Title :
Higher-Order Cosimulation of Field/Circuit Coupled Problems
Author :
Schöps, Sebastian ; De Gersem, Herbert ; Bartel, Andreas
Author_Institution :
Dept. of Appl. Math./Numerical Anal., Bergische Univ. Wuppertal, Wuppertal, Germany
Abstract :
This paper discusses the weak coupling of nonlinear magnetoquasistatic field models (e.g., of induction motors) to an external electric network model (e.g., of frequency converters). A piece-wise linear inductance (as lumped field model) is not sufficiently accurate if the magnetic field exhibits strong eddy current effects. Here, we propose to represent the field model in the circuit equations by a more complex surrogate model. It is fitted by dynamic iteration (`waveform relaxation´) during the cosimulation procedure. We demonstrate the link between dynamic iterations and the achievable convergence order of the time integrator numerically.
Keywords :
circuit theory; coupled circuits; eddy currents; frequency convertors; induction motors; iterative methods; machine theory; circuit theory; dynamic iteration; eddy current effect; external electric network model; field-circuit coupled problem higher-order cosimulation; frequency converter; induction motor; nonlinear magnetoquasistatic field model; time integrator; waveform relaxation; Convergence; Couplings; Equations; Integrated circuit modeling; Magnetic circuits; Mathematical model; Numerical models; Coupling circuits; convergence of numerical methods; differential-equations; eddy currents; iterative algorithms;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2174039
