Abstract
In hybrid electric vehicles with power-split configurations, the engine can be decoupled from the wheel and operated with improved fuel economy, while the entire efficiency of the powertrain is affected by the circular electric power flow. Two planetary gear (2-PG) sets with adding brakes/clutches, namely a type of four shaft elelctric continuously variable transmission (ECVT) can provide multi-mode operation for the powertrain and extend the efficient area. First, a conventional 2-PG AT (Automatic Transmission) architecture is investigated. By analyzing and comparing the connection and operating modes based on the kinematic relationship and lever analogy, a feasible four-shaft ECVT architecture with two brakes and two simplified versions are picked. To make a trade-off between fuel economy and configuration complexity, an instantaneous optimal control strategy based on the equivalent consumption minimization strategy (ECMS) concept is then developed and employed as the unified optimization method in the simulations of three different configurations. Finally, the simulation results show that the simplified versions are suboptimal sets and the fuel economy is sacrificed by the limits of different modes. From the viewpoint of concept design, a multi-mode power-split configuration is more suitable for hybrid electric vehicles. This research applied a systematic methodology from concept design to energy management optimization, which can provide the guidelines for researchers to select a suitable multi-mode power-split hybrid powertrain.
Highlights
Power-split hybrid vehicles dominate the blooming hybrid electric vehicle market
Two representative power-split hybrid vehicle models are Toyota’s Prius and Chevy Volt. The former uses an input-split configuration with single planetary gear (PG) set [2,3], while the latter uses an output-split configuration with a single PG as well, and has three clutches and four operating modes
Without B1/B2 engagement, the transmission plays the role as an elelctric continuously variable transmission (ECVT) and the combined power flows in compound split mode
Summary
Power-split hybrid vehicles dominate the blooming hybrid electric vehicle market. The core of the power-split powertrain is the hybrid transmission composed of a planetary gear set which splits and couples the mechanical power from the engine and two electric machines. The configuration can take advantages of both series and parallel hybrid vehicles [1], and is the most promising scheme to achieve the target of a deep reduction of emission and fuel consumption. The market has certified the performance of power-split powertrain. Two representative power-split hybrid vehicle models are Toyota’s Prius and Chevy Volt. The former uses an input-split configuration with single planetary gear (PG) set [2,3], while the latter uses an output-split configuration with a single PG as well, and has three clutches and four operating modes
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