Start Presentation October 25, 2012 5 th Homework - Solution In this homework, we shall exercise the modeling of a simple electrical circuit using bond.

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Start Presentation October 25, th Homework - Solution In this homework, we shall exercise the modeling of a simple electrical circuit using bond graphs. We shall also model the same electrical circuit using a circuit diagram (a wrapped bond graph). We shall finally determine the overhead associated with the wrapping technique.

Start Presentation October 25, 2012 Electrical Circuit Given the following circuit:

Start Presentation October 25, 2012 Electrical Circuit II The circuit is to be modeled using bond graphs without wrapping. Use a sensor (detector) element together with a modulated source element to implement the non-linear current source in the circuit. Simulate the circuit during 50  sec, and plot v 3 as a function of time.

Start Presentation October 25, 2012 Bond Graph of Circuit Since flow sources in bond-graphic notation are defined with their positive flow pointing into the system, we need to make the gain factor negative in order to compensate for the directional sign change.

Start Presentation October 25, 2012 Simulation Results

Start Presentation October 25, 2012 Electrical Circuit III The circuit is to be modeled using bond graphs with wrapping, i.e., using the bond graph electrical library. Simulate the circuit during 50  sec, and plot v 3 as a function of time. Compare the number of initial and final equations as well as the simulation time with those obtained in the unwrapped bond-graph solution.

Start Presentation October 25, 2012 Bond Graph Electrical Library Model

Start Presentation October 25, 2012 Comparison of Translation Logs Bond Graph Model BG Electrical Model

Start Presentation October 25, 2012 Comparison of Simulation Logs Graphical ModelBG Electrical Model

Start Presentation October 25, 2012 Simulation Results