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000780560 019__ $$a981663553$$a981886644$$a984883017
000780560 020__ $$a9789811038310$$q(electronic book)
000780560 020__ $$a9811038317$$q(electronic book)
000780560 020__ $$z9789811038297
000780560 0247_ $$a10.1007/978-981-10-3831-0$$2doi
000780560 035__ $$aSP(OCoLC)ocn980875015
000780560 035__ $$aSP(OCoLC)980875015$$z(OCoLC)981663553$$z(OCoLC)981886644$$z(OCoLC)984883017
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000780560 049__ $$aISEA
000780560 050_4 $$aTK7872.C8
000780560 08204 $$a621.3815/322$$223
000780560 1001_ $$aDasgupta, Anindya,$$eauthor.
000780560 24510 $$aDesign and control of matrix converters :$$bregulated 3-phase power supply and voltage sag mitigation for linear loads /$$cAnindya Dasgupta, Parthasarathi Sensarma.
000780560 264_1 $$aSingapore :$$bSpringer,$$c2017.
000780560 300__ $$a1 online resource (xvi, 124 pages) :$$billustrations.
000780560 336__ $$atext$$btxt$$2rdacontent
000780560 337__ $$acomputer$$bc$$2rdamedia
000780560 338__ $$aonline resource$$bcr$$2rdacarrier
000780560 347__ $$atext file$$bPDF$$2rda
000780560 4901_ $$aEnergy systems in electrical engineering,$$x2199-8582
000780560 504__ $$aIncludes bibliographical references.
000780560 5050_ $$aPreface; Contents; About the Authors; List of Figures; List of Tables; 1 Introduction; 1.1 Overview of 3-Phase Matrix Converter; 1.1.1 Hardware Design; 1.1.2 Commutation; 1.1.3 Topology; 1.1.4 Modulation; 1.1.5 Dynamic Model for Controller Design; 1.2 Motivation and Objectives; 1.3 Assumptions and Scope; 1.4 Layout of the Book; 2 Low Frequency Dynamic Model; 2.1 Low Frequency Gain of 3-Phase MC; 2.1.1 Indirect Space Vector Modulation (ISVM) Approach; 2.2 Linearized Model; 2.3 Composition of Gc(s); 2.3.1 Poles and Zeros of CdTM; 2.3.2 Poles and Zeros of Gc(s); 2.4 Concluding Remarks
000780560 5058_ $$a3 Filter Design3.1 Input Filter Design; 3.1.1 Attenuation to Switching Frequency Ripple and Gain to Lower Order Harmonics; 3.1.2 Voltage Regulation and Reactive Current Loading; 3.1.3 Selecting Damping Resistor Rd; 3.1.4 Lower Limit of Cf; 3.1.5 Effect of Ls; 3.1.6 Design Modifications for a Non-minimum Phase Plant; 3.2 Output Filter; 3.2.1 Lower Limit of Lo; 3.3 Selection of Parameter Values; 3.4 Results and Discussion; 3.4.1 Open Loop Experimental Results; 3.5 Concluding Remarks; 4 Controller Design for Regulated Voltage Supply; 4.1 Specifications and Assumptions; 4.2 SISO Based Control
000780560 5058_ $$a4.2.1 Nff(s) and Hv(s)4.3 Experimental Results and Discussion; 4.4 Concluding Remarks; 5 Voltage Sag Mitigation; 5.1 Topology and Voltage Injection Method; 5.2 Plant Model; 5.3 Control Scheme for DVR; 5.3.1 FB Controller; 5.3.2 FF Controller; 5.4 Experimental Results and Discussion; 5.5 Concluding Remarks; 6 Conclusion; 6.1 Conclusions and Contributions; 6.2 Scope of Future Work; 6.3 Relevance of This Work at Present; Appendix A Derivations Associated with Low Frequency Dynamic Model; Appendix B 3 Phase Direct Matrix Converter Prototype; Appendix C Phase Locked Loop; References
000780560 506__ $$aAccess limited to authorized users.
000780560 520__ $$aThis book describes two target applications for synchronous systems: regulated 3-phase voltage supply and voltage sag mitigation. It presents a detailed design procedure for converter switches and filters considering all steady-state, commutation and dynamic requirements. This work has evolved from previously published research by the authors, which in turn is part of a larger effort to expand the application domain of matrix converters to power systems. The objectives of the work have been categorized into the following: developing a dynamic model that provides adequate design insights; designing filters; and devising a control scheme. The low frequency dynamic model is first analyzed for regulated voltage supplies assuming balanced system. The system is modeled relative to a synchronous rotating (dq) frame linearized around an operating point. The input–output variables are related by non-diagonal transfer function matrices. Individual transfer function sub-matrices are sequentially investigated and it is shown that, depending on the input power, input voltage and filter parameters, the appearance of a set of right half zeros is possible. The book then considers filter design, as well as general issues like ripple attenuation, regulation, reactive current loading, and filter losses. The book also addresses additional constraints that may be imposed by dynamic requirements and commutation. In the third stage, voltage controller design is detailed for a 3-phase regulated voltage supply. In dq domain, output voltage control represents a multivariable control problem. This is reduced to a single variable control problem while retaining all possible right half zeros, thereby preserving the internal stability of the system. Consequently, the standard single variable control design technique has been used to design a controller. The analytically predicted dynamic response has been verified by experimental results. It was possible to operate the system beyond the critical power boundary where the right half zeros emerge. Lastly, the developed control approach has been extended to voltage sag mitigation with adequate modifications. A 3-wire linear load and both symmetrical and asymmetrical voltage sags have been considered. Experimentally obtained response time for sag mitigation was found to be less than the power supply holdup time of most of the sensitive equipment. This book will be useful to both researchers and graduate students.
000780560 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed April 7, 2017).
000780560 650_0 $$aElectric current converters.
000780560 7001_ $$aSensarma, Parthasarathi,$$eauthor.
000780560 77608 $$iPrint version:$$z9789811038297
000780560 830_0 $$aEnergy systems in electrical engineering.
000780560 852__ $$bebk
000780560 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-981-10-3831-0$$zOnline Access$$91397441.1
000780560 909CO $$ooai:library.usi.edu:780560$$pGLOBAL_SET
000780560 980__ $$aEBOOK
000780560 980__ $$aBIB
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