Design Principle for Linear Electrical Machines to Minimize Power Loss in Periodic Motions

2019 12th International Symposium on Linear Drives for Industry Applications (LDIA) Pub Date : 2019-07-01 DOI:10.1109/LDIA.2019.8770993

Sebastian Benecke, A. Gerlach, R. Leidhold

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引用次数: 5

Abstract

This paper describes a novel approach to the design of linear machines that are not run at a steady state operating point. The focus lies on minimizing the power loss to achieve highest possible efficiency. First analytical considerations reveal the potential of designing electrical machines for periodic, accelerated motion. It shows the influence of the machine size on the power losses due to the dependence of machine force as well as moving mass on this parameter. Based on these findings, a simulation model was created with which a linear machine can be optimized for a specific motion and load cycle. The simulation consist of a stationary and a time dependent finite element analysis of the linear machine in conjunction with an operational model that includes a given movement cycle. It was used to design a flat type linear machine for a free piston linear generator. The simulation results validate the analytical calculations and illustrate the differences to conventional design approaches for linear machines.

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线性电机在周期性运动中减小功率损耗的设计原则

本文描述了一种设计非稳态运行点线性电机的新方法。重点在于尽量减少功率损耗，以达到尽可能高的效率。首先，分析性考虑揭示了为周期性加速运动设计电机的潜力。它显示了由于机器力和运动质量对该参数的依赖，机器尺寸对功率损失的影响。基于这些发现，创建了一个仿真模型，利用该模型可以优化线性机器的特定运动和负载周期。仿真包括线性机器的静态和时间相关的有限元分析，并结合包含给定运动周期的操作模型。将其应用于自由活塞直线发电机的平面直线机设计。仿真结果验证了分析计算，并说明了与传统线性机床设计方法的区别。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2019 12th International Symposium on Linear Drives for Industry Applications (LDIA)

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