The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Pour un système de signalisation différentielle multicanal réel, l'équilibre idéal ou la topologie symétrique ne peut pas être établi et, par conséquent, une composante de déséquilibre est excitée. Cependant, aucune méthode d'analyse théorique permettant d'évaluer la distribution de tension et de courant sur les lignes appariées différentiellement, permettant d'anticiper le rayonnement EM au stade de la conception et d'étudier les moyens possibles de supprimer les composants de déséquilibre, n'a été mise en œuvre. Pour fournir les considérations de base sur le rayonnement électromagnétique (EM) provenant d'une structure pratique de lignes asymétriques à paires différentielles avec routage d'équi-longueur utilisée dans la conception de cartes à grande vitesse, cet article propose récemment une méthode analytique pour évaluer la tension et le courant en tout point du différentiel. -des lignes appariées en exprimant les lignes appariées différentielles avec un circuit source équivalent et un circuit de charge équivalent. La méthode proposée peut prédire S-paramètres, distributions de tension et de courant et rayonnement EM avec une précision suffisante. De plus, la méthode proposée offre suffisamment de flexibilité pour différents paramètres géométriques et peut être utilisée pour développer des connaissances physiques et des directives de conception. Cette étude a réussi à établir une méthode de base pour prédire efficacement l'intégrité du signal et les problèmes d'interférence EM sur des lignes à paires différentielles.
Yoshiki KAYANO
The University of Electro-Communications
Yoshio KAMI
The University of Electro-Communications
Fengchao XIAO
The University of Electro-Communications
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Yoshiki KAYANO, Yoshio KAMI, Fengchao XIAO, "Evaluation Method of Voltage and Current Distributions on Asymmetrical and Equi-Length Differential-Paired Lines" in IEICE TRANSACTIONS on Electronics,
vol. E103-C, no. 11, pp. 597-604, November 2020, doi: 10.1587/transele.2019ESP0010.
Abstract: For actual multi-channel differential signaling system, the ideal balance or symmetrical topology cannot be established, and hence, an imbalance component is excited. However a theoretical analysis method of evaluating the voltage and current distribution on the differential-paired lines, which allows to anticipate EM radiation at the design stage and to study possible means for suppressing imbalance components, has not been implemented. To provide the basic considerations for electromagnetic (EM) radiation from practical asymmetrical differential-paired lines structure with equi-length routing used in high-speed board design, this paper newly proposes an analytical method for evaluating the voltage and current at any point on differential-paired lines by expressing the differential paired-lines with an equivalent source circuit and an equivalent load circuit. The proposed method can predict S-parameters, distributions of voltage and current and EM radiation with sufficient accuracy. In addition, the proposed method provides enough flexibility for different geometric parameters and can be used to develop physical insights and design guidelines. This study has successfully established a basic method to effectively predict signal integrity and EM interference issues on a differential-paired lines.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/transele.2019ESP0010/_p
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@ARTICLE{e103-c_11_597,
author={Yoshiki KAYANO, Yoshio KAMI, Fengchao XIAO, },
journal={IEICE TRANSACTIONS on Electronics},
title={Evaluation Method of Voltage and Current Distributions on Asymmetrical and Equi-Length Differential-Paired Lines},
year={2020},
volume={E103-C},
number={11},
pages={597-604},
abstract={For actual multi-channel differential signaling system, the ideal balance or symmetrical topology cannot be established, and hence, an imbalance component is excited. However a theoretical analysis method of evaluating the voltage and current distribution on the differential-paired lines, which allows to anticipate EM radiation at the design stage and to study possible means for suppressing imbalance components, has not been implemented. To provide the basic considerations for electromagnetic (EM) radiation from practical asymmetrical differential-paired lines structure with equi-length routing used in high-speed board design, this paper newly proposes an analytical method for evaluating the voltage and current at any point on differential-paired lines by expressing the differential paired-lines with an equivalent source circuit and an equivalent load circuit. The proposed method can predict S-parameters, distributions of voltage and current and EM radiation with sufficient accuracy. In addition, the proposed method provides enough flexibility for different geometric parameters and can be used to develop physical insights and design guidelines. This study has successfully established a basic method to effectively predict signal integrity and EM interference issues on a differential-paired lines.},
keywords={},
doi={10.1587/transele.2019ESP0010},
ISSN={1745-1353},
month={November},}
Copier
TY - JOUR
TI - Evaluation Method of Voltage and Current Distributions on Asymmetrical and Equi-Length Differential-Paired Lines
T2 - IEICE TRANSACTIONS on Electronics
SP - 597
EP - 604
AU - Yoshiki KAYANO
AU - Yoshio KAMI
AU - Fengchao XIAO
PY - 2020
DO - 10.1587/transele.2019ESP0010
JO - IEICE TRANSACTIONS on Electronics
SN - 1745-1353
VL - E103-C
IS - 11
JA - IEICE TRANSACTIONS on Electronics
Y1 - November 2020
AB - For actual multi-channel differential signaling system, the ideal balance or symmetrical topology cannot be established, and hence, an imbalance component is excited. However a theoretical analysis method of evaluating the voltage and current distribution on the differential-paired lines, which allows to anticipate EM radiation at the design stage and to study possible means for suppressing imbalance components, has not been implemented. To provide the basic considerations for electromagnetic (EM) radiation from practical asymmetrical differential-paired lines structure with equi-length routing used in high-speed board design, this paper newly proposes an analytical method for evaluating the voltage and current at any point on differential-paired lines by expressing the differential paired-lines with an equivalent source circuit and an equivalent load circuit. The proposed method can predict S-parameters, distributions of voltage and current and EM radiation with sufficient accuracy. In addition, the proposed method provides enough flexibility for different geometric parameters and can be used to develop physical insights and design guidelines. This study has successfully established a basic method to effectively predict signal integrity and EM interference issues on a differential-paired lines.
ER -