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外文期刊>IEEE Transactions on Power Systems
>State equation approximation of transfer matrices and its application to the phase domain calculation of electromagnetic transients
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State equation approximation of transfer matrices and its application to the phase domain calculation of electromagnetic transients
A general methodology is presented for the state equation approximation of a multiple input/output linear system from transfer matrix data. A complex transformation matrix, obtained by eigenanalysis at a fixed frequency, is used for diagonalization of the transfer matrix over the whole frequency range. A scalar estimation procedure is applied for identification of the modal transfer functions. The state equations in the original coordinates are obtained by inverse transformation. An iterative Gauss-Newton refinement process is used to reduce the overall error of the approximation. The developed methodology is applied to the phase domain modeling of untransposed transmission lines. The approach makes it possible to perform EMTP calculations directly in the phase domain. This results in conceptual simplification and savings in computation time since modal transformations are not needed in the sequences of the transient analysis. The presented procedure is compared with the conventional modal approach in terms of accuracy and computation time.
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