000188222 001__ 188222
000188222 005__ 20180318102440.0
000188222 037__ $$aCONF
000188222 245__ $$aA Novel Method for the Optimal Parameter Selection of Discrete-Time Switch Model
000188222 269__ $$a2013
000188222 260__ $$aVancouver$$bThe University of British Columbia$$c2013
000188222 336__ $$aConference Papers
000188222 520__ $$aThe paper proposes a novel method for the optimal parameter selection of the discrete-time switch model used in circuit solvers that adopt the Fixed Admittance Matrix Nodal Method (FAMNM) approach. As known, FAMNM-based circuit solvers allow to reach efficient computation times since they do not need the inversion of the circuit nodal admittance matrix. However, these solvers need to optimally tune the so-called discrete switch conductance, since this parameter might largely affect the simulations accuracy. Within this context, the method proposed in the paper minimizes the distance between the eigenvalues of the original circuit’s nodal admittance matrix with those associated with the presence of the discrete-time switches. The method is proven to provide values of the discrete-time switch conductance that maximize the simulation accuracy and minimize the losses on this artificial parameter. The performances of the proposed method are finally validated by making reference to two test cases: (i) a circuit composed of RLC elements, (ii) a network model that includes a single-phase transmission line.
000188222 6531_ $$aDiscrete-time switch model
000188222 6531_ $$aModified nodal analysis
000188222 6531_ $$aFixed admittance matrix nodal method
000188222 6531_ $$aReal-time simulation
000188222 700__ $$0246330$$aRazzaghi, Reza$$g212123
000188222 700__ $$aFoti, Chrysanthi
000188222 700__ $$0245463$$aPaolone, Mario$$g156731
000188222 700__ $$0240565$$aRachidi, Farhad$$g106170
000188222 7112_ $$a10th International Conference on Power Systems Transients$$cVancouver, British Columbia, Canada$$dJuly 18-20, 2013
000188222 720_1 $$aHøidalen, Hans Kristian$$eed.
000188222 720_1 $$aUglesic, Ivo$$eed.
000188222 773__ $$j-$$k-$$q1-7$$tProceedings of the 10th International Conference on Power Systems Transients (IPST 2013)
000188222 8564_ $$uhttp://www.ipst.org/$$zURL
000188222 8564_ $$s555260$$uhttps://infoscience.epfl.ch/record/188222/files/184.pdf$$yn/a$$zn/a
000188222 909CO $$ooai:infoscience.tind.io:188222$$pconf$$pSTI
000188222 909C0 $$0252423$$pDESL$$xU12494
000188222 909C0 $$0252310$$pEMC$$xU12147
000188222 917Z8 $$x156731
000188222 937__ $$aEPFL-CONF-188222
000188222 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000188222 980__ $$aCONF