ABSTRAK

Penelitian ini menggunakan antena microstrip leaky wave dengan menambahkan dua slot, yaitu E-slot dan U-slot ganda atau multislot pada frekuensi 6 GHz (5,925 GHz-6,425 GHz) untuk aplikasi WLAN. E-slot dan U-slot ganda digunakan untuk meningkatkan performa dari gain dan bandwidth. Hasil dari simulasi memberikan informasi antena mikrostrip leaky wave dengan penambahan E-slot dan U-slot atau multislot diperoleh hasil s-parameter memiliki nilai -23,196 dB, VSWR sebesar 1,164, bandwidth sebesar 615 MHz, dan gain sebesar 6,16 dBi. Hasil simulasi dari antena mikrostrip leaky wave dengan penambahan E-slot dan U-slot ganda atau multislot menunjukkan dapat meningkatkan bandwidth sebesar 130,038 % dan meningkatkan gain sebesar 34,15 % dibandingkan dengan antena leaky wave tanpa penambahan E-slot dan U-slot ganda.

Kata kunci: Mikrostrip Leaky Wave, Multislot, Bandwidth, Gain

 

ABSTRACT

In this study used microstrip leaky-wave antenna by adding, E-slot and double U-slot or multi-slot at frequency of 6 GHz (5,925 GHz – 6,425) for WLAN applications. E-slot and double U-slot are used to increase performance of the gain and bandwidth. The simulation result from provide microstrip leaky-wave antenna with the addition E-slot and double U-slot obatained s-parameter of - 23,196 dB, VSWR of 1,164, bandwidth of 615 MHz, and gain of 6,16 dBi. Simulation results from microstrip leaky-wave antenna with the addition E-slot and double U-slot show that can increase bandwidth by 130,038 % and increase gain by 34,15 % compared to microstrip leaky-wave without the addition E-slot and double U-slot.

Keywords: Microstrip Leaky Wave, Multislot, Bandwidth, Gain

Ahn, W. (2020). Novel Multi-AP Coordinated Transmission Scheme for 7th Generation WLAN 802.11 be. Entropy, 22 (12), 1426.

Alliance, W. F. (2021). Wi-fi alliance publishes 2021 Wi-fi predictions. Retrieved from https://www.wi-fi.org/news-events/newsroom/wi-fi-alliance-wi-fi-predictions-for-2021

Au, E. (2020). Specification Framework for TGbe. Retrieved from mentor.ieee.org:https://mentor.ieee.org/802.11/dcn/19/11-19-1262-14-00bespecification-framework-for-tgbe.docx

Aziz, H., Moubadir, M., Farkhsi, A., & Amar Touhami, N. (2020). Sidelobe Suppression in Array-Pattern Synthesis Using Periodic Leaky-Wave Antenna and Binomial Array. Modelling and Simulation in Engineering, 2020, 1-6.

Aziz, H., Moubadir, M., Touhami, N., & Farkhsi, A. (2018). Planar Leaky-Wave Antena at 6 GHz. Procedia Manufacturing, 527-532.

Balanis, C. (2008). Modern Antenna Handbook. Canada: John Wiley & Sons, Inc.

Cisco, U. (2021, March). Cisco Annual Internet Report (2018–2023) White Paper. Retrivied from https://www. cisco. com/c/en/us/solutions/collateral/executive-perspectives/annual-internet-report/whitepaper-c11-741490. html

Desai, A., Patel, R., Upadhyaya, T., Kaushal, H., & Dhasarathan, V. (2020). Multiband Inverted E And U Shaped Compact Antenna for Digital Broadcasting, Wireless, And Sub 6 Ghz 5G Applications. AEU-International Journal of Electronics and Communications, 123, 153296.

FCC. (2020). Notice of Proposed Rulemaking; In the Matter of Unlicensed Use of the 6 GHz band (ET Docket No. 18-295); Expanding Flexible Use in Mid-Band Spectrum Between 3.7 and 24 GHz . Washington, D.C: Federal Communications Commission.

Garcia-Rodriguez, A., Lopez-Perez, D., Galati-Giordano, L., & Galati- Giordano, L. (2021). IEEE 802.11be: Wi-Fi 7 Strikes Back. IEEE Communications Magazine, 102-108.

Jones, K., Levy, O. N., & Syihabuddin, B. (2017). Perancangan Antena MIMO 2×2 Array Rectangular Patch dengan U-Slot untuk Aplikasi 5G. Jurnal Nasional Teknik Elektro Dan Teknologi Informasi (JNTETI), 6(1), 93 - 98.

Krishna, T. V., Madhav, B. T., Monica, G., Janakiram, V., & Md Abid Basha, S. (2016). Microstrip Line Fed Leaky Wave Antenna with Shorting Vias for Wideband System. International Journal of Electrical and Computer Engineering (IJECE), 6(4), 1725.

Lopez-Perez, D., Garcia-Rodriguez, A., Garcia-Rodriguez, A., Kasslin, M., & Doppler, K. (2019). IEEE 802.11 Be Extremely High Throughput: The Next Generation of Wi-Fi Technology Beyond 802.11 ax. IEEE Communications Magazine, 57(9), 113-119.

Naik, G., Park, J. M., Ashdown, J., & Lehr, W. (2020). Next Generation Wi-Fi and 5G NR-U in the 6 GHz Bands: Opportunities and Challenges. IEEE Access, 8, 153027-153056.

Panusa, S., & Kumar, M. (2014). Modified U-Slot Microstrip Patch Antenna with Gain Enhancement. 2014 International Conference On Computational Intelligence And Communication Networks., (pp. 83-86).

Surendrakumar, P., & Chandra Mohan, B. (2018). A Triple-Frequency, Vertex-Fed Antenna for WLAN/WiMAX Applications [Antenna Applications Corner]. IEEE Antennas and Propagation Magazine, 60(3), 101-106.

Surjati, I. (2010). Antena Mikrostrip: Konsep Dan Aplikasi. DKI Jakarta: Universitas Trisakti.

Yang, M., & Li, B. (2020). Survey and Perspective on Extremely High Throughput (EHT) WLAN — IEEE 802.11be. Mobile Networks and Applications, 25(5), 1765-1780.

Zhang, Q., Zhang, Q. L., & Chen, Y. (2017). Spoof Surface Plasmon Polariton Leaky-Wave Antennas Using Periodically Loaded Patches Above PEC and AMC Ground Planes. IEEE Antennas and Wireless Propagation Letters, 16, 3014-3017.