Gear Shifting Control for Pure Electric Vehicle with Inverse-AMT


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In this study, the gear shifting control strategy for pure electric vehicle with inverse automated manual transmission (I-AMT) is proposed. Based on a new drive train system of pure electric vehicle, an AMESim model of vehicle drive-train system is set up. Through the precise control of sliding sleeve, clutch engagement and separating time, gear shifting process is realized without driving torque interruption. The results show that, during up and down shift process, the driving torque keeps more than 50%, obviously improve the pure electric vehicle accelerating performance and the ability to climb.



Edited by:

Yonghong Tan




Q. Liang et al., "Gear Shifting Control for Pure Electric Vehicle with Inverse-AMT", Applied Mechanics and Materials, Vols. 190-191, pp. 1286-1289, 2012

Online since:

July 2012




[1] Liqiong Sun, Renzhen Wang, Research of The Pure Electric Vehicle Drive TrainWith Multiple-gear Transmission, The Fourth Light Electric Vehicle Technology Seminar In China, (2003).

[2] Ming Wen, Optimization Design of The Pure Electric Vehicle With CVT, Wuhan Polytechnic University Degree Thesis , (2009).

[3] Ehani. M, Peihong Ni, Suming Xiong translate, Modern Electric Vehicle, Hybrid Electric Vehicle and Fuel Cell Vehicle—Basic Principle, Theory and Design, Mechanical Industry Publishing (2010)in Chinese.

[4] Wangyu Wang, Vehile Design: Fourth Edition, Mechanical Industry Publishing (2004) in Chinese.

[5] Zhisheng Yu, Automobile Theory: Fifth Edition, Mechanical Industry Publishing (2009) in Chinese.

[6] Yongling Fu, Xiaoye Qi, LMS Imagine. Lab AMESim System Modeling and Simulation Reference Manual, Beijing Aviation University Publishing (2011) in Chinese.

[7] Li Ping, Study on the Clutch Control Technology of Automated Mechanical Transmission (AMT) System of Commercial Vehicle, Jilin University Master's Degree Thesis (2005) in Chinese.

[8] Paul D. Walker, Nong Zhang, Investigation of synchronizer engagement in dual clutch transmission equiped power trains, Journal of Sound and Vibration (2011).

[9] Hyeoun-Dong Lee and Seung-Ki Sul, Han-Sang Cho and Jang-Moo Lee, Advanced Gear Shifting and Clutching Strategy for Parallel Hybrid Vehicle with Automated Manual Transmission, IEEE (1998).


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