In this paper we deduce, from analytical field solutions, the influence of leading design parameters on the performance of a radially magnetized, iron-cored, tubular permanent-magnet machine and its drive system. We derive analytical formulas for predicting the open-circuit electromotive force, the thrust force, the iron loss, and the winding resistance and inductances, as well as the converter losses. The force density, the machine and drive system efficiencies, and the power factor and converter volt-ampere (VA) rating are established as functions of a set of machine dimensional ratios, with due account of magnetic saturation and subject to a specified thermal constraint. We validate the utility and accuracy of the analytically derived fo...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
A closed-form per-unit formulation for the design of surface-mounted permanent-magnet motors having ...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
While methods of determining the iron loss in rotating permanent-magnet (PM) machines have been inve...
Using the analytical formulas derived in Part I for predicting the magnetic field distribution, thru...
The need for reduction of CO2 emission from refrigerator compressors has motivated the research whic...
In Part I of the paper, analytical field solutions, which account for the fringing flux associated w...
The paper presents a method for optimising radial proportions of the magnetic circuit of a linear tu...
This thesis describes the design, analysis and optimization of a linear motor for use in reciprocati...
The article presents an analytically rapid evaluation technique for interior permanent magnet (IPM) ...
This paper investigates the influence of the choice of soft magnetic material on the performance of ...
In this paper, a multiobjective design optimization method combining design-of-experiments technique...
Performance improvement of permanent magnet (PM) motors through optimization techniques has been wid...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
A closed-form per-unit formulation for the design of surface-mounted permanent-magnet motors having ...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
While methods of determining the iron loss in rotating permanent-magnet (PM) machines have been inve...
Using the analytical formulas derived in Part I for predicting the magnetic field distribution, thru...
The need for reduction of CO2 emission from refrigerator compressors has motivated the research whic...
In Part I of the paper, analytical field solutions, which account for the fringing flux associated w...
The paper presents a method for optimising radial proportions of the magnetic circuit of a linear tu...
This thesis describes the design, analysis and optimization of a linear motor for use in reciprocati...
The article presents an analytically rapid evaluation technique for interior permanent magnet (IPM) ...
This paper investigates the influence of the choice of soft magnetic material on the performance of ...
In this paper, a multiobjective design optimization method combining design-of-experiments technique...
Performance improvement of permanent magnet (PM) motors through optimization techniques has been wid...
The detailed magnetic field distribution of a permanent magnet electric motor is very important for ...
The common practices of large-scale finite element (FE) model-based design optimization of permanent...
A closed-form per-unit formulation for the design of surface-mounted permanent-magnet motors having ...