In this paper we present an effective analytical modeling approach for the design of the transmission of electric vehicles. Specifically, we first devise an analytical loss model for an electric machine and show that it can be accurately fitted by only sampling three points from the original motor map. Second, we leverage this model to derive the optimal transmission ratio as a function of the wheels' speed and torque, and use it to optimize the transmission ratio. Finally, we showcase our analytical approach with a real-world case-study comparing two different transmission technologies on a BMW i3: a fixed-gear transmission (FGT) and a continuously variable transmission (CVT). Our results show that even for e-machines intentionally designe...
Electronics Continuous Variable Transmission (ECVT) is a smart transmission that has unlimited gear ...
This paper presents a decomposed co-design optimization framework for an electric vehicle powertrain...
The paper describes the advantages due to the adoption of multi-speed transmission systems within fu...
In this paper we present an effective analytical modeling approach for the design of the transmissio...
This paper introduces a framework to systematically optimize the design and control of an electric v...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
The focus is on the combined design optimization of the transmission design and control design for a...
Copyright © 2013 Paul D. Walker et al.This is an open access article distributed under the Creative ...
Electric vehicles are seen as the most promising solution to convert sustainable energy into drive e...
Pure electric vehicles (PEVs) provide a unique problem in powertrain design through the meeting of p...
\u3cp\u3eIn this paper, gear ratios of a two-speed transmission system are optimized for an electric...
Most of the current electric vehicles use a single reduction gear set powertrain architecture as the...
Increasingly electric vehicle design is looking forward the application of multiple ratio transmissi...
Pure electric vehicles (PEVs) provide a unique problem in powertrain design through the meeting of p...
Electronics Continuous Variable Transmission (ECVT) is a smart transmission that has unlimited gear ...
This paper presents a decomposed co-design optimization framework for an electric vehicle powertrain...
The paper describes the advantages due to the adoption of multi-speed transmission systems within fu...
In this paper we present an effective analytical modeling approach for the design of the transmissio...
This paper introduces a framework to systematically optimize the design and control of an electric v...
This paper presents models and optimization algorithms to jointly optimize the design and control of...
The focus is on the combined design optimization of the transmission design and control design for a...
Copyright © 2013 Paul D. Walker et al.This is an open access article distributed under the Creative ...
Electric vehicles are seen as the most promising solution to convert sustainable energy into drive e...
Pure electric vehicles (PEVs) provide a unique problem in powertrain design through the meeting of p...
\u3cp\u3eIn this paper, gear ratios of a two-speed transmission system are optimized for an electric...
Most of the current electric vehicles use a single reduction gear set powertrain architecture as the...
Increasingly electric vehicle design is looking forward the application of multiple ratio transmissi...
Pure electric vehicles (PEVs) provide a unique problem in powertrain design through the meeting of p...
Electronics Continuous Variable Transmission (ECVT) is a smart transmission that has unlimited gear ...
This paper presents a decomposed co-design optimization framework for an electric vehicle powertrain...
The paper describes the advantages due to the adoption of multi-speed transmission systems within fu...