The adoption of Power Hardware in the Loop (PHIL) has been appearing has an enhanced technic to test and validate control algorithms for electrical machines. It uses the advantages of hardware testing and simulation by interfacing the Device Under Test (DUT) hardware with numerical simulations. This paper presents the use of the PHIL for the emulation of a Permanent Magnet Synchronous Machine (PMSM) using a LCL coupling network with a RLC damping circuit. The modeling and derivation of the equations for the emulation and the proposed control structure are presented in detail. The paper shows that the inductance that represents the machine inductance in the PHIL system can be of a different value from the one of the machine. The theoretical work is supported and validated through experimental results, confirming the fairness and advantages of the proposed approach.
Nícolas Eugênio, L.B., di Benedetto, M., Lidozzi, A., Solero, L., Grbovic, P. (2024). PMSM Power-Hardware-in-the-Loop Emulation using LCL coupling network. In ECCE Europe 2024 - Energy Conversion Congress and Expo Europe, Proceedings (pp.1-6). Institute of Electrical and Electronics Engineers Inc. [10.1109/ecceeurope62508.2024.10751831].
PMSM Power-Hardware-in-the-Loop Emulation using LCL coupling network
di Benedetto, Marco;Lidozzi, Alessandro;Solero, Luca;Grbovic, Petar
2024-01-01
Abstract
The adoption of Power Hardware in the Loop (PHIL) has been appearing has an enhanced technic to test and validate control algorithms for electrical machines. It uses the advantages of hardware testing and simulation by interfacing the Device Under Test (DUT) hardware with numerical simulations. This paper presents the use of the PHIL for the emulation of a Permanent Magnet Synchronous Machine (PMSM) using a LCL coupling network with a RLC damping circuit. The modeling and derivation of the equations for the emulation and the proposed control structure are presented in detail. The paper shows that the inductance that represents the machine inductance in the PHIL system can be of a different value from the one of the machine. The theoretical work is supported and validated through experimental results, confirming the fairness and advantages of the proposed approach.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.