The SAR-XL Multi-Aperture X and L Band Sar System with Digital Beamforming and Its Corresponding Dual-Band Applications

2020 ◽  
Author(s):  
George Tyc ◽  
Michael Grigorian ◽  
Roger Korus
Keyword(s):  
Dual Band ◽  
Digital Beamforming ◽  
L Band

NASA's L-Band Digital Beamforming Synthetic Aperture Radar

2011 ◽  
Vol 49 (10) ◽  
pp. 3622-3628 ◽  
Author(s):  
Rafael F. Rincon ◽  
Manuel A. Vega ◽  
Manuel Buenfil ◽  
Alessandro Geist ◽  
Lawrence Hilliard ◽  
...  
Keyword(s):  
Synthetic Aperture Radar ◽  
Synthetic Aperture ◽  
Digital Beamforming ◽  
L Band ◽  
Aperture Radar

Compact dual-band filter in SIW technology for a L band receiver

2015 ◽  
Author(s):  
A. Perigaud ◽  
J. Sence ◽  
F. Fezai ◽  
S. Bila ◽  
T. Monediere ◽  
...  
Keyword(s):  
Dual Band ◽  
Band Filter ◽  
L Band

scholarly journals Design of a Metamaterial-Based Compact Dual-Band 3-way Power Divider for Lighter L-band Military Satellite Transceivers

2013 ◽  
Vol 62 (12) ◽  
pp. 1712-1718
Author(s):  
Kyung-Seok Kahng ◽  
Inkyu Yang ◽  
Kyeong-Nam Jang ◽  
Hosub Lee ◽  
Hyoung-Jong Lee ◽  
...  
Keyword(s):  
Band 3 ◽  
Power Divider ◽  
Dual Band ◽  
L Band

Shared‐aperture dual‐band orthogonally polarised antenna array for L‐band and S‐band applications

2019 ◽  
Vol 13 (4) ◽  
pp. 431-435 ◽  
Author(s):  
Harish Naik ◽  
Abhishek K. Awasthi ◽  
Ayyangar R. Harish
Keyword(s):  
Antenna Array ◽  
Dual Band ◽  
L Band

Digital beamforming analysis and performance for a digital L-band Pseudo-correlation radiometer

2009 ◽  
Author(s):  
X. Bosch-Lluis ◽  
I. Ramos-Perez ◽  
A. Camps ◽  
N. Rodriguez-Alvarez ◽  
J.F. Marchan-Hernandez ◽  
...  
Keyword(s):  
Digital Beamforming ◽  
Correlation Radiometer ◽  
L Band ◽  
And Performance

scholarly journals Modifikasi Pembagi Daya Wilkinson Dual Band pada Frekuensi L-Band dan S-Band

2016 ◽  
Vol 8 (1) ◽  
pp. 78
Author(s):  
Fithqoti Afiroh Zuqri ◽  
Bambang Setia Nugroho ◽  
Budi Syihabuddin
Keyword(s):  
Wide Band ◽  
Dual Band ◽  
L Band

Pembagi daya Wilkinson merupakan pembagi daya yang menggunakan saluran dengan panjang ?/4 dan menyisipkan komponen isolasi antar kedua port keluaran. Dengan menggunakan panjang saluran ?/4, bandwidth yang dihasilkan relatif sempit karena berhubungan dengan panjang saluran yang tetap. Penelitian ini melakukan modifikasi dari penelitian sebelumnya yang dapat menghasilkan pembagi daya Wilkinson yang bersifat dual band menjadi wide band dengan area kerja dari rentang L-Band hingga S-Band. Dari simulasi didapatkan bandwidth dari nilai returnloss dibawah -10 dB sebesar 3.6355 GHz, dan nilai isolasi antara port 2 dan port 3, pada frekuensi 1,27 GHz dan 2,3 GHz, nilai isolasi parameter S23 dan S32 dengan komponen isolasi resistor 100 ohm bernilai -9,7521 dB dan -12,3626 dB

scholarly journals Design of Dual Band Microstrip Antenna at L-Band and S-Band Frequencies for Synthetic Aperture Radar (SAR) Sensors

2018 ◽  
Vol 10 (1) ◽  
Author(s):  
Binarti Fauziah Fitriani ◽  
Heroe Wijanto ◽  
Agus Dwi Prasetyo
Keyword(s):  
Synthetic Aperture Radar ◽  
Return Loss ◽  
Synthetic Aperture ◽  
Dual Band ◽  
Dual Band Antenna ◽  
Penetration Ability ◽  
L Band ◽  
Dual Band Antennas ◽  
Patch Technique ◽  
Aperture Radar

SAR (Synthetic Aperture Radar) is a remote sensing system using radar for high resolution image capture. The use of different frequency bands on SAR, will result different effect of image. The higher frequency used, the higher resolution of resulting image. The lower frequency used, the higher penetration ability. Therefore, using dual band antenna on the SAR system can improve the data collection and information of the target, also reduce its size. This study designs dual band antennas at 1.27 GHz (L-Band) and 3 GHz (S-Band) frequencies. To obtain the characteristics, the antenna is designed by slotted patch technique and using proximity coupled feeding. As a result, by using dielectric FR4 Epoxy with relative permittivity 4,6, the antenna working at frequency 1.27 GHz with return loss -25.131 dB, VSWR 1.1201, and bandwidth (return loss ? -10 dB) 19.9 MHz. While at 3 GHz work frequency return ross is -16.802 dB, VSWR 1.3381, and bandwidth (return loss ? -10 dB) 125.3 MHz.

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