Journal ArticleDOI
A novel clutchless multiple-speed transmission for electric axles
Aldo Sorniotti,Thomas Holdstock,Mike Everitt,M. Fracchia,Fabio Viotto,Carlo Cavallino,Stefano Bertolotto +6 more
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TLDR
In this article, the authors present a four-speed transmission system that can be concurrently driven by two electric motor drives, for use in fully electric vehicles or electric axles for through-the-road parallel hybrid electric vehicles, which allows the electric motors to work in their high efficiency region for a longer period during a typical driving schedule.Abstract:
Fully electric vehicles and range-extended electric vehicles can be characterised by a multitude of possible powertrain layouts, many of them currently under investigation and comparison. This contribution presents a novel clutchless seamless four-speed transmission system which can be concurrently driven by two electric motor drives, for use in fully electric vehicles or electric axles for through-the-road parallel hybrid electric vehicles. The transmission system allows the electric motors to work in their high efficiency region for a longer period during a typical driving schedule. This paper describes the layout of the novel transmission system, the equations for modelling its dynamics and the criteria for the selection of the best gearshift maps for energy efficiency. Finally, an energy consumption and performance comparison between the novel drivetrain, a conventional single-speed electric drivetrain and a double-speed electric drivetrain is discussed in detail for two case study vehicles.read more
Citations
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Journal ArticleDOI
Energy Recovery Strategy Numerical Simulation for Dual Axle Drive Pure Electric Vehicle Based on Motor Loss Model and Big Data Calculation
TL;DR: The research results in this paper provide a reference for the future calculation of braking force feedback control system based on big data of new energy vehicles and analyzes how the automobile braking force matches the energy recovery efficiency.
Journal ArticleDOI
Tribology of electric vehicles: A review of critical components, current state and future improvement trends
TL;DR: In this article, a literature review about the current state and future improvement trends for optimization of critical tribological components used in passenger electric vehicles is presented, which gives an understanding of the most recent achievements in terms of tribological solutions applied to the critical components and the identification of research gaps for further developments and efficiency improvements for EVs through novel component designs, materials and lubricant technologies.
Journal ArticleDOI
Powertrain dynamics and control of a two speed dual clutch transmission for electric vehicles
Paul D. Walker,Bo Zhu,Nong Zhang +2 more
TL;DR: Simulation and experimental studies of the shift transient behaviour of dual clutch transmission equipped electric vehicle powertrains are undertaken and reasonable agreement between simulated and experimental outcomes is demonstrated.
Journal ArticleDOI
Efficiency comparison of electric vehicles powertrains with dual motor and single motor input
TL;DR: Simulation results of the two proposed powertrains in three typical driving cycles demonstrate that the EVs equipped with both DMPGT and DMPAT have a higher overall efficiency than the EVsequipped with single motor input powertrain.
References
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Tire and Vehicle Dynamics
TL;DR: Pacejka's model is the subject of continued development, particularly in extending its validity range to modelling higher frequencies and short wavelength obstacles and testing, which are covered in new chapters in the 2nd edition.
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Dynamic lithium-ion battery model for system simulation
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