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This file contains a hybrid-electric vehicle model built using Simscape, SimElectronics, SimDriveline, and SimPowerSystems that can be configured for system-level tests or power quality analyses. Model variants for the electrical, battery, and vehicle dynamics systems can be selected using configurable subsystems. A battery model created with the Simscape language is incorporated into the model. Supervisory logic is implemented with Stateflow. This model can be configured for hardware-in-the-loop testing. 4 t% L1 S, U% g! Y: wPlease read the README.txt file to get started.7 u$ j: m4 H4 w/ k. A2 c* U
To see the different variants included in this model, please watch the webinar, “Hybrid Electric Vehicle Modeling and Simulation“ http://www.mathworks.com/company/events/webinars/wbnr50682.html 0 A: Q' Y- m! q8 v! ?) Y- P( L; qTo find other physical modeling examples, search for posts with the keyword "physical modeling" , O! k8 H1 v& g, @http://www.mathworks.com/matlabcentral/fileexchange/?term=%22physical+modeling%22 ! j3 | m: {. m y$ mTo learn more about MathWorks Physical Modeling Products, go to: http://www.mathworks.com/physical-modeling/& ^/ D" i; e9 G' h/ A5 _
Acknowledgements
F7 j0 H9 B0 B& m, f9 L" f8 fThe author wishes to acknowledge the following in the creation of this submission:2 x2 h% v3 b4 g
Real-Time Simulation of a Hybrid-Electric Vehicle ( E4 |! d7 I0 F) i
Required Products
SimDriveline! P [7 e7 f7 t; {6 b
SimElectronics 9 i+ U, ?; @. CSimPowerSystems 7 d. l9 I* @& j/ rSimscape( k- c2 j+ B$ U- W/ M. ~
Stateflow' b; S9 |, T/ Y( L$ f0 l8 j9 }
Simulink0 x. J5 s% a; s