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Control of PHEV and HEV Parallel Powertrains Using a Sequential Linearization Algorithm
Technical Paper
2015-01-1219
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Using measurable physical input variables, an implementable control algorithm for parallel architecture plug-in and non-plug-in hybrid electric vehicle (PHEV and HEV) powertrains is presented. The control of the electric drive is based on an algebraic mapping of the accelerator pedal position, the battery state-of-charge (SOC), and the vehicle velocity into a motor controller input torque command. This mapping is developed using a sequential linearization control (SLC) methodology. The internal combustion engine (ICE) control uses a modified accelerator pedal to throttle plate angle using an adjustable gain parameter that, in turn, determines the sustained battery SOC. Searches over an admissible control space or the use of pre-defined look-up tables are thus avoided. Actual on-road results for a Ford Explorer with a through-the-road (TTR) hybrid powertrain using this control methodology are presented. In addition, Matlab-based simulation results for PHEVs and HEVs using this single control algorithm are presented employing a model of the Explorer. These results show the gasoline consumption and SOC over 48 repeated cycles of three common driving schedules. Further studies of acceleration performance illustrate the trade-off of minimizing gasoline consumption vs. higher performance using more gasoline. All-electric range (AER) vs. battery capacity is also presented as well as the fuel consumption and final SOC for two PHEV control strategies.
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Meisel, J., Shabbir, W., and Evangelou, S., "Control of PHEV and HEV Parallel Powertrains Using a Sequential Linearization Algorithm," SAE Technical Paper 2015-01-1219, 2015, https://doi.org/10.4271/2015-01-1219.Also In
References
- Wirasingha S. G. and Emadi A. 2011 Classification and Review of Control Strategies for Plug-In Hybrid Electric Vehicles IEEE Transactions on Vehicular Technology 60 1 111 122
- Paganelli G. , Delprat S. , Guerra T. M. , Rimaux J. , and Santin J. J. 2002 Equivalent consumption minimization strategy for parallel hybrid powertrains Vehicular Technology Conference. IEEE 55th Vehicular Technology Conference VTC Spring 2002 4 2076 2081
- Serrao L. , Onori S. , and Rizzoni G. 2010 ECMS as a realization of Pontryagin's minimum principle for HEV control American Control Conference 2009
- Kutter S. and Baker B. 2010 Predictive online control for hybrids: Resolving the conflict between global optimality, robustness and real-time capability IEEE Veh. Power and Propulsion Conf. 1 7
- Musardo C. , Rizzoni G. , Guezennec Y. , and Staccia B. 2005 A-ECMS: An Adaptive Algorithm for Hybrid Electric Vehicle Energy Management 44th IEEE Conference on Decision and Control 11 4-5
- Zhang C. and Vahid A. 2010 Real-time optimal control of plug-in hybrid vehicles with trip preview American Control Conference 6917 6922
- Meisel J. , Shabbir W. and Evangelou S.A. 2013 A practical control methodology for parallel plug-in hybrid electric vehicle powertrains 2013 IEEE Vehicle Power and Propulsion Conference
- Yu H. , Kuang M. , and McGee R. 2011 Trip-oriented Energy Management Control strategy for plug-in hybrid electric vehicles IEEE Conf. on Decision and Control and European Control Conf 5805 5812
- Wang R. and Lukic S. M. 2011 Review of driving conditions prediction and driving style recognition based control algorithms for hybrid electric vehicles IEEE Veh. Power and Propulsion Conf. 1 7
- Gong Q. , Li Y. , and Peng Z. 2007 Trip based power management of plug-in hybrid electric vehicle with two-scale dynamic programming IEEE Veh. Power and Propulsion Conf. 12 19
- Meisel J. , Shabbir W. and Evangelou S.A. 2013 Evaluation of the through-the-road architecture for plug-in hybrid electric vehicle powertrains 2013 IEEE VEC/IEVC
- AC Propulsion, Inc. AC-150 Manual May 2014 http://www.acpropulsion.com/datasheet/AC-150%20Motor.pdf
- Biggers , C. , Mandeltort , P. , McClearen , J. , Meisel , J. et al. Georgia Tech's FutureTruck Split-Parallel Hybrid SUV Design SAE Technical Paper 2003-01-1270 2003 10.4271/2003-01-1270
- Miller J.M. 2011 Propulsion Systems for Hybrid Vehicles 2nd Institute of Engineering Technology
- Ehsani M. , Gao Y. , Gay S.E. , and Emadi A. Modern Electric, Hybrid, and Fuel Cell Vehicles CRC Press Boca Raton, Florida 2005
- Astrom K.J. and Murray R.M. 2008 Feedback Systems: An Introduction for Scientists and Engineers Princeton University Press
- The Mathworks Simulink/State Flow model sf_car.mdl, in Matlab