Study on the Control System of Electric Vehicle Anti-Rollover Based on DSP

Xin Min Xiong; Yan Hou

doi:10.4028/www.scientific.net/AMM.336-338.779

Paper Titles

Mechanical Simulation of Knee Movement in Basketball Shooting
p.760

Short-Term Power Forecasting of Small-Scale Hydropower Based on Projection Pursuit Algorithm
p.764

Control Fractional-Order Continuous Chaotic System via a Simple Fractional-Order Controller
p.770

An Agent-Based Battlefield Simulation Framework for Decision Support
p.774

Study on the Control System of Electric Vehicle Anti-Rollover Based on DSP
p.779

Lithium Iron Phosphate Power Battery State of Charge Estimation Based on the Extended Kalman Filter
p.784

PLC Control System of Cutting Fixed-Length Plates and Simulation Debugging
p.789

Research on the Parameters Identification of Direct Thrust Control System Using Wavelet Neural Network
p.794

Research on State of Charge Estimation for Power Battery of Electric Vehicle
p.799

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 336-338Study on the Control System of Electric Vehicle...

Study on the Control System of Electric Vehicle Anti-Rollover Based on DSP

Abstract:

According to the actual need of vehicle anti-rollover, based on the current technology of measuring speed, weighing and measuring turn angle, an anti-rollover control system with differential braking and turn angle limit function for electrical vehicle was researched. The system uses data signal processor (DSP) as the core controller, and includes the speed measuring circuit, the weighing circuit, the steering angle measuring circuit and the steering wheel control circuit. The speed measuring circuit using the orthogonal pulse photoelectric encoder and DSP can realize the acquisition and calculation of speed. The weighing circuit with capacitance sensor can convert the load of vehicle axle to the voltage signal. A/D conversion is completed by DSP, and the vehicle load is calculated with V-M mathematic model. The turn angle measuring circuit is composed of the photoelectric angle sensor, the filter and DSP' counter. The control program of the system was also designed.

You might also be interested in these eBooks

Industrial Instrumentation and Control Systems II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 336-338)

Pages:

779-783

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.336-338.779

Citation:

Cite this paper

Online since:

July 2013

Authors:

Xin Min Xiong, Yan Hou

Keywords:

Anti-Rollover, Control System, Digital Signal Processor (DSP), Electric Vehicle (EV), Measuring Angle, Measuring Speed, Weighing

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] S.Gosselin-Brisson, M.Bouazara, and M.J. Richard: Design of an active anti-roll bar for off-road vehicles, J. Shock & Vibration, 2009, vol.16, issue 2, pp.155-174.

DOI: 10.1155/2009/343048

Google Scholar

[2] P.H. Cronjé, and P.S. Els: Improving off-road vehicle handling using an active anti-roll bar, J. Journal of Terramechanics, 2010, vol. 47, issue 3, pp.179-189.

DOI: 10.1016/j.jterra.2009.09.003

Google Scholar

[3] Ming Wan, Houlin Li, and Hua Tian: A Research of Maximum Roll Stability Angle Measures of Automobile, J. Drive System Technique, 1999, issue 4, pp.37-41, in Chinese.

Google Scholar

[4] Changfu Zong, and Konghui Guo: Study and Evaluation on the Controllability and Stability of Automobiles, J. Automobile Technology, 2000, issue 6, pp.6-11, in Chinese.

Google Scholar

[5] Feng He, Liyong Yang, and Zhangyi Liu: Study on Differential-Braking-Based Vehicle Dynamics Control with Rollover Prevention, J. Modern Machinery, 2003, issue 5, pp.31-33, in Chinese.

Google Scholar

[6] Shushan Xu, Junxia Guo, and Sanxu Yang: Electron Influence on Characteristics in Capacitance Weighing Sensor of Traffic with Velocity and Acceleration, J. Journal of Henan Normal University (Natural Science), 2008, vol.36, issue 5, pp.65-68, in Chinese.

Google Scholar

[7] Baoyu Wang, Dongmin Wang, and San-xu Yang: A Research on V-M Nonlinear Compensation of Vehicle Weighing with Capacitance Transducer, J. Henan Science, 2007, vol.25, issue 2, pp.263-265, in Chinese.

Google Scholar