Equivalent hardware representation of PM synchronous machines realized by a physics-based machine model for hardware-in-the-loop simulation applications Conference

Mohammed, OA, Liu, Z, Liu, S. (2008). Equivalent hardware representation of PM synchronous machines realized by a physics-based machine model for hardware-in-the-loop simulation applications . 1185-1188. 10.1109/IECON.2008.4758122

cited authors

  • Mohammed, OA; Liu, Z; Liu, S

authors

abstract

  • this paper presents an approach to realize an equivalent hardware representation of PM synchronous machines through a physics-based machine model for hardware-in-the-loop simulation of PWM drives. The equivalent hardware representation of the machine is achieved using a controllable load. The load current is controlled to be the same as the currents obtained over the physics-based model of the machine. The physics-based model of the machine is built using parameters obtained from the solutions of the transient FE computation covering a complete ac cycle. The modeling of the machine in such a way includes the details of machine design and their impacts on the machine performance during its operation. The presented work introduces a new method to perform the HIL-based machine control experiment studies before the actual fabrication of the machine or under the circumstances where the direct use of the actual machine is unavailable. © 2008 IEEE.

publication date

  • January 1, 2008

Digital Object Identifier (DOI)

International Standard Book Number (ISBN) 13

start page

  • 1185

end page

  • 1188