Investigation and Implementation of Integrated SIW System for Hexagonal Diamond of Lamda Shape Slots Fractal Array Antenna for X and KU-Band Applications

IF 0.4 Q4 TELECOMMUNICATIONS

International Journal of Interdisciplinary Telecommunications and Networking Pub Date : 2021-12-22 DOI:10.21608/ijt.2021.266277

A. Miligy, Asem Hussein, Hassn Nadir, M. Rizk

{"title":"Investigation and Implementation of Integrated SIW System for Hexagonal Diamond of Lamda Shape Slots Fractal Array Antenna for X and KU-Band Applications","authors":"A. Miligy, Asem Hussein, Hassn Nadir, M. Rizk","doi":"10.21608/ijt.2021.266277","DOIUrl":null,"url":null,"abstract":": This paper introduces an investigation and implementation of integrated SIW system using Rogger RT/duriod 5880 substrate of ε r = 2.2 , tan δ = 0.0009 and thickness 0.79 mmsimulated using HFSS. The proposed system is an integration of three main microwave devices: SIW divider/combiner taking a shape of wraparound rhombic with two isolated output ports, SIW phase shifter and two arrays of SIW hexagonal diamond of lamda shape slots fractal antenna. The divider operates efficiently in five wide bands [(9.7-11.36)/ (11.84-12.35)] GHz and [(13.5-14.05)/ (14.55-15.46)/ (15.62-16.7)] GHz for X and KU-Band applications respectively. The divider feeds two arrays of SIW fractal array antenna of hexagonal shape; one of them has a phase shifted input using SIW phase shifter. The proposed system is based on SIW technology to meet the requirement of multiple frequency bands for x-band missile guidance, KU-band satellite altimetry and wireless communication system applications. The measurement results have been obtained in laboratory using (R&S ZVB 20 vector network analyzer 10 MHz: 20 GHz) with agreement between about 11 resonance operating frequencies of the radiating antenna for both simulated and measured results. For one watt incident power the obtained antenna parameters were found to be 𝑆 11 = −43 𝑑𝐵 , U=0.72 W/Str., accepted power=0.99 W, radiated power=0.98 W, absolute directivity, D =9.7, absolute gain, G =7.1 and radiation efficiency = 98% at f = 13.7 GHz as the most agreement frequency point between simulation and implementation results.","PeriodicalId":42285,"journal":{"name":"International Journal of Interdisciplinary Telecommunications and Networking","volume":"9 1","pages":""},"PeriodicalIF":0.4000,"publicationDate":"2021-12-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"International Journal of Interdisciplinary Telecommunications and Networking","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21608/ijt.2021.266277","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"TELECOMMUNICATIONS","Score":null,"Total":0}

引用次数: 3

Abstract

: This paper introduces an investigation and implementation of integrated SIW system using Rogger RT/duriod 5880 substrate of ε r = 2.2 , tan δ = 0.0009 and thickness 0.79 mmsimulated using HFSS. The proposed system is an integration of three main microwave devices: SIW divider/combiner taking a shape of wraparound rhombic with two isolated output ports, SIW phase shifter and two arrays of SIW hexagonal diamond of lamda shape slots fractal antenna. The divider operates efficiently in five wide bands [(9.7-11.36)/ (11.84-12.35)] GHz and [(13.5-14.05)/ (14.55-15.46)/ (15.62-16.7)] GHz for X and KU-Band applications respectively. The divider feeds two arrays of SIW fractal array antenna of hexagonal shape; one of them has a phase shifted input using SIW phase shifter. The proposed system is based on SIW technology to meet the requirement of multiple frequency bands for x-band missile guidance, KU-band satellite altimetry and wireless communication system applications. The measurement results have been obtained in laboratory using (R&S ZVB 20 vector network analyzer 10 MHz: 20 GHz) with agreement between about 11 resonance operating frequencies of the radiating antenna for both simulated and measured results. For one watt incident power the obtained antenna parameters were found to be 𝑆 11 = −43 𝑑𝐵 , U=0.72 W/Str., accepted power=0.99 W, radiated power=0.98 W, absolute directivity, D =9.7, absolute gain, G =7.1 and radiation efficiency = 98% at f = 13.7 GHz as the most agreement frequency point between simulation and implementation results.

查看原文本刊更多论文

X、ku波段六角形菱形槽分形阵列天线集成SIW系统的研究与实现

本文介绍了利用ε r = 2.2, tan δ = 0.0009，厚度为0.79 mm的Rogger RT/d / 5880衬底，采用HFSS模拟技术，研究并实现了SIW集成系统。该系统集成了三种主要的微波器件:具有两个隔离输出端口的环绕菱形SIW分频器/合成器、SIW移相器和两组SIW六边形菱形λ形槽分形天线阵列。该分频器分别在[(9.7-11.36)/ (11.84-12.35)]GHz和[(13.5-14.05)/ (14.55-15.46)/ (15.62-16.7)]GHz频段高效工作，适用于X和ku波段应用。分频器馈送两组六边形SIW分形阵列天线;其中一个有一个相移输入使用SIW移相器。为了满足x波段导弹制导、ku波段卫星测高和无线通信系统应用的多频段需求，提出了基于SIW技术的系统。在实验室使用R&S ZVB 20矢量网络分析仪(10mhz: 20ghz)进行了测量，模拟结果与测量结果一致，辐射天线的谐振工作频率约为11个。当入射功率为1 W时，得到的天线参数为𝑆11 =−43𝑑， U=0.72 W/Str。，接收功率=0.99 W，辐射功率=0.98 W，在f = 13.7 GHz时，绝对指向性D =9.7，绝对增益G =7.1，辐射效率= 98%，是仿真结果与实现结果最吻合的频率点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

International Journal of Interdisciplinary Telecommunications and Networking TELECOMMUNICATIONS-

自引率

0.00%

发文量

期刊介绍： The International Journal of Interdisciplinary Telecommunications and Networking (IJITN) examines timely and important telecommunications and networking issues, problems, and solutions from a multidimensional, interdisciplinary perspective for researchers and practitioners. IJITN emphasizes the cross-disciplinary viewpoints of electrical engineering, computer science, information technology, operations research, business administration, economics, sociology, and law. The journal publishes theoretical and empirical research findings, case studies, and surveys, as well as the opinions of leaders and experts in the field. The journal''s coverage of telecommunications and networking is broad, ranging from cutting edge research to practical implementations. Published articles must be from an interdisciplinary, rather than a narrow, discipline-specific viewpoint. The context may be industry-wide, organizational, individual user, or societal. Topics Covered: -Emerging telecommunications and networking technologies -Global telecommunications industry business modeling and analysis -Network management and security -New telecommunications applications, products, and services -Social and societal aspects of telecommunications and networking -Standards and standardization issues for telecommunications and networking -Strategic telecommunications management -Telecommunications and networking cultural issues and education -Telecommunications and networking hardware and software design -Telecommunications investments and new ventures -Telecommunications network modeling and design -Telecommunications regulation and policy issues -Telecommunications systems economics