A Study on Transmission Characteristics and Shielding Effectiveness of Shielded-Flexible Printed Circuits for Differential-Signaling

机译：差分信令屏蔽柔性印刷电路的传输特性及屏蔽效能研究

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To provide basic considerations for the realization of method for suppressing the EMI from differential-paired lines on flexible printed circuits (FPC), the characteristics of the SI performance and shielding effectiveness (SE) of shielded-flexible printed circuits for differential-signaling are investigated in this paper experimentally and by a numerical modeling. Firstly, transmission characteristics of TDR measurement and frequency response of |S_(dd21)| are discussed, from view point of signal integrity. Secondly, as the characteristics of the SE performance for EMI, frequency responses of magnetic field are investigated. Although placement of conductive shield near the paired-lines decreases characteristics impedance, |S_(dd21)| for the "with Cu 5.5μm-thickness copper shield" is not deteriorated compared with "without shield" and sufficient SE performance for magnetic fields can be established. But, thin-shield deteriorates SI as well as SE performances.

机译：为了提供用于实现用于抑制来自柔性印刷电路（FPC）上的差分配对线的EMI的方法的基本注意事项，研究了用于差分信令的屏蔽柔性印刷电路的SI性能和屏蔽效能（SE）的特性在实验和数字建模的本文中。首先，TDR测量和频率响应的传输特性| S_（DD21）|从信号完整性的视点讨论。其次，作为EMI的SE性能的特性，研究了磁场的频率响应。虽然在配对线附近的导电屏蔽的放置降低了特性阻抗，| S_（DD21）|对于“Cu5.5μm-厚度铜屏蔽”与“没有屏蔽”相比不会劣化，并且可以建立足够的磁场的性能。但是，薄屏蔽劣化SI以及SE表演。

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《IEEE International Symposium on Electromagnetic Compatibility》|2015年||共6页
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Yoshiki Kayano; Hiroshi Inoue;
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中图分类 TB97-53;
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Differential-signaling; electromagnetic shield; flexible printed circuits; differential-mode; common-mode;

机译：差分信号;电磁屏蔽;柔性印刷电路;差异模式;共模;

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专利

1. Generalised approach to modelling shielded printed-circuit transmission lines [J] . Gnilenko A.B., Yakovlev A.B. IEE Proceedings. Part H . 1997,第2期

机译：屏蔽印刷电路传输线建模的通用方法
2. Generalised approach to modelling shielded printed- circuit transmission lines [J] . A. B. Gnilenko, A. B. Yakovlev, I.V Petrusenko IEE Proceedings. Part H . 1997,第1期

机译：建模屏蔽印刷电路传输线的通用方法
3. Temperature dependence of transmission characteristics of flexible printed circuits in microwave band [J] . Tsuchiya A., Sugama H., Hidaka N., Electronics Letters . 2012,第15期

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4. A study on transmission characteristics and shielding effectiveness of shielded-flexible printed circuits for differential-signaling [C] . Kayano Yoshiki, Inoue Hiroshi IEEE International Symposium on Electromagnetic Compatibility and EMC Europe . 2015

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5. The analysis of noise voltage coupling between right-handed and meta-materials inspired transmission lines on printed circuit boards. [D] . Nariyal, Sanjay. 2013

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7. Special Articles: Design for Printed Circuit Boards and Its Electromagnetic Characteristics. 1. Transmission Characteristics. Simulation and Measurement of Transmission Line Characteristics. [O] . Isao KAWAKAMI 1992

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8. Theoretical and Experimental Study of EM Fields and Shielding Effectiveness Due to High Voltage Transmission Lines. [R] . Seker, S. S., Can, F., Cerezci, O. 2001

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A Study on Transmission Characteristics and Shielding Effectiveness of Shielded-Flexible Printed Circuits for Differential-Signaling

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