This chapter addresses different modeling and simulation methods for electric and hybrid vehicles. It begins by reviewing the fundamentals of vehicle system modeling. The chapter then provides an overview of the existing vehicle modeling tools Advanced Vehicle Simulator (ADVISOR) and powertrain system analysis toolkit (PSAT), with application examples, using ADVISOR to study a hybrid battery‐ultracapacitor energy storage system, and using PSAT to optimize a parallel powertrain design. It further looks at physics‐based dynamic modeling, introducing the resistive companion form (RCF) of modeling method with examples of a DC machine, a DC‐DC boost power converter, and vehicle dynamics including a wheel slip model. The chapter also looks at bond graphs and other modeling tools such as PSIM, Simplorer, V‐ELPH, Saber, and Modelica for hybrid powertrain modeling. Finally, it outlines the issue and mitigation methods of numerical oscillations for dynamic simulation involving power electronics.
Modeling and Simulation of Electric and Hybrid Vehicles
Hybrid Electric Vehicles ; 409-431
2017-10-26
23 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Modeling and Simulation for Hybrid Electric Vehicles -- Part II: Simulation
Online Contents | 2002
|Modeling and Simulation for Hybrid Electric Vehicles -- Part I: Modeling
Online Contents | 2002
|Modeling and Simulation for Hybrid Electric Vehicles-Part I: Modeling
British Library Online Contents | 2002
|Modeling and Simulation for Hybrid Electric Vehicles-Part II: Simulation
British Library Online Contents | 2002
|