Performance Prediction of a 4WD High-Performance Electric Vehicle Using a Model-Based Torque-Vectoring Approach

Rafael Serralvo Neto; Joao Bruno Palermo; Renato Giacomini; Michele Rodrigues; Fabio Delatore; Giovana Betoni Rossi; Milene Galeti; Rudolf Theoderich Bühler

doi:10.3390/wevj14070183

World Electric Vehicle Journal (Jul 2023)

Performance Prediction of a 4WD High-Performance Electric Vehicle Using a Model-Based Torque-Vectoring Approach

Rafael Serralvo Neto,
Joao Bruno Palermo,
Renato Giacomini,
Michele Rodrigues,
Fabio Delatore,
Giovana Betoni Rossi,
Milene Galeti,
Rudolf Theoderich Bühler

Affiliations

Rafael Serralvo Neto: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Joao Bruno Palermo: Giaffone Electric, São Paulo 12345-678, Brazil
Renato Giacomini: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Michele Rodrigues: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Fabio Delatore: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Giovana Betoni Rossi: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Milene Galeti: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil
Rudolf Theoderich Bühler: Electrical Department, Centro Universitário FEI, Campus São Bernardo do Campo, Asunción 09850-901, Brazil

DOI: https://doi.org/10.3390/wevj14070183
Journal volume & issue: Vol. 14, no. 7
p. 183

Abstract

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Electric vehicles (EVs) enable the integration of powertrains with multiple motors, allowing for the adjustment of torque delivered to each wheel. This approach permits the implementation of torque vectoring techniques (TV) to enhance the vehicle’s stability and cornering response, providing better control of yaw moments. This study utilizes comprehensive telemetry data and an advanced simulator model to assess the influence of torque vectoring (TV) on a Formula SAE (Society of Automotive Engineers) competition vehicle. The telemetry data were collected from a fully instrumented 2WD car, which was then employed to calibrate the simulation model. The calibrated model was subsequently utilized to predict the performance enhancements that could be achieved by implementing a 4WD system. The methodology proved to be a valuable contribution to vehicle design development. This approach also helps evaluate the potential advantages of torque vectoring for drivers with limited experience.

Published in World Electric Vehicle Journal

ISSN: 2032-6653 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering; Technology: Engineering (General). Civil engineering (General): Transportation engineering
Website: http://www.mdpi.com/journal/wevj

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