C
Chris Gerada
Researcher at University of Nottingham
Publications - 634
Citations - 10494
Chris Gerada is an academic researcher from University of Nottingham. The author has contributed to research in topics: Rotor (electric) & Stator. The author has an hindex of 37, co-authored 555 publications receiving 7161 citations. Previous affiliations of Chris Gerada include The University of Nottingham Ningbo China & Beihang University.
Papers
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Journal ArticleDOI
Reduction of Winding AC Losses by Accurate Conductor Placement in High Frequency Electrical Machines
Anuvav Bardalai,David Gerada,Dmitry Golovanov,Zeyuan Xu,Xiaochen Zhang,Jing Li,He Zhang,Chris Gerada +7 more
TL;DR: Exploiting the rapid advancements in precision three-dimensional printing, it is found and experimentally verified that by controlling the position of the conductors within the top of the slot the ac losses can be markedly reduced.
Proceedings ArticleDOI
uCube: Control platform for power electronics
Alessandro Galassini,G. Lo Calzo,Andrea Formentini,Chris Gerada,Pericle Zanchetta,Alessandro Costabeber +5 more
TL;DR: In this article, the authors present a tool for development, control and testing of power electronics converters based on the Microzed evaluation board, equipped with the Xilinx Zynq System-on-Chip.
Journal ArticleDOI
The results do mesh
Chris Gerada,K.J. Bradley,Mark Sumner,Patrick Wheeler,Stephen J. Pickering,Jon Clare,C. Whitley,G. Towers +7 more
TL;DR: In this paper, the effects of open-circuited phase windings and shorted coil turns of the stator winding on the operation of the induction machine were analyzed using the dynamic mesh reluctance model (DMRM) approach.
Journal ArticleDOI
Multidomain Optimization of High-Power-Density PM Electrical Machines for System Architecture Selection
TL;DR: The development of an intelligent, rapid, flexible, and multidomain tool to aid for system-level optimization of electrical machines within next-generation high power density applications is looked at.
Journal ArticleDOI
Demagnetization Analysis for Halbach Array Configurations in Electrical Machines
TL;DR: The analytical method provides a computationally efficient tool that can be used to predict and prevent demagnetization in Halbach-equipped electrical machines operating in harsh environments such as the aerospace sector.