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Modeling and control of power electr...

Dwivedi, Sanjeet Kumar,

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Modeling and control of power electronics converter system for power quality improvements

Record Type:	Electronic resources : Monograph/item
Title/Author:	Modeling and control of power electronics converter system for power quality improvements/ edited by Sanjeet Kumar Dwivedi, Shailendra Jain, Krishna Kumar Gupta, Pradyumn Chaturvedi.
other author:	Dwivedi, Sanjeet Kumar,
Published:	London, United Kingdom :Academic Press, an imprint of Elsevier, : 2018.,
Description:	1 online resource.
[NT 15003449]:	Front Cover; Modeling and Control of Power Electronics Converter System for Power Quality Improvements; Copyright Page; Contents; List of Contributors; Biography; 1. Power Quality: An Introduction; 1.1 Introduction; 1.2 Power Quality Phenomena; 1.3 Types of Power Quality Disturbances; 1.3.1 Frequency events; 1.3.2 Voltage events; 1.3.3 Waveform events; 1.3.3.1 Steady-state distortions; 1.3.3.2 Transient distortions; 1.3.4 Harmonic distortion; 1.4 Causes and Effects of Power Quality Problems; 1.4.1 Causes and effects of harmonics and reactive power; 1.5 Power Quality Standards
[NT 15003449]:	1.5.1 IEEE power quality standards1.5.2 IEEE standard 519-2014-recommended harmonic limits; 1.5.3 Important terms; 1.5.3.1 Point of common coupling; 1.5.3.2 Isc/IL ratio; 1.5.3.3 TDD and THD; 1.5.4 IEC power quality standards; 1.5.5 IEC standards for voltage and current compatibility levels; 1.5.5.1 IEC 61000-2-2; 1.5.5.2 IEC 61000-3-2:2014; 1.5.5.3 IEC 61000-3-4; 1.5.6 EN 61000-3-2 classifications and limits; 1.5.7 Energy efficiency and power quality standards applicable for variable frequency drive; 1.5.8 Harmonic line current reduction techniques; 1.6 Conclusion; References
[NT 15003449]:	Further Reading2. Control Strategies of Shunt Active Power Filter; 2.1 Introduction; 2.1.1 Causes and effects of harmonics and reactive power; 2.1.2 Classical solutions; 2.1.3 Active solutions; 2.2 Topologies of Active Power Filters; 2.2.1 Converter-based classification; 2.2.2 Topology-based classification; 2.2.3 Supply system-based classification; 2.2.4 Installation of active power filter; 2.3 Shunt Active Power Filter; 2.3.1 Basic compensation principle; 2.3.2 Power flow for ideal compensation; 2.3.3 Power circuit topologies; 2.3.4 Control strategies; 2.3.4.1 Signal conditioning
[NT 15003449]:	2.3.4.2 Estimation of compensating signals2.3.4.3 Generation of switching signals; 2.3.4.3.1 Direct and indirect current control; 2.3.4.4 Time domain control; 2.3.4.4.1 Filter-based methods (Green et al.); 2.3.4.4.2 Instantaneous reactive power theory (p-q theory); 2.3.4.4.3 Modified instantaneous reactive power theory; 2.3.4.4.4 Synchronous reference frame theory; 2.3.4.4.5 Regulating the DC-link voltage; 2.3.4.4.5.1 Estimation of reference source current; 2.3.4.4.5.2 Current supplied by the source is determined from Eq. (2.12); 2.3.4.4.5.3 Role of DC-link capacitor
[NT 15003449]:	2.3.5 Frequency domain control2.3.5.1 Mathematical expressions; 2.4 Conclusion; References; Further Reading; 3. Conventional Multilevel Inverter: Topologies and Control Strategies; 3.1 Introduction; 3.2 Conventional Multilevel Inverter Topologies; 3.2.1 Diode-clamped multilevel inverter; 3.2.2 Capacitor-clamped or flying capacitor multilevel inverter; 3.2.3 Cascaded H-bridge multilevel/multicell inverter; 3.2.4 Comparison of different conventional multilevel inverter topologies; 3.3 Multilevel Inverter Modulation Techniques; 3.3.1 Classification of multilevel inverter modulation techniques
Subject:	Electric current converters. -
Online resource:	https://www.sciencedirect.com/science/book/9780128145685
ISBN:	0128145684

Modeling and control of power electronics converter system for power quality improvements
Modeling and control of power electronics converter system for power quality improvements[electronic resource] /edited by Sanjeet Kumar Dwivedi, Shailendra Jain, Krishna Kumar Gupta, Pradyumn Chaturvedi. - London, United Kingdom :Academic Press, an imprint of Elsevier,2018. - 1 online resource.

Includes bibliographical references and index.

Front Cover; Modeling and Control of Power Electronics Converter System for Power Quality Improvements; Copyright Page; Contents; List of Contributors; Biography; 1. Power Quality: An Introduction; 1.1 Introduction; 1.2 Power Quality Phenomena; 1.3 Types of Power Quality Disturbances; 1.3.1 Frequency events; 1.3.2 Voltage events; 1.3.3 Waveform events; 1.3.3.1 Steady-state distortions; 1.3.3.2 Transient distortions; 1.3.4 Harmonic distortion; 1.4 Causes and Effects of Power Quality Problems; 1.4.1 Causes and effects of harmonics and reactive power; 1.5 Power Quality Standards

Modeling and Control of Power Electronics Converter Systems for Power Quality Improvements provides grounded theory for the modeling, analysis and control of different converter topologies that improve the power quality of mains. Intended for researchers and practitioners working in the field, topics include modeling equations and the state of research to improve power quality converters. By presenting control methods for different converter topologies and aspects related to multi-level inverters and specific analysis related to the AC interface of drives, the book helps users by putting a particular emphasis on different control algorithms that enhance knowledge and research work.

