Design of Printed Circuit Board Coils for Precision Engineering Linear Direct Drives

2018 8th International Electric Drives Production Conference (EDPC) Pub Date : 2018-12-01 DOI:10.1109/EDPC.2018.8658272

Simon Strohmeyr, W. Schinköthe, Simon Gadegast

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Abstract

Aiming at high forces at low space in linear direct drives, favorable heat transfer conditions and high copper filling factors of the coils are of central importance [1]. For this reasons coils are mainly made of round copper wire and subsequently casted with impregnating resins or epoxy resins to increase stability and thermal conductivity. However, there are alternatives such as coils with rectangular wire, casted coils [2] or PCB (printed circuit boards) coils [3]. Due to the geometric design of linear direct drives PCB coils can be an alternative [4]. In this paper a coil in printed circuit board design is presented. The development and the process, from the selection of suitable PCB designs to optimization, assembly and comparison with conventionally round wire coils, is described. A linear direct drive is designed to compare the force-displacement characteristics and the increase of the temperature in static operation of the two types of coils. Slightly lower temperature of the overall system at the same mechanical motor parameters can be achieved with the PCB coil.

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精密工程直线直接驱动用印刷电路板线圈的设计

针对线性直接驱动的低空间高力，良好的换热条件和线圈的高铜填充系数是至关重要的[1]。因此，线圈主要由圆形铜线制成，然后浇铸浸渍树脂或环氧树脂，以增加稳定性和导热性。然而，也有其他选择，如矩形线圈、铸造线圈[2]或PCB(印刷电路板)线圈[3]。由于线性直接驱动的几何设计，PCB线圈可以替代[4]。本文介绍了一种用于印刷电路板的线圈设计。介绍了从选择合适的PCB设计到优化、组装和与传统圆线线圈的比较的发展和过程。设计了一种线性直接驱动，比较了两种线圈静态运行时的力-位移特性和温度的升高。在相同的机械电机参数下，用PCB线圈可以实现整体系统温度略低。

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2018 8th International Electric Drives Production Conference (EDPC)

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