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Development a HIL Test Bench for Electrically Controlled Steering System
Technical Paper
2016-01-0051
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Electric power steering (EPS), active front wheel steering (AFS) and steer by wire systems (SBW) can enhance the handling stability and safety of the vehicle, even in dangerous working conditions. Now, the development of the electric control steering system (ECS) is mainly based on the way that combines the test of the electric steering hardware-in-loop (HIL) test bench with real vehicle tests. However, the real vehicle tests with higher cost, long cycle and vulnerable to space weather have the potential safety problems at early development. On contrast, electronic control steering HIL test bench can replace real vehicle tests under various working conditions and make previous preparations for real vehicle road tests, so as to reduce the number of real vehicle test, shorten the development cycle, lower development costs, which has gradually become the important link of research and development of electronic steering system. Based on the study of domestic and foreign related electronic control steering HIL test bench and according to its purpose to develop and function requirements, this paper not only puts forward a set of real-time simulation system based on dSPACE and linear motor electric control to the development of the HIL test bench scheme, but also exploits the software and hardware of the test bench. Simultaneously, the development of the rapid control prototyping and HIL test has been carried on the test bench in electric power steering system.
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Citation
Zheng, H. and Zhao, M., "Development a HIL Test Bench for Electrically Controlled Steering System," SAE Technical Paper 2016-01-0051, 2016, https://doi.org/10.4271/2016-01-0051.Also In
References
- Cetin A. E. , Adli M. A. , Barkana D. E. , and Kucuk H. Implementation and development of an adaptive steering-controlsystem IEEE Trans. Veh. Technol. 59 1 75 83 Jan. 2010
- LEE S. J. , KIM S. I. and HONG J. P. Characteristics of PM Synchronous Motors According to Pole-slot Combinations for EPS Applications International Journal of Automotive Technology 15 7 1183 1187 2014 10.1007/s12239-014-0123-6
- Hung Ying-Chih , Lin Faa-Jeng , Hwang Jonq-Chin , Chang Jin-Kuan , and Ruan Kai-Chun Wavelet Fuzzy Neural Network With Asymmetric Membership Function Controller for Electric Power Steering System via Improved Differential Evolution IEEE Transactions On Power Electronics 30 4 April 2015
- Mehrabi N. , Azad N. L. , and McPhee J. Optimal disturbance rejection control design for electric power steering systems Proc. 50th IEEE Conf. Decision Control Eur. Control Conf. Dec. 2011 6584 6589
- Hanselmann , H. Hardware-in-the-Loop Simulation as a Standard Approach for Development, Customization, and Production Test SAE Technical Paper 930207 1993 10.4271/930207
- Heiming , B. and Haupt , H. Hardware-in-the-Loop Testing of Networked Electronics at Ford SAE Technical Paper 2005-01-1658 2005 10.4271/2005-01-1658
- Setlur , P. Wagner , Dawson J. , Darren. Powers , L. A hardware-in-the-loop and virtual reality test environment for steer-by-wire system evaluations[C] American Control Conference 2003 3 2584 2589
- Lawson , Matthew , Chen Xiang Hardware-in-the-loop simulation of fault tolerant control for an electric power steering system”[C] Vehicle Power and Propulsion Conference IEEE 2008
- Qun Zeng , Huang Juhua The Development of Control Unit in Automotive Electric Power Steering System [J] Information Processing 242 245 July 2009