Desain Antena Mikrostrip Bintang 30 Untuk Access Point Perangkat IoT Di ATP Malang
DOI:
https://doi.org/10.32492/nucleus.v1i2.48Keywords:
Internet, Access Point, Internet of Things, Antenna Microstrip, Agro Techno ParkAbstract
The development of the internet is very fast with communicating freely. One of the technologies that take advantage of the internet is the Internet of Things which is the development of network communications from connected objects using the internet to exchange data into information. IoT requires wireless communication. The access point is part of wireless communication Devices that can be used as support for access points are antennas. One type of antenna is the microstrip antenna which is an antenna that has small dimensions and is flexible. Agro Techno Park (ATP) is the development of agricultural technology. Jatikerto Malang garden ATP has utilized IoT technology to help cultivate premium melon commodities, but the network infrastructure still needs to be improved. The 30-star microstrip antenna was simulated using CST Studio Suite 2019, considering several VSWR parameters spanning < 2, Gain > 3, Return Loss < -10, Efficiency > 80, and having linear polarization. Antenna implementation testing is carried out by considering the speed, range, and transmission power parameters of the antenna that has been fabricated. The test results show that the 30-star microstrip antenna has a VSWR value of 1.65, Return Loss -12 dB, Gain 4, Group Delay -2.5, Axial Ratio 40, Directivity 4, 90% efficiency, and linear polarization. The result of implementing the antenna on the transmission speed increased by 24.14% and has a range reaching a maximum distance of 72.41 meters exceeding the area of the ATP Jatikerto Malang melon garden with low power.
References
Nurajizah, S., Ambarwati, N. A., & Muryani, S. (2020). Sistem pendukung keputusan pemilihan internet service provider terbaik dengan metode analytical hierarchy process. JURTEKSI (Jurnal Teknologi dan Sistem Informasi), 6(3), 231-238.
Sasmita, R. S. (2020). Pemanfaatan internet sebagai sumber belajar. Jurnal pendidikan dan konseling, 2(1), 99-103.
Artono, B., & Putra, R. G. (2018). Penerapan internet of things (IoT) untuk kontrol lampu menggunakan arduino berbasis web. Jurnal Teknologi Informasi Dan Terapan, 5(1), 9-16.
Lidemar, H., Sirmayanti, S., & Sahbuddin, A. K. (2020). DESAIN DAN IMPLEMENTASI INTERFACE WIRELESS BERBASIS INTERNET OF THING (IOT).
Zefanya, C., & Panca, B. S. (2019). Deteksi Blind Spot pada Sinyal Access Point menggunakan Metode Site Survey. Jurnal STRATEGI-Jurnal Maranatha, 1(1), 261-270
Permana, A., & Fath, N. (2021). RANCANG BANGUN ANTENA MICROSTRIP SEBAGAI PENGUAT SINYAL WIFI DAN JARINGAN 4G LTE PADA FREKUENSI 1800 MHZ. MAESTRO, 4(2), 240-248.
Aprilita, N., Ludiyati, H., & Saefudin, D. (2020, September). Metode Peningkatan Kinerja Broadband Antena Mimo 4 4 Menggunakan Dielektrik Termodifikasi pada Frekuensi 1800 MHz. In Prosiding Industrial Research Workshop and National Seminar (Vol. 11, No. 1, pp. 643-648).
Sugiarto, S. K., Mujahidin, I., & Setiawan, A. B. (2019). 2, 5 GHz Antena Mikrostrip Polarisasi Circular Model Patch Yin Yang untuk Wireless Sensor. Jeecae (Journal Electr. Electron. Control. Automot. Eng., Vol. 4, No. 2, Pp. 297–300.
Efit, E. (2021). Perencanaan Bangunan Agro Techno Park Di Wonosobo Dengan Konsep Arsitektur Modern. Journal of Economic, Business and Engineering (JEBE), 2(2), 428-440.
