Tunable IDC Phase Shifter Based on Semiautomated Deposition of Graphene

IF 1.2 4区计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Iet Microwaves Antennas & Propagation Pub Date : 2025-10-05 DOI:10.1049/mia2.70058

Warda Saeed, Muhammad Yasir

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Abstract

In this work, a graphene-based tunable phase shifter is proposed which deploys a semiautomated procedure for graphene deposition leading to a high-quality graphene transfer. The deposited graphene's complex impedance values are extracted from measured transmission coefficient values in the X band. Analysis of different widths of graphene is performed for better understanding of the microwave properties of graphene. It is evident that by decreasing the width of graphene, the impedance of graphene decreases, making it more conductive for lower widths. In order to observe the microwave tunable behaviour of graphene, varying DC biasing voltages are applied and the variation of transmission coefficients are measured. From the extracted values of complex impedance of graphene, it is observed that graphene possesses significant reactance variation, something that is not considered in literature. The reactance variation can be exploited in the variation of the phase of microwave signals. The reactance variation of graphene is further enhanced for increased phase variation by deploying it with an Interdigitated Capacitor (IDC). The IDC graphene phase shifter provides a phase variation of 60° with negligible amplitude variation at 9 GHz.

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基于石墨烯半自动化沉积的可调谐IDC移相器

在这项工作中，提出了一种基于石墨烯的可调谐移相器，该移相器部署了一种半自动的石墨烯沉积程序，可实现高质量的石墨烯转移。沉积的石墨烯的复阻抗值是从X波段测量的透射系数值中提取的。为了更好地理解石墨烯的微波特性，对不同宽度的石墨烯进行了分析。很明显，通过减小石墨烯的宽度，石墨烯的阻抗减小，使其在较低宽度下更具导电性。为了观察石墨烯的微波可调谐行为，施加不同的直流偏置电压并测量透射系数的变化。从石墨烯的复阻抗提取值可以看出，石墨烯具有显著的电抗变化，这是文献中没有考虑到的。电抗的变化可以用于微波信号的相位变化。通过将石墨烯与交叉电容（IDC）一起部署，石墨烯的电抗变化进一步增强，以增加相位变化。IDC石墨烯移相器在9 GHz时提供60°的相位变化，幅度变化可以忽略不计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Iet Microwaves Antennas & Propagation 工程技术-电信学

CiteScore

4.30

自引率

5.90%

发文量

109

审稿时长

7 months

期刊介绍： Topics include, but are not limited to: Microwave circuits including RF, microwave and millimetre-wave amplifiers, oscillators, switches, mixers and other components implemented in monolithic, hybrid, multi-chip module and other technologies. Papers on passive components may describe transmission-line and waveguide components, including filters, multiplexers, resonators, ferrite and garnet devices. For applications, papers can describe microwave sub-systems for use in communications, radar, aerospace, instrumentation, industrial and medical applications. Microwave linear and non-linear measurement techniques. Antenna topics including designed and prototyped antennas for operation at all frequencies; multiband antennas, antenna measurement techniques and systems, antenna analysis and design, aperture antenna arrays, adaptive antennas, printed and wire antennas, microstrip, reconfigurable, conformal and integrated antennas. Computational electromagnetics and synthesis of antenna structures including phased arrays and antenna design algorithms. Radiowave propagation at all frequencies and environments. Current Special Issue. Call for papers: Metrology for 5G Technologies - https://digital-library.theiet.org/files/IET_MAP_CFP_M5GT_SI2.pdf