A fast and accurate method for scaling the dimensions and the performance of Permanent Magnet Synchronous Machines (PMSMs) is proposed, based on the use of flux linkage maps. Starting from a reference design, the scaled machine is designed to comply new peak torque and power, maximum operating speed, voltage and current specifications in seamless computational time. A new design plane is introduced, permitting the minimization of the stack length of the scaled design. The analysis covers the scaling of losses and the rules for scaling the water-glycol stator cooling jacket, which is a common cooling setup for PMSMs in traction application. The torque versus speed characteristics, the efficiency map and the thermal limit of the scaled design...
In this paper, the effect that a varied stator slot size has on the efficiency and thermal capabilit...
Compact high torque/power density motors are needed for electrical vehicles in modern electric cars...
This study presents a rapid sizing technique for interior permanent magnet (IPM) machine in traction...
This paper proposes a procedure for the fast preliminary design of Internal Permanent Magnet machine...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
This paper presents a design environment for permanent-magnet synchronous motors (PMSMs). Two design...
Finding the optimum design of electrical machines for a certain purpose is a time-consuming task. Fi...
In this paper, an innovative model structuration is proposed to describe scaled Permanent Magnet Syn...
This paper proposes a design process of permanent magnet assisted synchronous reluctance motors (PMa...
This preliminary paper pre sents a design procedure for Permanent - m agnet synchronous motors (PMSM...
The thesis is an investigation into the performance of Permanent Magnet Assisted Synchronous relucta...
Surface permanent magnet synchronous machines are one of the most widely adopted machine topologies ...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
In low-speed applications, switched reluctance machine (SRM) design methodologies are generally driv...
Society is turning to electrification to reduce air pollution, increasing electric machine demand. F...
In this paper, the effect that a varied stator slot size has on the efficiency and thermal capabilit...
Compact high torque/power density motors are needed for electrical vehicles in modern electric cars...
This study presents a rapid sizing technique for interior permanent magnet (IPM) machine in traction...
This paper proposes a procedure for the fast preliminary design of Internal Permanent Magnet machine...
A large-scale finite element model-based design optimization algorithm is developed for improving th...
This paper presents a design environment for permanent-magnet synchronous motors (PMSMs). Two design...
Finding the optimum design of electrical machines for a certain purpose is a time-consuming task. Fi...
In this paper, an innovative model structuration is proposed to describe scaled Permanent Magnet Syn...
This paper proposes a design process of permanent magnet assisted synchronous reluctance motors (PMa...
This preliminary paper pre sents a design procedure for Permanent - m agnet synchronous motors (PMSM...
The thesis is an investigation into the performance of Permanent Magnet Assisted Synchronous relucta...
Surface permanent magnet synchronous machines are one of the most widely adopted machine topologies ...
A novel automated design algorithm for application-based optimization of permanent magnet (PM) machi...
In low-speed applications, switched reluctance machine (SRM) design methodologies are generally driv...
Society is turning to electrification to reduce air pollution, increasing electric machine demand. F...
In this paper, the effect that a varied stator slot size has on the efficiency and thermal capabilit...
Compact high torque/power density motors are needed for electrical vehicles in modern electric cars...
This study presents a rapid sizing technique for interior permanent magnet (IPM) machine in traction...