5 F; h& d9 b) k- w/ EThis 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./ j+ `' `* J- D5 {$ k$ C& ~5 G
Please read the README.txt file to get started., X4 C/ E7 I4 {7 _2 p6 S
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.html9 x( V9 { Q. k1 ^2 U9 w
To find other physical modeling examples, search for posts with the keyword "physical modeling" ! B( ?% n0 t/ ^) N, G http://www.mathworks.com/matlabcentral/fileexchange/?term=%22physical+modeling%22 ( |5 r6 m. d) H0 N) q* q* sTo learn more about MathWorks Physical Modeling Products, go to: http://www.mathworks.com/physical-modeling/ 0 j$ g% V4 o& i
Acknowledgements
# A& T$ ~2 c+ I4 t# J! XThe author wishes to acknowledge the following in the creation of this submission: 1 D/ r W9 x% L# `6 v- [Real-Time Simulation of a Hybrid-Electric Vehicle ( k; w9 P; Y8 n n7 \
Required Products
SimDriveline 6 s6 {8 }8 v; QSimElectronics2 X; @6 G8 ?# f& [& I+ A- o8 x
SimPowerSystems # f8 {% E4 W3 g& d4 R5 t- r' kSimscape 5 d, |( W2 T4 qStateflow0 |9 A0 P/ Q X) w5 z
Simulink 1 c5 R0 o/ k m, x