The paper presents a method for optimising radial proportions of the magnetic circuit of a linear tubular switched reluctance motor in terms of maximising the developed thrust from a given machine volume at constant (rated) dissipation. The method is based on the use of analytically derived expressions for the machine’s phase inductance in the position of full misalignment between phase saliencies and mover teeth, and the flux-linkage vs. current relationship in the aligned position. The average thrust is calculated from a complete cycle of co-energy change
The paper outlines a method for inclusion of the impact of eddy-currents in the model for dynamic pr...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
Currently, the level of industrial development is determined by the intellectual capacity of the equ...
A field modelling approach is presented exploiting approximate magnetic flux distributions. The meth...
A new switched reluctance motor configuration is proposed, in which the windings are arranged to en...
This thesis describes the design, analysis and optimization of a linear motor for use in reciprocati...
In this paper, the parameters of a linear type reluctance motor was verified by varying the motor pa...
This material is presented to ensure timely dissemination of scholarly and technical work. Copyright...
In this paper we deduce, from analytical field solutions, the influence of leading design parameters...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
The article presents a comparison of two optimization methods aimed at the linearization of electro...
This paper explores the trade-off between electromagnetic and mechanical performance when regarding ...
This paper reports the construction of a mathematical model for determining the electromagnetic mome...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
This paper reports the construction of a mathematical model for determining the electromagnetic mome...
The paper outlines a method for inclusion of the impact of eddy-currents in the model for dynamic pr...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
Currently, the level of industrial development is determined by the intellectual capacity of the equ...
A field modelling approach is presented exploiting approximate magnetic flux distributions. The meth...
A new switched reluctance motor configuration is proposed, in which the windings are arranged to en...
This thesis describes the design, analysis and optimization of a linear motor for use in reciprocati...
In this paper, the parameters of a linear type reluctance motor was verified by varying the motor pa...
This material is presented to ensure timely dissemination of scholarly and technical work. Copyright...
In this paper we deduce, from analytical field solutions, the influence of leading design parameters...
The magnetic design of Switched Reluctance (SR) motors is inherently a hierarchical process. The des...
The article presents a comparison of two optimization methods aimed at the linearization of electro...
This paper explores the trade-off between electromagnetic and mechanical performance when regarding ...
This paper reports the construction of a mathematical model for determining the electromagnetic mome...
A general framework for the analysis and design of a class of tubular linear permanent magnet machin...
This paper reports the construction of a mathematical model for determining the electromagnetic mome...
The paper outlines a method for inclusion of the impact of eddy-currents in the model for dynamic pr...
This paper describes the analysis and design optimization of an improved axially magnetized tubular ...
Currently, the level of industrial development is determined by the intellectual capacity of the equ...