Lappeenranta 2005 153 p. Acta Universitatis Lappeenrantaensis 208 Diss. Lappeenranta University of Technology ISBN 952-214-029-5, ISBN 952-214-030-9 (PDF), ISSN 1456-4491 This thesis presents an alternative approach to the analytical design of surface-mounted axial- flux permanent-magnet machines. Citations: 1 Sections PDF Tools Share Abstract The present study investigated the design, simulation, and manufacturing of a new coreless stator axial-flux permanent-magnet motor.
Axial flux motors EMobility Engineering
Abstract: This paper presents a comparison of two different kinds of BLDC-Motors for application in handheld power tool drives. Whereas radial flux machines are well known and broadly used, the axial flux concept is less popular. One reason may be the more complex design process and the need to use 3D-FEM calculation. In this paper, an axial flux brush less DC motor is chosen for the study. A preliminary design is arrived based on the magnetic circuit and power balance equations. Then the Finite Element Analysis of the preliminary design is carried out. It is found from the FEA that the preliminary design can be refined. I. INTRODUCTION Recently, axial-flux PM (AFPM) machine technology is developing. Axial-flux PM machines provide high efficiency, compact construction, and high torque at low speed [1-4]. Software design tool for optimum Axial Flux BLDC motors Abstract: The Axial Flux BLDC motors are relatively new, specially at higher power ratings over 10 kW. Therefore the designers face a lot of difficulties in designing and optimizing the motor for a given application.
Axial Flux BLDC Motor Design Course YouTube
Software design tool for optimum Axial Flux BLDC motors DOI: 10.1109/ICIINFS.2009.5429806 Authors: J. W. K. Kosala Jayasundara University of Moratuwa R. Munasinghe University of Moratuwa Abstract. The proposed solution is to design an ironless, axial or radial flux, electric BLDC motor, which would provide the high efficiency and power density needed, along with axial modularity and fault-tolerance [2]. The design can be rapidly constructed through the process of 3D printing. (June 2023) A motor can be built upon any flat structure, such as a PCB, by adding coils and a bearing. The coil winding process and the process of joining the coil and core may be simpler. Since the coils are flat, rectangular copper strips can more easily be used, simplifying high-current windings. . In radial flux motors, retention of the magnets against centrifugal force on the rotor is required but there is no such requirement in axial flux motors. Some important features of.
What is Axial Flux Motor and It's Working Principle? Linquip
Corpus ID: 56358747 Axial flux PM BLDC motor design methodology and comparison with a radial flux PM BLDC motor E. Yeşilbağ, Y. Ertuğrul, L. T. Ergene Published in Turkish J. Electr. Eng… 30 July 2017 Engineering Turkish J. Electr. Eng. Comput. Sci. TLDR Final Version: 30.07.2017. Abstract: The aim of this paper is to develop a methodology to design an axial ux permanent magnet brushless direct current AFPM motor for a washing machine and compare the results with a conventional radial ux permanent. magnet brushless direct current RFPM motor with the same power ratings.
The Axial Flux BLDC motors are relatively new, specially at higher power ratings over 10 kW. Therefore the designers face a lot of difficulties in designing and optimizing the motor for a given application. This paper presents a new method to optimize the performance in speed, torque, torque stability, power output, power density and motor dimensions in view of the cost and reliability for a. The aim of this paper is to develop a methodology to design an axial flux permanent magnet brushless direct current (AFPM) motor for a washing machine and compare the results with a conventional radial flux permanent magnet brushless direct current (RFPM) motor with the same power ratings. The AFPM motor is designed based on the maximum power density for an optimum inner-to-outer diameter.
More Power! 3d printed, Axial Flux, BLDC motor number 3. YouTube
This paper presents a comparison of two different kinds of BLDC-Motors for application in handheld power tool drives. Whereas radial flux machines are well known and broadly used, the axial flux concept is less popular. One reason may be the more complex design process and the need to use 3D-FEM calculation. Axial flux permanent magnet motors have attracted increasing attention due to their compact topology and high torque density. Many topological variations have arisen over time; however, limited research has directly compared the differences in magnetic performance of these topologies. This paper carries out a comprehensive investigation, employing both analytical and 3D finite element analyses.
