| LATERAL STABILITY CONTROL OF DYNAMIC STEERING FOR DUAL MOTOR DRIVE HIGH SPEED TRACKED VEHICLE |
| L. ZHAI1, T. M. SUN1, Q. N. WANG1, J. WANG2 |
1Beijing Institute of Technology
2Foton Motor Inc. |
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| ABSTRACT |
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In this paper, the torque and power required by dual motors for electric tracked vehicle during dynamic steering maneuvers with different steering radiuses are analyzed. A steering coupling drive system composed of a new type of center steering motor, two Electromagnetic (EM) clutches, two planetary gear couplers, and two propulsion motors is proposed for the dual motors drive high speed electric tracked vehicle (2MHETV), which aims to improve its lateral stability. An average torque direct distribution control strategy based on steering coupling and an optimization-distribution-based close-loop control strategy are designed separately to control the driving torque or regenerative braking torque of two propulsion motors for vehicle stability enhancement. Then models of the 2MHETV and the proposed control strategy are established in Recudyn and Matlab/Simulink respectively to evaluate the lateral stability of dynamic steering for the 2MHETV with different steering radiuses on hard pavement.The simulation results show that the lateral stability of the 2MHETV can be significantly improved by the proposed optimization-distribution-based close-loop control strategy based on steering coupling system. |
| Key Words:
Tracked vehicle, Dual motors drive, Dynamic steering, Electromechanical coupling, Stability control |
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