N
Neville R. Watson
Researcher at University of Canterbury
Publications - 271
Citations - 7640
Neville R. Watson is an academic researcher from University of Canterbury. The author has contributed to research in topics: Harmonic & Electric power system. The author has an hindex of 38, co-authored 271 publications receiving 7042 citations. Previous affiliations of Neville R. Watson include University of Manchester.
Papers
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Book
Power System Harmonics
Jos Arrillaga,Neville R. Watson +1 more
TL;DR: In this article, the Static Convertor and Other Harmonic Sources Harmonic Effects: Within the Power System Interference with Communications Power System Harmonic Measurements Transducers and Data Transmission Standards for the Limitation and Control of Power system Harmonics Harmonic Penetration in A.C. Systems Harmonic Elimination Index.
Book
Flexible power transmission--the HVDC options
TL;DR: The author reveals how the HVDC conversion process led to multi-leVEL VSC and CSC TRANSMISSION, and describes the development of these systems and their applications in the electricity industry.
Book
Power Systems Electromagnetic Transients Simulation
Neville R. Watson,Jos Arrillaga +1 more
TL;DR: In this article, the authors provide a thorough review of EMTS and many simple examples are included to clarify difficult concepts, such as power system electromagnetic transients in the range of nanoseconds to seconds.
Journal ArticleDOI
Interharmonics: Theory and Modeling
A. Testa,M.F. Akram,R. Burch,Guido Carpinelli,Gary W. Chang,Venkata Dinavahi,Constantine J. Hatziadoniu,W.M. Grady,E. Gunther,Mark Halpin,Peter W. Lehn,Y. Liu,Roberto Langella,M. Lowenstein,Aurelio Medina,T.H. Ortmeyer,Satish J. Ranade,Paulo F. Ribeiro,Neville R. Watson,J. Wikston,Wilsun Xu +20 more
TL;DR: In this paper, the most remarkable issues related to interharmonic theory and modeling are presented, starting from the basic definitions and concepts, attention is first devoted to inter-harmonic sources, and then the interharmonics assessment is considered with particular attention to the problem of the frequency resolution and of the computational burden associated with the analysis of periodic steady-state waveforms.
Journal ArticleDOI
Power quality following deregulation
TL;DR: In this article, the authors present methods available in these areas to achieve specified levels of power quality in the deregulated environment, which will affect the standards, system simulation and monitoring tools.