Design and production of ıntegrated compact M-SIW filter-patch antenna with out-of-band suppression for 5G applications

Year 2024, Volume: 30 Issue: 5, 602 - 609, 30.10.2024

Kemal Güvenli Sibel Yenikaya , Mustafa Seçmen Berkay Emin

Abstract

In this article, the Integrated M-SIW (Microstrip-Substrate Integrated Waveguide) band-pass filter-patch antenna (IMBPF-PA) design with 5.90 GHz resonant frequency and the out-of-band suppression is presented, produced and measured for 5G applications using the CST (Computer Simulation Technology) Studio Suite program. The out-ofband frequencies in the 1.50-12.00 GHz wide operating frequency region are suppressed in the BPIGF-PA design. The antenna gain increase in the simulation results of the filter-antenna compared to the patch antenna is 0.32% and the in-band frequency range increase is 22%. In the measurement, the antenna gain increase was 0.78% and the in-band frequency range increase was 14.4%.

Keywords

M-SIW, 5G, Rectangular patch antenna, Bandpass filter, Out-of-Band suppression

5G uygulamaları için bant-dışı baskılamalı bütünleşik M-YTED filtre-yama anten tasarımı ve üretimi

Abstract

Bu makalede, 5G uygulamaları için 5.90 GHz rezonans frekanslı ve bantdışı baskılamalı bütünleşik M-YTED (Mikroşerit-Yalıtkan Taban Entegreli Dalga Kılavuzu) bant geçiren filtre-yama anten (BMBGF-YA) tasarımı CST (Computer Simulation Technology) Studio Suite programı kullanılarak ortaya konulmuş ve üretimi yapılarak ölçülmüştür. 1.50-12.00 GHz geniş çalışma frekansı bölgesindeki bant-dışı frekanslar, BMBGF-YA tasarımında baskılanmıştır. Filtre-antenin yama antene göre simülasyon sonuçlarındaki anten kazancı artışı %0.32 ve bant-içi frekans aralığı artışı %22’dir. Yapılan ölçümde, anten kazancı artışı %0.78 ve bant-içi frekans aralığı artışı %14.4 olarak gerçekleşmiştir.

