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Dynamic Torque Coordinated Control Considering Engine Starting Conditions for a Power-Split Plug-In Hybrid Electric Vehicle

Yanzhao Su, Minghui Hu, Jin Huang, Datong Qin, Chunyun Fu, Yi Zhang

2021Applied Sciences14 citationsDOIOpen Access PDF

Abstract

For a power-split plug-in hybrid electric vehicle (PS-PHEV), the control system cannot effectively reduce jerks under some engine-starting conditions due to the pulsating torque of the engine, elastic characteristics of the transmission, battery power limitations, and the limitation of the maximum torque of the motor. To solve this problem, a dynamic torque-coordinated control method considering engine starting conditions (DTCC-ESC) is proposed in this paper. The proposed DTCC-ESC mainly includes three parts: the engine segment active control before and after engine ignition to minimize the impact of the engine ripple torque on the shocks of the powertrain system; the feedforward control of the engine starting conditions and the feedback control of the engine’s optimal target speed; and the active damping feedback compensation control for system resonance to reduce system vibrations. The results show that the proposed DTCC-ESC can effectively improve driving comfort under different engine starting conditions.

Topics & Concepts

Automotive engineeringTorqueControl theory (sociology)PowertrainStall torqueEngineeringEngine control unitManual transmissionFeed forwardDirect torque controlComputer scienceControl (management)Internal combustion engineControl engineeringClutchInduction motorVoltageElectrical engineeringArtificial intelligencePhysicsThermodynamicsElectric and Hybrid Vehicle TechnologiesAdvanced Combustion Engine TechnologiesMechanical Engineering and Vibrations Research
Dynamic Torque Coordinated Control Considering Engine Starting Conditions for a Power-Split Plug-In Hybrid Electric Vehicle | Litcius