无离合器模糊逻辑控制混合传动

2014 IEEE International Conference on Industrial Engineering and Engineering Management Pub Date : 2014-12-01 DOI:10.1109/IEEM.2014.7058834

E. L. Esmail, H. Hussain, Rahman Hussain

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引用次数: 2

摘要

本文提出了一种模糊逻辑控制混合动力变速器的设计方案，该变速器只有一个电动机/发电机(MG)，没有任何旋转离合器。所提出的混合动力变速器通过动力控制装置将发动机和电动动力混合，以调节发动机的有效齿轮速度。采用控制单元后，除再生制动能力外的四种主要操作模式在拟议的混合动力变速器中是可行的;电机模式、发动机模式、发动机/充电模式和动力模式。无级变速(CVT)能力提供了发动机/充电模式和动力模式。动力模式可以进一步细分为三种混合子模式，分别对应于传统自动变速器的直接驱动、欠驱动和过度驱动。通过一个简单轮系的数值算例验证了所提混合动力传动的可行性。对车辆的所有行驶工况进行了研究和识别。该设计采用模糊逻辑实现，并在MATLAB/ Simulink中进行了仿真。

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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No clutch fuzzy logic-controlled hybrid transmission

This work presents a proposed design of a fuzzy logic-controlled hybrid transmission with only one electric motor/generator (MG) and without any rotating clutches. The proposed hybrid transmission serves to regulate the engine's effective gear velocity by mixing the engine and electric MG powers through a power controlling device. With a control unit, four major modes of operation excluding a regenerative braking capability are shown to be feasible in the proposed hybrid transmission; electric motor mode, engine mode, engine/charge mode, and power modes. Continuously variable transmission (CVT) capability is provided with the engine/charge mode and with the power mode. The power mode can be further subdivided into three hybrid sub-modes that correspond to the direct drive, under-drive, and over-drive of a conventional automatic transmission. The feasibility of the proposed hybrid transmission is demonstrated with a numerical example employing a simple gear train. All the driving conditions of the vehicle are studied and identified. The design is implemented using fuzzy logic and simulated in MATLAB/ Simulink.

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来源期刊

2014 IEEE International Conference on Industrial Engineering and Engineering Management

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