KENDALI SAKELAR EMPAT ANTENNA BERSUSUN UNTUK PENJEJAKAN INTERFERENCE FREKUENSI TTC SATELIT LAPAN (SWITCH CONTROL SYSTEM FOR FOUR ARRAY ANTENNA FOR TRACKING OF LAPAN’S SATELLITE TTC INTERFERENCE FREQUENCY)
Abstract
Telemetry Tracking and Command (TTC) of LAPAN’s satellite use UHF frequency. This frequency is susceptible to interference by an amateur radio transmitter. One method to look for an interference transmitter is Doppler Effect. To get the optimal value of the Doppler shift frequency, it is necessary to have stabilized antenna switch as controller of antenna array. The RF switches controlled by an Arduino board produced 500 Hz Doppler frequency. Other hardwares are Demodulator, clock Arduino Board, and Universal Serial Bus (USB) soundcard as the input for the searching software. The results can be shown using the open access sound Doppler. The system has been able to detect UHF transmitters and repeaters received by the device. For upgrade, the data processing system can be done using Matlab software to easier process and analysis.
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Abstrak
Telemetry Tracking And Command (TTC) satelit LAPAN menggunakan frekuensi UHF. Frekuensi UHF rentan terhadap interference. Salah satu metode mencari pemancar interference menggunakan metode efek Doppler. Untuk mendapat nilai pergeseran frekuensi sesuai efek Doppler yang dibutuhkan, diperlukan sakelar antena yang stabil, yang berfungsi sebagai pengontrol antena array. Rangkaian sakelar RF di kontrol dengan Arduino board menghasilkan Doppler frekuensi 500 Hz. Demodulator, clock Arduino Board dan Soundcard sebagai input software pencari. Hasil outputnya dapat dilihat dengan menggunakan software open akses sounDoppler. Sistem ini mampu mendeteksi pemancar maupun repeater yang diterima oleh perangkat. Upgrade sistem dari penelitian ini adalah proses pengolahan data dapat dilakukan secara mandiri menggunakan software Matlab sehingga lebih mudah untuk diolah dan dianalisis.
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Alaydrus M., 2011. Antena Prinsip dan Aplikasi. Grahailmu, Yogykakarta, ISBN 978-979-756-731-6.
Alinco, 2016. DJ CRX Brochure, ALINCO, INC. Electronics Division, www.alinco.com: diunduh 1 Februari 2017.
Baars, L., 2017. Doppler peiler, Pseudo-Doppler Radio Direction Finder.http://www. pi4wag.nl/projecten/Doppler-peiler-radio-direction-finder diunduh:2 Januari 2017.
Djuandi, F., 2011. Pengenalan Arduino. wwww. tokobuku.com http:// tobuku. com/ docs/ Arduino-Pengenalan.pdf diunduh: 2 Januari 2017.
Hidayat, A., et al., 2017. Metode Doppler Direction Menggunakan 6 Antenna Array Terswitch untuk Aplikasi Real Time Remote Monitoring Location Finder. Tesis Sekolah Pasca Sarjana Teknik Elektro Universitas Hasanuddin Makassar. Makassar. 85 hlm.
Hidayat, A., et al., 2014. Analisis Carrier to Interference Transmisi Gelombang Mikrowave Link X Band dengan Downlink Satelit Penginderaan Jauh. Paper presented at the Seminar Nasional Inderaja:LAPAN, Bogor, Indonesia.
Hidayat, A., et al., 2014. Analisis Carrier to Interference Transmisi Gelombang Mikrowave Link X Band dengan Downlink Satelit Penginderaan Jauh, Seminar Nasional Penginderaan Jauh (Sinas Inderaja 2014) Bogor, Pustekdata LAPAN.
Hidayat, A., et al., 2014. Desain dan Implementasi Sistem Pakar Analisis Performansi Antena Seaspace Axyom 5.1 Berbasis Web. Jurnal Teknologi Dirgantara, 12 (20), 154-162.
Hidayat, A., et al., 2017. LEO Antenna Ground Station Analysis Using Fast Fourier Transform, Paper presentend atThe 7 th International Anual engineering Seminar (IEEE: UGM), 1-2 Agustus, Yogyakarta, Indonesia.
Hrabal J., et al., 2016. The Radio Direction Finding with Advantage of the Software Defined Radio. Computer Information Systems and Industrial Management, Volume 9842, 2016 , 720.
Jakpar, M. J., et al., 2016. Exploitation of Radio Direction Finder in the design of a UHF Transmitter Locator System, Indian Journal of Science and Technology; Vol 9; 25.
Judianto, C.T., 2010. Perancangan Operasi Satelit Lapan-Tubsat untuk Perolehan Data Seluruh Wilayah Indonesia. Satelit Mikro Untuk Mitigasi Bencana Dan Ketahanan Pangan, IPB Pres, Juni 2010.
Judianto, C.T., et al., 2014. Analisis Potensi Gangguan Interference Microwave Link Terhadap Operasi Satelit LAPAN-A3 di Stasiun Bumi Rumpin. Jurnal Teknologi Dirgantara Vol. 12 No. 1 Juni 2014:59-72.
Kadir, A., 2013. Panduan Praktis Mempelajari Aplikasi Mikrokontroler dan Pemrogramannya Menggunakan Arduino. Andi Publisher. Yogyakarta, ISBN 978-979-29-4017-6.
Kossor, M., 1999. A Doppler Radio-Direction Finder, American Radio Relay League (ARRL) QST.
Najati, N., et al., 2016. Monopole-Like Meander Microstrip Antenna Onboard Microsatellite for Telecommand Applications. The 22nd Asia-Pacific Conference on Communications (APCC2016), ISBN :978-1-5090-06676-2.
Palantei, E., 2017. Low-cost Switched Array-Wide Band Antenna for Search and Rescue Disaster Management. IEEE, 3th, International Conference on Sience and Technology- Computer (ICST), ISBN: 978-1-5386-1874-5, IEEE Catalog Number: CFP17WOF-ART.
Palantei, E., 2012. Switched Parasitic Smart Antenna : Design and Implementation for Wireless Communication Systems, Thesis (PhD Doctorate), Griffith University, Brisbane. 200 hlm.
Stieber, M.C.E., 2012. Radio Direction Finding Network Receiver Design for Low-cost Public Service Applications (Master dissertation, California Polytechnic State University, San Diego. 82 hlm.
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