电动摩托车制动系统涡流制动器的设计

Q2 Energy

International Journal of Power Electronics and Drive Systems Pub Date : 2021-03-01 DOI:10.11591/IJPEDS.V12.I1.PP41-50

M. Putra, M. Nizam, D. D. D. P. Tjahjana

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引用次数: 1

摘要

机动车辆的制动系统一般采用利用摩擦的制动系统。快速利用摩擦会导致制动性能下降。为了克服这一点，作为一种替代方案，电磁制动系统可以利用涡流，如涡流制动器(ECB)。当转子通过电磁铁的磁场时，就会产生涡流。研究的目的是设计一个欧洲中央银行系统。磁盘设计的性能将在本研究中确定。该研究是关于欧洲央行资产的趋势。采用有限元法对ECB的性能进行了建模。用实验结果对结果进行了验证。试验结果表明，在12.03 Nm时，铝盘制动效果最佳。根据这些结果，需要适当的磁盘设计来组合磁盘。

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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Design of eddy current brake for electric motorcycle braking system

Braking systems in motor vehicles generally use a braking system that utilizes friction. The braking performance will decrease caused by using friction rapidly. To overcome this, as an alternative, an electromagnetic braking system can be used by utilizing eddy currents, such as eddy current brakes (ECB). Eddy currents are generated when the rotor pass the magnetic field of the electromagnet. The research aim is to design an ECB system. The performance of the disk design will be determined in this study. The study is about the tendency of the ECB properties. The finite element (FEM) method is used by modeling ECB performance. The experimental results were used to validate the result. The test showed the results of braking using aluminum disk showed the best performance in 12.03 Nm. From these results, the combination of the disks is needed by an appropriate disk design.

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来源期刊

International Journal of Power Electronics and Drive Systems Energy-Energy Engineering and Power Technology

CiteScore

3.50

自引率

0.00%

发文量

期刊介绍： International Journal of Power Electronics and Drive Systems (IJPEDS) is the official publication of the Institute of Advanced Engineering and Science (IAES). The journal is open to submission from scholars and experts in the wide areas of power electronics and electrical drive systems from the global world. The scope of the journal includes all issues in the field of Power Electronics and drive systems. Included are techniques for advanced power semiconductor devices, control in power electronics, low and high power converters (inverters, converters, controlled and uncontrolled rectifiers), Control algorithms and techniques applied to power electronics, electromagnetic and thermal performance of electronic power converters and inverters, power quality and utility applications, renewable energy, electric machines, modelling, simulation, analysis, design and implementations of the application of power circuit components (power semiconductors, inductors, high frequency transformers, capacitors), EMI/EMC considerations, power devices and components, sensors, integration and packaging, applications in motor drives, wind energy systems, solar, battery chargers, UPS and hybrid systems and other applications.