' w- w, ^# S9 L8 T
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.* U3 o- b; j. F' Q3 v
Please read the README.txt file to get started. 6 h' U8 ?* @8 x, d6 f0 F; `2 tTo 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 ; l8 K \3 s& ?1 zTo find other physical modeling examples, search for posts with the keyword "physical modeling" % U. I! I4 I2 Phttp://www.mathworks.com/matlabcentral/fileexchange/?term=%22physical+modeling%22: W ^0 ]8 X8 H6 r& G1 m
To learn more about MathWorks Physical Modeling Products, go to: http://www.mathworks.com/physical-modeling/. {% P. q! j- ]: K
Acknowledgements
6 O% a3 @7 o8 w1 g& j4 F" T
The author wishes to acknowledge the following in the creation of this submission: + B+ k5 V2 v6 ?+ g- F" M, DReal-Time Simulation of a Hybrid-Electric Vehicle 5 P, Y& h1 S& l/ _3 h
Required Products
SimDriveline0 w1 S/ ^4 N7 @
SimElectronics$ D- n5 Y! U- W* r! ~" C3 p$ ?
SimPowerSystems: a' n. [8 K# ~
Simscape& o. L% ^1 ^6 @' R3 ^
Stateflow7 ]4 a1 ]5 F% b% k6 x, M# Z
Simulink' G b) X# e) |! c7 E5 M