A Novel Fluid-Reconfigurable Advanced and Delayed Phase Line Using Inkjet-Printed Microfluidic Composite Right/Left-Handed Transmission Line

Sungjin Choi; Wenjing Su; Tentzeris Manos M.; Sungjoon Lim

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A Novel Fluid-Reconfigurable Advanced and Delayed Phase Line Using Inkjet-Printed Microfluidic Composite Right/Left-Handed Transmission Line

机译：使用喷墨打印的微流体复合右/左手传输线的新型流体可重构高级和延迟相线

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摘要

In this letter, a novel fluid-reconfigurable advanced and delayed phase line using a microfluidic composite right/left-handed (CRLH) transmission line (TL) is proposed. A CRLH-TL prototype is inkjet-printed on a photo-paper substrate. In addition, a laser-etched microfluidic channel in poly(methyl methacrylate) (PMMA) is integrated with the CRLH TL using inkjet-printed SU-8 as a bonding material. The proposed TL provides excellent phase-tuning capability that is dependent on the fluidic materials used. As the fluid is changed, the proposed TL can have negative-, zero-, and positive-phase characteristics at 900 MHz for different fluids. The performance of the TL is successfully validated using simulation and measurement results.

机译：在这封信中，提出了一种使用微流体复合右/左手（CRLH）传输线（TL）的新型流体可重构提前和延迟相线。将CRLH-TL原型喷墨打印在相纸基材上。此外，使用喷墨印刷的SU-8作为粘合材料，将聚甲基丙烯酸甲酯（PMMA）中的激光蚀刻微流道与CRLH TL集成在一起。所提出的TL提供了出色的相位调节能力，这取决于所使用的流体材料。随着流体的变化，对于不同的流体，建议的TL在900 MHz时具有负，零和正相特性。使用仿真和测量结果可以成功验证TL的性能。

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来源
《Microwave and Wireless Components Letters, IEEE》 |2015年第2期|142-144|共3页
作者
Sungjin Choi; Wenjing Su; Tentzeris Manos M.; Sungjoon Lim;
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作者单位

Sch. of Electr. & Electron. Eng., Chung-Ang Univ., Seoul, South Korea;

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原文格式 PDF
正文语种 eng
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关键词
delay lines; ink jet printing; laser beam etching; metamaterials; microfluidics; polymers; transmission lines; CRLH-TL prototype; PMMA; fluid-reconfigurable advanced-delayed phase line; fluidic materials; frequency 900 MHz; inkjet-printed SU-8 bonding material; inkjet-printed microfluidic composite right-left-handed transmission line; laser-etched microfluidic channel; negative-phase characteristics; phase-tuning capability; photo-paper substrate; poly(methyl methacrylate); positive-phase characteristics; zero-phase characteristics; Delays; Phase measurement; Phase shifters; Printing; Substrates; Wireless communication; CRLH TL; inkjet printing; metamaterial; micro fluidics; phase shifter;

机译：延迟线;喷墨印刷;激光束蚀刻;超材料;微流体;聚合物;传输线;CRLH-TL原型;PMMA;流体可重构的高级延迟相线;流体材料;频率900 MHz;喷墨印刷SU-8键合材料;喷墨印刷的微流体复合材料左;右手传输线;激光刻蚀的微流体通道;负相特性;相调谐能力;相纸基材;聚甲基丙烯酸甲酯;正相特性;零相特性;延迟;相位测量;移相器;印刷;基板;无线通信;CRLH TL;喷墨印刷;超材料;微流体技术;移相器;

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1. Series Feed Networks for Dual-Polarized Frequency Scanning Phased Array Antenna Based on Composite Right/Left-Handed Transmission Line [J] . Dongyin Ren, Jun H. Choi, Tatsuo Itoh IEEE Transactions on Microwave Theory and Techniques . 2017,第12期

机译：基于右/左手复合传输线的双极化频率扫描相控阵天线串联馈电网络
2. Frequency-Scanning Phased-Array Feed Network Based on Composite Right/Left-Handed Transmission Lines [J] . Choi, J.H., Sun, IEEE Transactions on Microwave Theory and Techniques . 2013,第8aPart2期

机译：基于右/左手复合传输线的扫频相控阵馈电网络
3. Compact composite right/left-handed transmission line unit cell for the design of true-time-delay lines [J] . Zhang J., Cheung S.W., Yuk T.I. Microwaves, Antennas & Propagation, IET . 2012,第8期

机译：紧凑型右/左手传输线复合单元，用于设计实时延时线
4. Ultra-wideband time-delay line inspired by composite right/left-handed transmission line unit cell [C] . Zhang J., Cheung S. W., Yuk T. I. 2010 IEEE International Conference on Ultra-Wideband . 2010

机译：左右手复合传输线单元为灵感的超宽带延时线
5. Rectangular Waveguide Filled with Uniaxial Medium and Negative Resistance Enhanced Composite Right/Left-Handed Transmission Line [D] . Sun, Kepei. 2017

机译：矩形波导填充了单轴介质和负电阻增强型复合右/左手传输线
6. A compact very wideband amplifying filter based on RTD loaded composite right/left-handed transmission lines [O] . Mahmoud O. Mahmoud Abu-marasa, Hala Jarallah El-Khozondar -1

机译：基于RTD加载的复合右/左手传输线的紧凑型超宽带放大滤波器
7. Fluidically-Controlled Phase Tunable Line Using Inkjet-Printed Microfluidic Composite Right/Left Handed Transmission Line [O] . Sungjin Choi, Sungjoon Lim 2015

机译：使用喷墨印刷的微流体复合右/左手传输线流体控制的相调线

A Novel Fluid-Reconfigurable Advanced and Delayed Phase Line Using Inkjet-Printed Microfluidic Composite Right/Left-Handed Transmission Line

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