Keywords

M-YTED, 5G, Dikdörtgen yama anten, Bant geçiren filtre, Bant-Dışı baskılama

References

• [1] ITU-R. “IMT traffic estimates for the years 2020 to 2030”. Geneva, Italy, M. 2370-0, 2015.
• [2] Ericsson. “Ericsson Mobility Visualizer”. https://www.ericsson.com/en/reports-and-papers/ mobility-report/mobility-visualizer?f=1&ft=2 &r=4,3,5, 6,2,7,8,9&t=1,2,3,4,5,6,7&s=1,2,3&u=1&y=2023,2028&c= 3 (13.03.2023).
• [3] Chowdhury MZ, Shahjalal M, Ahmed S, Jang YM. "6G Wireless communication systems: applications, requirements, technologies, challenges, and research directions". IEEE Open Journal of the Communications Society, 1, 957-975, 2020.
• [4] Tong W, Zhu P. 6G: The Next Horizon: From Connected People and Things to Connected Intelligence. 1st ed. Cambridge, England, Cambridge University Press, 2021.
• [5] Bilgi Teknolojileri ve İletişim Kurumu. “Milli Frekans Planı (2023)”. https://www.btk.gov.tr/uploads/pages/millifrekans-plani-23012023.pdf (14.03.2023).
• [6] Bilgi Teknolojileri ve İletişim Kurumu. “GSM & IMT2000/UMTS & IMT Ayrıntılı Band Planı ve Tahsis Bilgileri”. https://www.btk.gov.tr/uploads/ pages ggsmumts-ve-imt-ayrintili-band-plani-ve-tahsis-bilgileri002.pdf (14.03.2023).
• [7] Bilgi Teknolojileri ve İletişim Kurumu. “5G Vadisi Açık Test Sahası’nda 5.89 GHz Frekans Bandında V2X Kanal Ölçümü Projesine Başlandı”. https://www.btk.gov.tr/duyurular/5g-vadisi-acik-testsahasi-nda-5-89-ghz-frekans-bandinda-v2x-kanalolcumu-projesine-baslandi (14.03.2023).
• [8] Hasan MM, Islam MT, Samsuzzaman M, Baharuddin MH, Soliman MS, Alzamil A, Islam MS. “Gain and isolation enhancement of a wideband MIMO antenna using metasurface for 5G sub-6 GHz communication systems”. Scientific Reports 12(9433), 1-17, 2022.
• [9] Balanis CA. Anten Teorisi: Analiz ve Tasarımı, 3. Baskı. Ankara, Türkiye, Nobel, 2013.
• [10] Yadav J, Sharma S, Arora M. “A paper on microstrip patch antenna for 5G applications”. Materials Today: Proceedings, 66(8), 3430-3437, 2022.
• [11] Kumar P. A Dual-Band Microstrip Patch Antenna for Wireless Applications. Editors: Kalam A, Niazi K, Soni A, Siddiqui S, Mundra A. Intelligent Computing Techniques for Smart Energy Systems”. Lecture Notes in Electrical Engineering, 607, Springer, Singapore, 2020.
• [12] Arı N, Özen Ş. Elektromanyetik Uyumluluk. 1. Baskı. Ankara, Türkiye, Palme Yayıncılık, 2008.
• [13] Li WW, Qin ZZ, Chen SJ, Zhang L, Liu, QHA. “Wideband printed slot antenna with harmonic suppression”. Microwave and Optical Technology Letters, 60, 1946-1952, 2018.
• [14] Hankui E, Nakase K, Sakai J. “Noise suppression Structure” https://patents.google.com/patent/US20130 192865, (16.03.2023).
• [15] Awan WA, Hussain N, Kim S, Kim N. “A frequencyreconfigurable filtenna for GSM, 4G-LTE, ISM, and 5G-Sub 6 GHz Band 22(15), 5558, 2022. Applications”. Sensors (Basel),
• [16] Velidi V, Kumar M, Subramanyam A, Sivareddy, D, Kumar V, Ramana, D, Sitaraman, P, De A. "Uniplanar microstrip patch antenna with reduced harmonic radiation using multi-stub filter unit" 2017 IEEE International Conference on Antenna Innovations & Modern Technologies for Ground, Aircraft and Satellite Applications (iAIM), Bangalore, India, 24-26 November 2017.
• [17] Narita Y, Nozawa K, Tanba N, Hara S, Hirayama HH. “Shaped slot antenna with harmonic tuning function and ıntegrated power amplifier”. Energies, 16(5), 1-14, 2023.
• [18] Sanap K, Labade, RP. Fractal Patch Antenna with Exalted Bandwidth and Harmonic Suppression for WiMAX Applications. Editors: Kumar A, Mozar S. ICCCE 2019 Lecture Notes in Electrical Engineering, 570, Singapore, Springer, 2020.
• [19] Wang Q, Chu H, Dang Y, Qiu J, Qi J. "A compact 5.8 GHz rectenna with high conversion efficiency enabled by the harmonic suppression for wireless power transfer". 2022 International Conference on Microwave and Millimeter Wave Technology (ICMMT), Harbin, China, 12-15 August 2022.
• [20] Manikandan M, Karthigai Lakshmi S. "A compact pentaband low-sar antenna loaded with split-ring resonator for mobile applications". International Journal of Antennas and Propagation, https://doi.org/10.1155/2022/3298866 2022.
• [21] Hacımehmet M. “X bant mikroşerit halka yama anten tasarımı ve besleme türlerine göre performanslarının değerlendirilmesi”. Pamukkale Üniversitesi, Mühendislik Bilimleri Dergisi, 28(2), 215-221, 2022.
• [22] Zang Y, Zhai H, Xi L, Li L. "A Compact microstrip antenna with enhanced bandwidth and ultra-wideband harmonic suppression". IEEE Transactions on Antennas and Propagation, 67(3), 1969-1974, 2019.
