An accurate transient model of interior permanent-magnet (IPM) machine with stator turn fault with due account of magnetic saturation is essential to develop robust and sensitive interturn fault detection algorithms and to evaluate drive controller performance and stability under fault conditions. This paper proposes a general method of modeling stator turn fault using flux linkage map of IPM machine under fault extracted from finite-element (FE) analysis. Simulation results from the proposed fault model are compared against FE and experimental results. The results show that the proposed model matches well with experimental data
This paper develops and analyzes a parametric model for simulating healthy and faulty surface-mount...
A robust interturn fault diagnostic approach based on the concept of magnetic field pendulous oscill...
In this report a general framework for developing two-axis models for Induction Machines (IMs) with ...
The paper proposes a fast dynamic mathematical model to evaluate the performances of saturated perma...
Thanks to its high-torque density and high efficiency, the Permanent Magnet Synchronous Machine (PMS...
Inter-turn short circuit fault, also known as turn fault is a common fault in electric machines whic...
IEEE Accurate modeling is the first step in developing a model-based diagnostics tool for different ...
Permanent magnet synchronous motors (PMSMs) have played a key role in commercial and industrial appl...
Conventional field reconstruction model (FRM) for electrical machines has proved its main strength i...
This paper presents a general analytical fault model in a compact matrix form for surface-mounted pe...
Abstract—In this paper, a time stepping two-dimensional FEM is performed for modeling and analysis o...
A model-based method for interturn short-circuit fault detection and isolation in permanent magnet s...
The development of the synchronous motors with permanent magnets is, mostly thanks to the legislatio...
International audienceMultiple factors and consequences may lead to a stator winding fault in an ext...
This paper presents a systematic study on turn-turn short circuit fault and ways to manage them to p...
This paper develops and analyzes a parametric model for simulating healthy and faulty surface-mount...
A robust interturn fault diagnostic approach based on the concept of magnetic field pendulous oscill...
In this report a general framework for developing two-axis models for Induction Machines (IMs) with ...
The paper proposes a fast dynamic mathematical model to evaluate the performances of saturated perma...
Thanks to its high-torque density and high efficiency, the Permanent Magnet Synchronous Machine (PMS...
Inter-turn short circuit fault, also known as turn fault is a common fault in electric machines whic...
IEEE Accurate modeling is the first step in developing a model-based diagnostics tool for different ...
Permanent magnet synchronous motors (PMSMs) have played a key role in commercial and industrial appl...
Conventional field reconstruction model (FRM) for electrical machines has proved its main strength i...
This paper presents a general analytical fault model in a compact matrix form for surface-mounted pe...
Abstract—In this paper, a time stepping two-dimensional FEM is performed for modeling and analysis o...
A model-based method for interturn short-circuit fault detection and isolation in permanent magnet s...
The development of the synchronous motors with permanent magnets is, mostly thanks to the legislatio...
International audienceMultiple factors and consequences may lead to a stator winding fault in an ext...
This paper presents a systematic study on turn-turn short circuit fault and ways to manage them to p...
This paper develops and analyzes a parametric model for simulating healthy and faulty surface-mount...
A robust interturn fault diagnostic approach based on the concept of magnetic field pendulous oscill...
In this report a general framework for developing two-axis models for Induction Machines (IMs) with ...