Fast and Accurate Non-linear Model for Synchronous Machines Including Core Losses
Journal article, 2024

This paper presents a fast and accurate state-space model for synchronous machines taking into consideration the machine geometry, material non-linearities and core losses. The model is first constructed by storing the solutions of multiple static finite element (FE) simulations into lookup-tables (LUTs) to express the stator flux linkages as functions of the state variables, i.e., the winding currents and the rotor position. Different approaches are discussed to include the core loss into the model. A novel approach is presented for constructing a pre-computed LUT for the core loss as a function of the state variables and their time derivatives so that the loss can be directly interpolated when time-stepping the state-space model. The Simulink implementation of the proposed core-loss model shows a good match with time-stepping FE results with a 120-fold speedup in computation. In addition, comparison against calorimetric loss measurements for a 150-kVA machine operating under both sinusoidal and pulse-width modulated voltage supplies is presented to validate the model accuracy.

synchronous machine

Core loss

lookup-tables

Table lookup

State-space methods

Mathematical models

state-space model

Core loss

Rotors

Couplings

Stator cores

Author

Amr A. Abbas

University of Tampere

Joonas Vesa

University of Tampere

Hadhiq Khan

University of Tampere

Hao Chen

Chalmers, Electrical Engineering, Electric Power Engineering

Yujing Liu

Chalmers, Electrical Engineering, Electric Power Engineering

Paavo Rasilo

University of Tampere

IEEE Transactions on Energy Conversion

0885-8969 (ISSN) 15580059 (eISSN)

Vol. 39 4 2559-2567

Subject Categories

Energy Engineering

Computer Science

Areas of Advance

Energy

DOI

10.1109/TEC.2024.3394612

More information

Latest update

12/16/2024