Mode Shift Control for a Hybrid Heavy-Duty Vehicle with Power-Split Transmission

Given that power-split transmission (PST) is considered to be a major powertrain technology for hybrid heavy-duty vehicles (HDVs), the development and application of PST in the HDVs make mode shift control an essential aspect of powertrain system design. This paper presents a shift schedule design a...

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Published inEnergies (Basel) Vol. 10; no. 2; p. 177
Main Authors Huang, Kun, Xiang, Changle, Ma, Yue, Wang, Weida, Langari, Reza
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 2017
Subjects
Computer simulation
hybrid heavy-duty vehicle (HDV)
Hybrid vehicles
Mathematical models
Matlab
mode shift control strategy
motor torque control
power-split transmission (PST)
Schedules
shift schedule design
Sleep deprivation
Strategy
Torque
Transmissions (automotive)
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Abstract Given that power-split transmission (PST) is considered to be a major powertrain technology for hybrid heavy-duty vehicles (HDVs), the development and application of PST in the HDVs make mode shift control an essential aspect of powertrain system design. This paper presents a shift schedule design and torque control strategy for a hybrid HDV with PST during mode shift, intended to reduce the output torque variation and improve the shift quality (SQ). Firstly, detailed dynamic models of the hybrid HDV are developed to analyze the mode shift characteristics. Then, a gear shift schedule calculation method including a dynamic shift schedule and an economic shift schedule is provided. Based on the dynamic models and the designed shift schedule, a mode shift performance simulator is built using MATLAB/Simulink, and simulations are carried out. Through analysis of the dynamic equations, it is seen that the inertia torques of the motor–generator lead to the occurrence of transition torque. To avoid the unwanted transition torque, we use a mode shift control strategy that coordinates the motor–generator torque to compensate for the transition torque. The simulation and experimental results demonstrate that the output torque variation during mode shift is effectively reduced by the proposed control strategy, thereby improving the SQ.
AbstractList Given that power-split transmission (PST) is considered to be a major powertrain technology for hybrid heavy-duty vehicles (HDVs), the development and application of PST in the HDVs make mode shift control an essential aspect of powertrain system design. This paper presents a shift schedule design and torque control strategy for a hybrid HDV with PST during mode shift, intended to reduce the output torque variation and improve the shift quality (SQ). Firstly, detailed dynamic models of the hybrid HDV are developed to analyze the mode shift characteristics. Then, a gear shift schedule calculation method including a dynamic shift schedule and an economic shift schedule is provided. Based on the dynamic models and the designed shift schedule, a mode shift performance simulator is built using MATLAB/Simulink, and simulations are carried out. Through analysis of the dynamic equations, it is seen that the inertia torques of the motor-generator lead to the occurrence of transition torque. To avoid the unwanted transition torque, we use a mode shift control strategy that coordinates the motor-generator torque to compensate for the transition torque. The simulation and experimental results demonstrate that the output torque variation during mode shift is effectively reduced by the proposed control strategy, thereby improving the SQ.
Author Ma, Yue
Langari, Reza
Xiang, Changle
Wang, Weida
Huang, Kun
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Snippet Given that power-split transmission (PST) is considered to be a major powertrain technology for hybrid heavy-duty vehicles (HDVs), the development and...
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StartPage 177
SubjectTerms Computer simulation
hybrid heavy-duty vehicle (HDV)
Hybrid vehicles
Mathematical models
Matlab
mode shift control strategy
motor torque control
power-split transmission (PST)
Schedules
shift schedule design
Sleep deprivation
Strategy
Torque
Transmissions (automotive)
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Title Mode Shift Control for a Hybrid Heavy-Duty Vehicle with Power-Split Transmission
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