charge currents are generated in the transverse direction by AHE, the latter of which are observed as the electrical Hall voltage.
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46

U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Engineering Technology. and Argonne National Laboratory, eds. Assessment of current understanding of mechanisms of initiation, arrest, and reinitiation of stress corrosion cracks in PWR steam generator tubing. Washington, DC: Division of Engineering Technology, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 2000.

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47

Koch, Christof. Biophysics of Computation. Oxford University Press, 1998. http://dx.doi.org/10.1093/oso/9780195104912.001.0001.

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Анотація:
Neural network research often builds on the fiction that neurons are simple linear threshold units, completely neglecting the highly dynamic and complex nature of synapses, dendrites, and voltage-dependent ionic currents. Biophysics of Computation: Information Processing in Single Neurons challenges this notion, using richly detailed experimental and theoretical findings from cellular biophysics to explain the repertoire of computational functions available to single neurons. The author shows how individual nerve cells can multiply, integrate, or delay synaptic inputs and how information can be encoded in the voltage across the membrane, in the intracellular calcium concentration, or in the timing of individual spikes. Key topics covered include the linear cable equation; cable theory as applied to passive dendritic trees and dendritic spines; chemical and electrical synapses and how to treat them from a computational point of view; nonlinear interactions of synaptic input in passive and active dendritic trees; the Hodgkin-Huxley model of action potential generation and propagation; phase space analysis; linking stochastic ionic channels to membrane-dependent currents; calcium and potassium currents and their role in information processing; the role of diffusion, buffering and binding of calcium, and other messenger systems in information processing and storage; short- and long-term models of synaptic plasticity; simplified models of single cells; stochastic aspects of neuronal firing; the nature of the neuronal code; and unconventional models of sub-cellular computation. Biophysics of Computation: Information Processing in Single Neurons serves as an ideal text for advanced undergraduate and graduate courses in cellular biophysics, computational neuroscience, and neural networks, and will appeal to students and professionals in neuroscience, electrical and computer engineering, and physics.
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