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Books on the topic 'Robustesse en mode DC'

Author: Grafiati
Published: 1 March 2025

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1

Kislovski, André S., Richard Redl, and Nathan O. Sokal. Dynamic Analysis of Switching-Mode DC/DC Converters. Dordrecht: Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-011-7849-5.

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2

Richard, Redl, and Sokal Nathan O, eds. Dynamic analysis of switching-mode DC/DC converters. New York: Van Nostrand Reinhold, 1991.

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3

Ahmed, Mohammad. Sliding mode control for switched mode power supplies. Lappeenranta: Lappeenranta University of Technology, 2004.

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4

Chen, Yanfeng, and Bo Zhang. Equivalent-Small-Parameter Analysis of DC/DC Switched-Mode Converter. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-2574-8.

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5

Kislovski, Andre. Dynamic Analysis of Switching-Mode DC/DC Converters. Springer, 2012.

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6

Dynamic Analysis of Switching-Mode DC/DC Converters. Springer, 2012.

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7

Kislovski, Andre. Dynamic Analysis of Switching-Mode DC/DC Converters. Springer London, Limited, 2012.

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8

Kazimierczuk, Marian K., Agasthya Ayachit, and Dalvir K. Saini. Average Current-Mode Control of DC-DC Power Converters. Wiley & Sons, Incorporated, John, 2022.

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9

Saini, Dalvir K. Average Current-Mode Control of Dc-Dc Power Converters. Wiley & Sons, Limited, John, 2022.

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10

Kazimierczuk, Marian K., Agasthya Ayachit, and Dalvir K. Saini. Average Current-Mode Control of DC-DC Power Converters. Wiley & Sons, Incorporated, John, 2022.

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11

Kazimierczuk, Marian K., Agasthya Ayachit, and Dalvir K. Saini. Average Current-Mode Control of DC-DC Power Converters. Wiley & Sons, Incorporated, John, 2022.

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12

Zhou, Clarence. High-Voltage Output Hysteretic-Mode Step-Up DC/DC Controller. Microchip Technology Incorporated, 2019.

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13

Zhang, Bo, and Yanfeng Chen. Equivalent-Small-Parameter Analysis of DC/DC Switched-Mode Converter. Springer Singapore Pte. Limited, 2018.

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14

Zhang, Bo, and Yanfeng Chen. Equivalent-Small-Parameter Analysis of DC/DC Switched-Mode Converter. Springer, 2019.

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15

Lukic, Zdravko. Sigma-delta DPWM controllers for 12MHz DC-DC switch-mode power supplies. 2006.

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16

Analysis, Simulation, and Fabrication of Current Mode Controlled DC-DC Power Converters. Storming Media, 1999.

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17

Lukic, Zdravko. Sigma-delta DPWM controllers for 12MHz DC-DC switch-mode power supplies. 2006, 2006.

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18

Lukic, Zdravko. Sigma-delta DPWM controllers for 12 MHz DC-DC switch-mode power supplies. 2006, 2006.

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19

Elmenzo, Marlene. HV9150 High-Voltage Output Hysteretic-Mode Step-Up DC/DC Controller Data Sheet. Microchip Technology Incorporated, 2017.

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20

Anderson, Julie. HV9150 - High-Voltage Output Hysteretic-Mode Step-Up DC/DC Controller Data Sheet. Microchip Technology Incorporated, 2019.

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21

Nelson, Taylor. MIC28515 - 75V/5A Hyper Speed Control Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2018.

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22

Zhou, Clarence. 75V/5A Hyper Speed Control® Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2018.

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23

Boles, Melanie. MIC28517 - 70V/8A Hyper Speed Control Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2020.

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24

Kearney-Hopkins, Joan. MIC28515 - 75V/5A Hyper Speed Control® Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2020.

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25

Wolters-Broder, Lisa. MIC28515 75V/5A Hyper Speed Control® Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2017.

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26

Wolters-Broder, Lisa. MIC28515 75V/5A Hyper Speed Control® Synchronous DC/DC Buck Regulator with External Mode Control. Microchip Technology Incorporated, 2017.

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27

Borisavljevic, Ana. Digitally controlled three-phase high power switch-mode AC-DC converter. 2002.

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28

Zhou, Clarence. AC/DC Dual-Mode Power-Monitoring IC with Calculation and Energy Accumulation. Microchip Technology Incorporated, 2020.

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29

Reddy, N. Malla. High Step up Three Port DC-DC Converter for Stand Alone Pv-Battery Power Systems with Grid Connected Mode. Lulu Press, Inc., 2016.

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30

Singh, Suresh, and Deepak Kumar Fulwani. Mitigation of Negative Impedance Instabilities in DC Distribution Systems: A Sliding Mode Control Approach. Springer, 2016.

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31

Singh, Suresh, and Deepak Kumar Fulwani. Mitigation of Negative Impedance Instabilities in DC Distribution Systems: A Sliding Mode Control Approach. Springer London, Limited, 2016.

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32

Kearney-Hopkins, Joan. MCP8025/6 - 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode, LIN Transceiver. Microchip Technology Incorporated, 2014.

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33

Wolters-Broder, Lisa. MCP8025A/6 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode, and LIN Transceiver. Microchip Technology Incorporated, 2017.

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34

Kennelly, Spencer. MCP8025/6 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode, and LIN Transceiver. Microchip Technology Incorporated, 2016.

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35

Boles, Melanie. MCP8025A/6 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode and LIN Transceiver. Microchip Technology Incorporated, 2018.

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36

Wolters-Broder, Lisa. MCP8025/6 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode, and LIN Transceiver. Microchip Technology Incorporated, 2017.

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37

Mahar, Nanci. MCP8025A/6 3-Phase Brushless DC (BLDC) Motor Gate Driver with Power Module, Sleep Mode, and LIN Transceiver. Microchip Technology Incorporated, 2018.

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38

Viki, A. Houshmand. Pulse width modulation (PWM) amplifier and switch mode power supply (SMPS) to control the speed of a DC servomotor. Bradford, 1987.

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39

Wright, A. G. Linear performance. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0009.

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Abstract:
This chapter is concerned with a single consideration: the degree of proportionality between a light signal and its resulting electrical output. This is formally referred to as linearity, which depends on the suitability of the chosen PMT and the mode of operation (pulsed or analogue). Applications fall into two groups: analogue operation (DC) and transient applications. Linearity in a pulsed mode of operation concerns both pulse height (charge) and the rate of events. Generally, in the DC mode, only the mean anode current is relevant. Methods for determining both forms of non-linearity are presented, based on actual measurements. Test methods using multiple light sources, bootstrapping, single step (piggyback), and shot noise are investigated. A method for uncovering non-linearity in high-Z scintillators by using coincident gamma emissions (60Co) is demonstrated. An analytical means for correcting results at the 1 % level is provided.
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