Abstract
Automatic mechanical transmission (AMT) with a gearshift assistant mechanism is a novel transmission architect concept aiming to improve the torque interruption and driveline jerk of AMT. During the shifting process, the shifting performance deteriorates as the varying road gradient and the friction coefficient worsen the coupling effect between the motor torque and the clutch friction torque. This paper focuses on improving the controller’s robustness of AMT with a gearshift assistant mechanism against the perturbed parameters during the stage of torque gap filling. In this paper, a detailed powertrain simulation model was presented. Based on a decoupling controller and a disturbance compensator, proportional-integral-differential (PID) controllers are applied to enhance the robustness and the decoupling effect. The PID parameters are automatically tuned by employing the Nelder-Mead method. In the tuning process, a cost function was established to demonstrate the outputs’ reference tracking performance, and the PID parameters are tuned by minimizing the cost function. Finally, the tuned parameters are stored in PID maps to make them adjustable online. Simulation results show that with the perturbed parameters well estimated, the upshift process was successful and the torque filling effect was also acceptable. The proposed transmission is a promising structure for industry applications.
Highlights
With the continuous implementation of energy-saving and emission reduction policies, hybrid electric vehicles and pure electric vehicles are gradually replacing traditional internal combustion engine (ICE) vehicles
The vehicle upshift model is built on the MATLAB/Simulink simulation platform according to the detailed analysis of the Automatic mechanical transmission (AMT) with the gearshift assistant mechanism in [3]
In aiming to improve drivability and alleviate the deteriorated coupling effect between the clutch and motor torque caused by road gradient variation and friction coefficient fluctuation in the AMT with the gearshift assistant mechanism, PID feedback controllers are employed in this paper in association with a decoupling controller and a disturbance compensator
Summary
With the continuous implementation of energy-saving and emission reduction policies, hybrid electric vehicles and pure electric vehicles are gradually replacing traditional internal combustion engine (ICE) vehicles. Automatic mechanical transmission (AMT) based novel structures have drawn rising attention from hybrid and electric vehicle manufacturers [1,2]. An AMT equipped with a shift assist mechanism can enhance the shift quality and the fuel consumption of the traditional AMT by properly coordinating the friction clutch and the motor connected to the output shaft [3]. The auxiliary shifting mechanism added to AMT changed the shifting process in a way that is different compared to the traditional ones, and its performance still needs to be further validated. The vehicle usually operates under elaborate and varying conditions.
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