Qi Songxin, Yang Quanrang. FULL-WAVE ANALYSIS OF THE HIGH-SPEED INTEGRATED TRANSMISSION LINE DISCONTINUITIES[J]. Journal of Electronics & Information Technology, 1995, 17(4): 378-384.
Citation:
Qi Songxin, Yang Quanrang. FULL-WAVE ANALYSIS OF THE HIGH-SPEED INTEGRATED TRANSMISSION LINE DISCONTINUITIES[J]. Journal of Electronics & Information Technology, 1995, 17(4): 378-384.
Qi Songxin, Yang Quanrang. FULL-WAVE ANALYSIS OF THE HIGH-SPEED INTEGRATED TRANSMISSION LINE DISCONTINUITIES[J]. Journal of Electronics & Information Technology, 1995, 17(4): 378-384.
Citation:
Qi Songxin, Yang Quanrang. FULL-WAVE ANALYSIS OF THE HIGH-SPEED INTEGRATED TRANSMISSION LINE DISCONTINUITIES[J]. Journal of Electronics & Information Technology, 1995, 17(4): 378-384.
A new time domain finite difference method with variable grids of high accuracy is derived by the polynomial approximation, and applied to analyze the variable-angle transmission line discontinuities. The method has the advantages of comparatively less memory space and CPU time, and is much simpler than other techniques. Test results are in good agreement with published data, thereby the accuracy of the new method is verified.
Palusinki D A, et al. IEEE Trans. on CHMT, 1990, CHMT-13(2): 160-166.[2]Gao D S, et al. IEEE Trans. on CAS, 1990, CAS-37(1):1-9.[3]Schutt-Aine J E, Mittra R. IEEE Trans. on MTT, 1988, MTT-36(3): 529-536.[4]Jun-Fa Mao, Zheng-Fan Li. IEEE Trans. an MTT, 1992, MTT-40(5):948-955.[5]李征帆.电子学报,1992,20(5): 67-72.[6]Mur G. IEEE Trans. on EMC, 1981, EMC-23(11): 377-382.[7]Moore J. Hao Ling, IEEE Trans. on MTT, 1990, MTT-38(4): 405-409.[8]Yee K S. IEEE Trans. on AP, 1966,AP-14(5): 302-307.[9]王秉中.电子科学学刊,1993,15(4): 337-341.
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