Title of article
Variational integrators for electric circuits
Author/Authors
Ober-Blِbaum، نويسنده , , Sina and Tao، نويسنده , , Molei and Cheng، نويسنده , , Mulin and Owhadi، نويسنده , , Houman and Marsden، نويسنده , , Jerrold E.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
33
From page
498
To page
530
Abstract
In this contribution, we develop a variational integrator for the simulation of (stochastic and multiscale) electric circuits. When considering the dynamics of an electric circuit, one is faced with three special situations: 1. The system involves external (control) forcing through external (controlled) voltage sources and resistors. 2. The system is constrained via the Kirchhoff current (KCL) and voltage laws (KVL). 3. The Lagrangian is degenerate. Based on a geometric setting, an appropriate variational formulation is presented to model the circuit from which the equations of motion are derived. A time-discrete variational formulation provides an iteration scheme for the simulation of the electric circuit. Dependent on the discretization, the intrinsic degeneracy of the system can be canceled for the discrete variational scheme. In this way, a variational integrator is constructed that gains several advantages compared to standard integration tools for circuits; in particular, a comparison to BDF methods (which are usually the method of choice for the simulation of electric circuits) shows that even for simple LCR circuits, a better energy behavior and frequency spectrum preservation can be observed using the developed variational integrator.
Keywords
Structure-preserving integration , Degenerate systems , Electric circuits , Noisy systems , Multiscale integration , variational integrators
Journal title
Journal of Computational Physics
Serial Year
2013
Journal title
Journal of Computational Physics
Record number
1485402
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