Add to ORKGThis paper describes an analytical model that includes end effects for ironless synchronous permanent-magnet planar actuators. Because of its flexibility, the model can be used to predict the performance of various permanent-magnet array and coil array topologies and commutation schemes. Moreover, since control currents have to be nonsinusoidal, it allows analysis of the motor performance without specifying a commutation scheme by directly dealing with the motor-coupling matrix that links the coil currents to the forces or accelerations acting on the translato
This paper presents three types of magnetostatic models of ironless planar actuators with moving mag...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
This paper presents three types of magnetostatic models of ironless planar actuators with moving mag...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
This paper describes an analytical model that includes end effects for ironless synchronous permanen...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, finite element analysis is used to develop a fast model that includes end-effects and...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
This paper presents three types of magnetostatic models of ironless planar actuators with moving mag...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...
In this paper, an overview of analytical techniques for the modeling of linear and planar permanent-...