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Stephen J. Finney
Researcher at University of Edinburgh
Publications - 270
Citations - 7782
Stephen J. Finney is an academic researcher from University of Edinburgh. The author has contributed to research in topics: Inverter & AC power. The author has an hindex of 45, co-authored 263 publications receiving 6821 citations. Previous affiliations of Stephen J. Finney include Alexandria University & Heriot-Watt University.
Papers
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Journal ArticleDOI
Fuzzy-Logic-Control Approach of a Modified Hill-Climbing Method for Maximum Power Point in Microgrid Standalone Photovoltaic System
TL;DR: In this article, a fuzzy-logic controller for maximum power point tracking of photovoltaic (PV) systems is proposed, which improves the hill-climbing search method by fuzzifying the rules of such techniques and eliminates their drawbacks.
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A Maximum Power Point Tracking Technique for Partially Shaded Photovoltaic Systems in Microgrids
TL;DR: A modified fuzzy-logic controller for maximum power point (MPP) tracking is proposed to increase photovoltaic (PV) system performance during partially shaded conditions by scanning and storing the maximum power during the perturbing and observing procedures.
Journal ArticleDOI
A review of IGBT models
TL;DR: In this paper, the authors reviewed, analyzed, compared and classified IGBT models into different categories according to mathematical type, objectives, complexity, accuracy and speed, and some problems and trends in IGBT modeling are discussed.
Proceedings ArticleDOI
Passive Filter Design for Three-Phase Inverter Interfacing in Distributed Generation
TL;DR: In this paper, a design method for the output LC filter in grid coupled applications in distributed generation systems is presented, according to the harmonics standards that determine the level of current harmonics injected into the grid network.
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New Breed of Network Fault-Tolerant Voltage-Source-Converter HVDC Transmission System
TL;DR: In this article, a hybrid multilevel voltage source converter (VSC) with ac-side cascaded H-bridge cells is proposed for high-voltage dc transmission systems, which offers the operational flexibility of VSC-based systems in terms of active and reactive power control.