• [23] Kumar Ghosh C. “Harmonics suppression of microstrip antenna using open ended stubs”. Microwave and Optical Technology Letters, 58(6), 1340–1345, 2016.
• [24] Hakanoglu BG, Koc B, Sen O, Yalduz H, Turkmen M. "Stub loaded patch antenna and a novel method for miniaturization at Sub 6 GHz 5G and Wi-Fi frequencies". Advances in Electrical and Computer Engineering, 21(2), 23-32, 2021.
• [25] Ghosh CK. “Harmonics suppression of microstrip antenna using open ended stubs”. Microwave and Optical Technology Letters, 58(6), 1340-1345, 2016.
• [26] Fan J, Jiangchuan L, Feng Q, Jinliang C, Mingxu K, Renato C. “Ultrawideband harmonic suppression in microstrip patch antenna using novel defected ground structures”. International Journal of Antennas and Propagation, 2020. https://doi.org/10.1155/2020/9602841
• [27] Zhang H, F. Huang F, Han Y. "A new approach to design microstrip patch antenna with wideband harmonic suppression". 2021 International Symposium on Antennas and Propagation (ISAP), Taipei, Taiwan, 19-22 October 2021.
• [28] Souza FA, Campos AL, Gomes Neto A, Serres AJ, Albuquerque CC. “Higher order mode attenuation in microstrip patch antenna with DGS H filter specification from 5 to 10 GHz range”. Journal Microwaves Optoelectron Electromagn Appl, 19(2), 214–227, 2020.
• [29] Elftouh H, Touhami Amar N, Mchbal A, Zakriti A, Elbakkali M. "Suppression of harmonic of microstrip patch antenna using defected ground and defected microstrip structure". Procedia Manufacturing, 32(1), 653-660, 2019.
• [30] Jeong T, Lee JS, Lee DG, Kim JH, Park J, Hwang DH, Hwang KC. “Quasi-Isotropic Hybrid Dielectric Resonator Antenna -Bow-Tie Patch with Harmonic Suppression”. Applied Sciences, 12(8), 1-13, 2022.
• [31] Zakaria Z, Sam WY, Abd Aziz MZ, Ismail M. “The Integration of Rectangular SIW Filter and Microstrip Patch Antenna based on Cascaded Approach”. Procedia Engineering, 53, 347–353, 2013.
• [32] Zhang YM, Zhang S, Ye QC, Pedersen GF. "Cosynthesis of a filtering antenna with harmonic suppression". ıeee antennas and wireless 19(10), 1729-1733, 2020. propagation letters,
• [33] Jayanth J, Mahadevaswamy M, Shreehansa, R. Gururaj K.S, Ravikiran H.K “Design and analysis of sixth-generation (6G) microstrip patch antenna”. SN Computer Science, (4), 1-7, 2023.
• [34] Güvenli K. Mikrodalga Frekanslarında Kullanılacak Yüzey Tümleşik Dalga Kılavuzu Filtrelerinin Tasarımı, Gerçeklemesi ve Optimizasyonu, Doktora Tezi, Bursa Uludağ Üniversitesi, Bursa, Türkiye, 2022.
• [35] Guvenli K, Yenikaya S, Seçmen M. “Analysis, design, and actual fabrication of a hybrid microstrip-SIW bandpass filter based on cascaded hardware integration at x-band”. Elektronika Ir Elektrotechnika, 27(1), 23-28, 2021.
• [36] Kadagan, OM, Turkmen, C, Secmen, M. “Base station antenna with enhanced cross polarization discrimination performance by using horizontal meandered dipole and vertical parasitic elements”. Advanced Electromagnetics, 8(2), 28-38, 2019.
• [37] Türkmen, C, Seçmen, M. "Omnidirectional and circularly polarized waveguide circular slot antenna array for satellite communication". 2016 National Conference on Electrical, Electronics and Biomedical Engineering (ELECO), Bursa, Turkey, 1-3 December, 2016.
• [38] Zhang JD, Zhu L, Wu QS, Liu NW, Wu W. "A compact microstrip-fed patch antenna with enhanced bandwidth and harmonic suppression". IEEE Transactions on Antennas and Propagation, 64(12), 5030-5037, 2016.
• [39] Mandal MK, Mondal P, Sanyal S, Chakrabarty A. “An improved design of harmonic suppression for microstrip patch antennas”. Microwave and Optical Technology Letters, 49(1), 103–105, 2007.
• [40] Xiao S, Wang BZ, Jiang L, Gao S. “Compact coplanar design for harmonic suppression in microstrip antenna”. Microwave and Optical 51(5), 1326-1329, 2009. Technology Letters,
• [41] Ma W. "A microstrip patch antenna design with harmonic rejection using defected ground structure". 2019 IEEE MTT-S International Wireless Symposium (IWS), Guangzhou, China, 19-22 May 2019.
• [42] Ramanujam P, Venkatesan PG, Arumugam RC. “Electromagnetic interference suppression in stacked patch antenna using complementary split ring resonator”, Microwave and Optical Technology Letters, 62(1), 193-199, 2020.
• [43] Oukil S, Kimouche H, Azrar, A. “An electrically small antenna with integrated DGS filter”. Microwave and Optical Technology Letters, 55(5), 962-966, 2013.