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Yaw Stability Control System Development and Implementation for a Fully Electric Vehicle

Authors :
Kahraman, Kerim
Senturk, Mutlu
Emirler, Mumin Tolga
Uygan, Ismail Meric Can
Aksun-Guvenc, Bilin
Guvenc, Levent
Efendioglu, Baris
Publication Year :
2020

Abstract

There is growing interest in fully electric vehicles in the automotive industry as it becomes increasingly more difficult to meet new and upcoming emission regulations based on internal combustion engines. Fully electric vehicles do not have an internal combustion engine. Hence, drive torque change for a traction control system and for a yaw stability control system has to be through the electric motor used for traction. The regenerative braking capability of fully electric vehicles has to be taken into account in designing braking controllers like ABS and yaw stability control through differential braking. Fully electric vehicles are usually lighter vehicles with different dynamic characteristics than that of their predecessors using internal combustion engines. As such, their yaw stability control systems have to be re-designed and tested. This paper reports the initial results of ongoing work on yaw stability controller design for a fully electric vehicle. Two different implementations on a research prototype fully electric light commercial vehicle are considered. The first implementation uses the production yaw stability control system in the internal combustion engine powered conventional vehicle. The drive torque change commands from the production ECU are read, modified and sent to the electric motor driver in trying to mimic the conventional vehicle. The differential braking commands are the same as in the conventional vehicle. In the second implementation, a generic yaw stability control system that calculates and issues its own drive torque change commands and differential braking commands is designed and implemented. Offline simulations on a validated model and a hardware-in-the-loop simulation system are used in designing the yaw stability control system.<br />Comment: 10 pages, 17 figures, 2 tables

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2012.04719
Document Type :
Working Paper