ISBN: 0128145684Subjects--Topical Terms:

778376
Electric current converters.
Index Terms--Genre/Form:

542853
Electronic books.

LC Class. No.: TK7872.C8

Dewey Class. No.: 621.317

Modeling and control of power electronics converter system for power quality improvements
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245 0 0 $a Modeling and control of power electronics converter system for power quality improvements $h [electronic resource] / $c edited by Sanjeet Kumar Dwivedi, Shailendra Jain, Krishna Kumar Gupta, Pradyumn Chaturvedi.
260 $a London, United Kingdom : $b Academic Press, an imprint of Elsevier, $c 2018.
300 $a 1 online resource.
504 $a Includes bibliographical references and index.
505 0 $a Front Cover; Modeling and Control of Power Electronics Converter System for Power Quality Improvements; Copyright Page; Contents; List of Contributors; Biography; 1. Power Quality: An Introduction; 1.1 Introduction; 1.2 Power Quality Phenomena; 1.3 Types of Power Quality Disturbances; 1.3.1 Frequency events; 1.3.2 Voltage events; 1.3.3 Waveform events; 1.3.3.1 Steady-state distortions; 1.3.3.2 Transient distortions; 1.3.4 Harmonic distortion; 1.4 Causes and Effects of Power Quality Problems; 1.4.1 Causes and effects of harmonics and reactive power; 1.5 Power Quality Standards
505 8 $a 1.5.1 IEEE power quality standards1.5.2 IEEE standard 519-2014-recommended harmonic limits; 1.5.3 Important terms; 1.5.3.1 Point of common coupling; 1.5.3.2 Isc/IL ratio; 1.5.3.3 TDD and THD; 1.5.4 IEC power quality standards; 1.5.5 IEC standards for voltage and current compatibility levels; 1.5.5.1 IEC 61000-2-2; 1.5.5.2 IEC 61000-3-2:2014; 1.5.5.3 IEC 61000-3-4; 1.5.6 EN 61000-3-2 classifications and limits; 1.5.7 Energy efficiency and power quality standards applicable for variable frequency drive; 1.5.8 Harmonic line current reduction techniques; 1.6 Conclusion; References
505 8 $a Further Reading2. Control Strategies of Shunt Active Power Filter; 2.1 Introduction; 2.1.1 Causes and effects of harmonics and reactive power; 2.1.2 Classical solutions; 2.1.3 Active solutions; 2.2 Topologies of Active Power Filters; 2.2.1 Converter-based classification; 2.2.2 Topology-based classification; 2.2.3 Supply system-based classification; 2.2.4 Installation of active power filter; 2.3 Shunt Active Power Filter; 2.3.1 Basic compensation principle; 2.3.2 Power flow for ideal compensation; 2.3.3 Power circuit topologies; 2.3.4 Control strategies; 2.3.4.1 Signal conditioning
505 8 $a 2.3.4.2 Estimation of compensating signals2.3.4.3 Generation of switching signals; 2.3.4.3.1 Direct and indirect current control; 2.3.4.4 Time domain control; 2.3.4.4.1 Filter-based methods (Green et al.); 2.3.4.4.2 Instantaneous reactive power theory (p-q theory); 2.3.4.4.3 Modified instantaneous reactive power theory; 2.3.4.4.4 Synchronous reference frame theory; 2.3.4.4.5 Regulating the DC-link voltage; 2.3.4.4.5.1 Estimation of reference source current; 2.3.4.4.5.2 Current supplied by the source is determined from Eq. (2.12); 2.3.4.4.5.3 Role of DC-link capacitor
505 8 $a 2.3.5 Frequency domain control2.3.5.1 Mathematical expressions; 2.4 Conclusion; References; Further Reading; 3. Conventional Multilevel Inverter: Topologies and Control Strategies; 3.1 Introduction; 3.2 Conventional Multilevel Inverter Topologies; 3.2.1 Diode-clamped multilevel inverter; 3.2.2 Capacitor-clamped or flying capacitor multilevel inverter; 3.2.3 Cascaded H-bridge multilevel/multicell inverter; 3.2.4 Comparison of different conventional multilevel inverter topologies; 3.3 Multilevel Inverter Modulation Techniques; 3.3.1 Classification of multilevel inverter modulation techniques
520 $a Modeling and Control of Power Electronics Converter Systems for Power Quality Improvements provides grounded theory for the modeling, analysis and control of different converter topologies that improve the power quality of mains. Intended for researchers and practitioners working in the field, topics include modeling equations and the state of research to improve power quality converters. By presenting control methods for different converter topologies and aspects related to multi-level inverters and specific analysis related to the AC interface of drives, the book helps users by putting a particular emphasis on different control algorithms that enhance knowledge and research work.
588 0 $a Vendor-supplied metadata.
650 0 $a Electric current converters. $3 778376
655 4 $a Electronic books. $2 lcsh $3 542853
700 1 $a Dwivedi, Sanjeet Kumar, $e editor. $3 3451985
700 1 $a Jain, Shailendra, $e editor. $3 3451986
700 1 $a Gupta, Krishna Kumar, $e editor. $3 3451987
700 1 $a Chaturvedi, Pradyumn, $e editor. $3 3451988
856 4 0 $u https://www.sciencedirect.com/science/book/9780128145685