Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems

Tatsuya Nobunaga; Yoshitaka Toyota; Kengo Iokibe; Liuji R. Koga; Tetsushi Watanabe

Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems

Tatsuya Nobunaga, Yoshitaka Toyota, Kengo Iokibe, Liuji R. Koga, Tetsushi Watanabe

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

For investigating mode conversion in four-conductor transmission systems we have developed a modal-equivalent-circuit expressed by an imbalance factor of transmission line, a current division factor, in the same way as we developed the one in three-conductor transmission systems. The modal equivalent circuit consists of three modal equivalent circuits of normal mode, primary-common mode, and secondary-common mode. In this paper, the influence of mode conversion by the pigtail termination of a shielded-twisted-pair (STP) cable was analyzed using the modal equivalent circuit and mixed-mode S parameters with respect to normal mode and primary-common mode. As a result, it was found that mode conversion depends on the imbalance factor and that the modal equivalent circuit helps to explain mode conversion that occurs in terminating STP cables with pigtail.

Original language	English
Title of host publication	2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings
Pages	222-225
Number of pages	4
Publication status	Published - 2013
Event	2013 21st International Symposium on Electromagnetic Theory, EMTS 2013 - Hiroshima, Japan Duration: May 20 2013 → May 24 2013

Publication series

Name	2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings

Other

Other	2013 21st International Symposium on Electromagnetic Theory, EMTS 2013
Country/Territory	Japan
City	Hiroshima
Period	5/20/13 → 5/24/13

ASJC Scopus subject areas

Electrical and Electronic Engineering

Cite this

Nobunaga, T., Toyota, Y., Iokibe, K., Koga, L. R., & Watanabe, T. (2013). Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems. In 2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings (pp. 222-225). [6565719] (2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings).

Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems. / Nobunaga, Tatsuya; Toyota, Yoshitaka ; Iokibe, Kengo et al.
2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings. 2013. p. 222-225 6565719 (2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Nobunaga, T, Toyota, Y , Iokibe, K, Koga, LR & Watanabe, T 2013, Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems. in 2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings., 6565719, 2013 International Symposium on Electromagnetic Theory, EMTS 2013 - Proceedings, pp. 222-225, 2013 21st International Symposium on Electromagnetic Theory, EMTS 2013, Hiroshima, Japan, 5/20/13.

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abstract = "For investigating mode conversion in four-conductor transmission systems we have developed a modal-equivalent-circuit expressed by an imbalance factor of transmission line, a current division factor, in the same way as we developed the one in three-conductor transmission systems. The modal equivalent circuit consists of three modal equivalent circuits of normal mode, primary-common mode, and secondary-common mode. In this paper, the influence of mode conversion by the pigtail termination of a shielded-twisted-pair (STP) cable was analyzed using the modal equivalent circuit and mixed-mode S parameters with respect to normal mode and primary-common mode. As a result, it was found that mode conversion depends on the imbalance factor and that the modal equivalent circuit helps to explain mode conversion that occurs in terminating STP cables with pigtail.",

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AU - Nobunaga, Tatsuya

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AU - Watanabe, Tetsushi

PY - 2013

Y1 - 2013

N2 - For investigating mode conversion in four-conductor transmission systems we have developed a modal-equivalent-circuit expressed by an imbalance factor of transmission line, a current division factor, in the same way as we developed the one in three-conductor transmission systems. The modal equivalent circuit consists of three modal equivalent circuits of normal mode, primary-common mode, and secondary-common mode. In this paper, the influence of mode conversion by the pigtail termination of a shielded-twisted-pair (STP) cable was analyzed using the modal equivalent circuit and mixed-mode S parameters with respect to normal mode and primary-common mode. As a result, it was found that mode conversion depends on the imbalance factor and that the modal equivalent circuit helps to explain mode conversion that occurs in terminating STP cables with pigtail.

AB - For investigating mode conversion in four-conductor transmission systems we have developed a modal-equivalent-circuit expressed by an imbalance factor of transmission line, a current division factor, in the same way as we developed the one in three-conductor transmission systems. The modal equivalent circuit consists of three modal equivalent circuits of normal mode, primary-common mode, and secondary-common mode. In this paper, the influence of mode conversion by the pigtail termination of a shielded-twisted-pair (STP) cable was analyzed using the modal equivalent circuit and mixed-mode S parameters with respect to normal mode and primary-common mode. As a result, it was found that mode conversion depends on the imbalance factor and that the modal equivalent circuit helps to explain mode conversion that occurs in terminating STP cables with pigtail.

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Evaluation of pigtail termination of STP cable using modal equivalent circuit of four-conductor transmission systems

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