Design and characterization of a cost-effective and high-power density brushless rotor supply for mobile synchronous generators

2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART) Pub Date : 2015-11-01 DOI:10.1109/SMART.2015.7399254

J. Veitengruber

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引用次数: 2

Abstract

As part of the ongoing NGC-project (Next Generation Car) related to the research of new technologies for future road vehicles at the DLR, this publication is dedicated to the replacement of slip rings by an inductive power transfer system for field winding supplies in electrically excited synchronous generators. By means of function integrated lightweight design, due to the attachment of the rotary transformer as well as the co-rotating rectifier on an existing fan and the usage of standardised components for the rotational transformer, a volumetric optimized mounting as well as cost-effective brushless transfer system can be realized. The design of the system regarding the integration into the constraint space includes a variety of different challenges, which are subject of this work. For design purpose, an analytical model of the inductive link, the compensation network as well as the primary and secondary side power electronics has been set up. Furthermore, a prototype system has been established, measured on the test bench at the institute of vehicle concepts and compared to the derived model.

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一种高性价比、高功率密度的移动同步发电机无刷转子电源的设计与特性研究

作为正在进行的ngc项目(下一代汽车)的一部分，该项目与DLR研究未来道路车辆的新技术有关，本出版物致力于用电励磁同步发电机励磁线圈供电的感应电力传输系统取代滑环。通过功能集成轻量化设计，由于旋转变压器和同向旋转整流器附加在现有风扇上，旋转变压器使用标准化组件，可以实现体积优化安装和成本效益高的无刷传输系统。将系统集成到约束空间的设计包含各种不同的挑战，这是本工作的主题。为了设计目的，建立了感应链路、补偿网络以及一次、二次侧电力电子的分析模型。此外，还建立了一个原型系统，在车辆概念研究所的试验台上进行了测试，并与推导模型进行了比较。

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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2015 International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART)

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