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Abstract
ABSTRAK
Paper ini membahas tentang perancang antena mikrostrip bentuk segi empat untuk aplikasi antena SAR yang berkerja difrekuensi 10 GHz dengan material yang digunakan adalah substrat Duroid 4350b. dari hasil penelitian didaptkan output antena SAR dengan nilai return loss sebesar -42,13 dB, VSWR sebesar 1,0158, impedansi antena 48,67?, bandwidth 0,377 GHz, HPBW sebesar 150 dan Gain 10,5 dBi. Dari parameter output antena yang dihasilkan, telah memenuhi standar antena yang cukup baik. Dalam perancangan antena SAR bentuk segi empat ini masih perlu dikembangkan lagi terutama nilai gain dan HPBW antena, karena antena SAR harus memiliki gain yang besar dan nilai HPBW yang kecil..
Kata kunci : Microstrip Antenna, Radar, SAR
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References
- REFERENSI
- R. Fitrianto, Y. S. Rohmah, and E. F. A. M. Saputra, “Rancang Bangun Band Pass Filter Frekuensi 1 . 27 GHz untuk Teknologi Synthetic Aperture Radar,” vol. 5, no. 2, pp. 149–168, 2017.
- A. D. Prasetyo and D. A. Nurmantris, “Rancang Bangun Antena Microstrip Array dengan Teknik Pencatu Proximity Coupler untuk Sersor Circular Polarized Synthetic Aperture Radar (CP-SAR)," Prodi D3 Teknik Telekomunikasi , Fakultas Ilmu Terapan , Universitas Telkom Fakultas Elektro dan Komunikasi , Universitas Telkom Fakultas Ilmu Terapan , Universitas Telkom Abstrak,” vol. 1, no. 1, pp. 431–447, 2014.
- A. Mukhtar, A. Putri, S. Jayani, J. Cagak, S. Km, and B. Indonesia, “Implementasi Chirp Signal Generator pada FPGA untuk Misi Pencitraan LAPAN Surveillance Aircraft-Synthetic Radar (LSA-SAR),” pp. 1–14, 2015.
- W. Junita Monika Pasaribu, Jalu Tejo Nugroho, "Pemanfaatan Penginderaan Jauh untuk Pemantauan Penurunan Muka Tanah (Land Subsidence),", vol. 7, no. 25–42. 2014.
- M. A. Arif, H. Wijanto, and A. D. Prasetyo, “Perancangan Duplexer Jenis Ferrite Circulator untuk Aplikasi Synthetic Aperture Radar (SAR),” vol. 3, no. 2, pp. 1861–1867, 2016.
- B. Syihabuddin, D. A. Nurmantris, and A. D. Prasetyo, “Perancangan Bandpass Filter Pita Sempit pada Frekuensi L-Band untuk Aplikasi Synthetic Aperture Radar ( SAR ),” vol. 9, no. 2, pp. 198–203, 2017.
- I. Surjati, Antena mikrostrip konsep dan aplikasinya. jakarta: universitas trisakti, 2010.
- V. Keerthi, H. Khan, and P. Srinivasulu, “Design of C-Band Microstrip Patch Antenna for Radar Applications Using IE3D,” IOSR-JECE, vol. 5, no. 3, pp. 49–58, 2013.
- N. Rahman and M. T. Islam, “A Tuning Fork-Shaped Microstrip Patch Antenna for X-Band Satellite and Radar Applications,” IEEE, pp. 17–18, 2017.
- T. M. Neebha and M. Nesasudha, “Artificial Neural Network Based Design of a Microstrip Patch Antenna for RADAR Applications,” IEEE, no. August, pp. 93–98, 2012.
- D. Wijoyono, S. Ramadhanty, D. Rakmatullah, and F. Y. Zulkifli, “Uniform Microstrip Array Antenna with Low Sidelobe Level for Coastal Surveillance Radar Application at 9 . 37 – 9 . 43 GHz,” IEEE, pp. 22–25, 2017.
- S. Gupta, S. S. Dhillon, P. Khera, and A. Marwaha, “Dual band u-slotted microstrip patch antenna for c band and x band radar applications,” in IEEE, 2013, pp. 41–45.
References
REFERENSI
R. Fitrianto, Y. S. Rohmah, and E. F. A. M. Saputra, “Rancang Bangun Band Pass Filter Frekuensi 1 . 27 GHz untuk Teknologi Synthetic Aperture Radar,” vol. 5, no. 2, pp. 149–168, 2017.
A. D. Prasetyo and D. A. Nurmantris, “Rancang Bangun Antena Microstrip Array dengan Teknik Pencatu Proximity Coupler untuk Sersor Circular Polarized Synthetic Aperture Radar (CP-SAR)," Prodi D3 Teknik Telekomunikasi , Fakultas Ilmu Terapan , Universitas Telkom Fakultas Elektro dan Komunikasi , Universitas Telkom Fakultas Ilmu Terapan , Universitas Telkom Abstrak,” vol. 1, no. 1, pp. 431–447, 2014.
A. Mukhtar, A. Putri, S. Jayani, J. Cagak, S. Km, and B. Indonesia, “Implementasi Chirp Signal Generator pada FPGA untuk Misi Pencitraan LAPAN Surveillance Aircraft-Synthetic Radar (LSA-SAR),” pp. 1–14, 2015.
W. Junita Monika Pasaribu, Jalu Tejo Nugroho, "Pemanfaatan Penginderaan Jauh untuk Pemantauan Penurunan Muka Tanah (Land Subsidence),", vol. 7, no. 25–42. 2014.
M. A. Arif, H. Wijanto, and A. D. Prasetyo, “Perancangan Duplexer Jenis Ferrite Circulator untuk Aplikasi Synthetic Aperture Radar (SAR),” vol. 3, no. 2, pp. 1861–1867, 2016.
B. Syihabuddin, D. A. Nurmantris, and A. D. Prasetyo, “Perancangan Bandpass Filter Pita Sempit pada Frekuensi L-Band untuk Aplikasi Synthetic Aperture Radar ( SAR ),” vol. 9, no. 2, pp. 198–203, 2017.
I. Surjati, Antena mikrostrip konsep dan aplikasinya. jakarta: universitas trisakti, 2010.
V. Keerthi, H. Khan, and P. Srinivasulu, “Design of C-Band Microstrip Patch Antenna for Radar Applications Using IE3D,” IOSR-JECE, vol. 5, no. 3, pp. 49–58, 2013.
N. Rahman and M. T. Islam, “A Tuning Fork-Shaped Microstrip Patch Antenna for X-Band Satellite and Radar Applications,” IEEE, pp. 17–18, 2017.
T. M. Neebha and M. Nesasudha, “Artificial Neural Network Based Design of a Microstrip Patch Antenna for RADAR Applications,” IEEE, no. August, pp. 93–98, 2012.
D. Wijoyono, S. Ramadhanty, D. Rakmatullah, and F. Y. Zulkifli, “Uniform Microstrip Array Antenna with Low Sidelobe Level for Coastal Surveillance Radar Application at 9 . 37 – 9 . 43 GHz,” IEEE, pp. 22–25, 2017.
S. Gupta, S. S. Dhillon, P. Khera, and A. Marwaha, “Dual band u-slotted microstrip patch antenna for c band and x band radar applications,” in IEEE, 2013, pp. 41–45.