Analysis of fault-tolerant dual three-phase induction machine using graphical user interface
Document Type
Conference Item
Publication Date
1-1-2021
Abstract
This paper provides a fault-tolerant study of dual three phases induction machine in consideration of minimum-loss (ML) and maximum-torque (MT) strategy with single and two isolated neutral points under one to three open-circuit faults. For any given torque, the ML offers lower copper loss compared to MT, but a smaller range of torque operation. The machine's post-fault output is measured in terms of derating factor, minimum copper loss and minimum peak current. The simulation results supports the validity of the theoretical post-fault current limits. Furthermore, in order to make the user understands what to expect when performing post-fault tolerant of a machine, the graphical representation of a program using the Graphical User Interface (GUI) was specifically created for learning and teaching aid in course such as Electric Drives and Machines.
Keywords
Dual Three Phase Induction Machine, GUI, Maximum-Torque Strategy, Minimum-Loss Strategy
Divisions
umpedac
Funders
Ministry of Higher Education, Malaysia [Grant No: FP090-2020],Universiti Teknologi MARA [Grant No: 183/2020 & 600-RMC/GPK5/3]
Event Title
2021 IEEE International Conference in Power Engineering Application, ICPEA 2021
Event Location
Virtual, Online
Event Dates
8 - 9 March 2021
Event Type
conference