Abstract
The feeling of the brake pedal is one of the most important factors for the driver confidence during brake. Vacuum booster plays a significant role on the brake pedal feeling analysis. The traditional characteristic model cannot satisfy our objective, so a model based on the structure is needed. This paper presents a model based on the structure defined as 3 springs, 2 valves, 1 reaction washer and dynamic air flows, gives out the detailed condition to judge for the states of vacuum booster which can give more details to the brake pedal feeling. After simulation, the conclusion that the model is proper for pedal feeling can be drawn.
Publisher
Trans Tech Publications, Ltd.
Reference4 articles.
1. Y. Khan, P. Kulkami, and K. Youcef-Toumi, 1994, Modeling, experimentation and simulation of a brake apply system, ASME Journal of Dynamic Systems, Measurement, and Control, 116: 111-122.
2. J. Christian Gerdes, and J. Karl Hedrick. 1994", Brake System Modeling for Simulation and Control" , Transactions of the ASME Journal of Dynamic Systems, Measurement, and Control, 121: 496-503.
3. Dragos Bogdan Maciuca. 1997, Nonlinear Robust and Adaptive Control with Application to Brake Control for Automated Highway System , a dissertation submitted for the PHD of the University of California at Berkeley.
4. Zhao Kai, 2007, Study on Automobile Vacuum Booster Assembly Based on Reverse Design.
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