研究目的
Designing a Ku-band broadband waveguide wide-side longitudinal slot antenna array for UAV SAR application with wide scanning ability, low side lobe, and compact structure.
研究成果
The designed Ku-band broadband waveguide slot antenna array achieves a relative bandwidth of 15% with VSWR smaller than 2, side lobe smaller than -21.5dB, cross-polarization better than -40dB, and scanning angle of ±60° in azimuth direction. It is suitable for UAV SAR applications due to its wide band, wide scanning, low side lobe, and compact structure.
研究不足
The antenna is sensitive to dimensional tolerance due to high working frequency, leading to slight discrepancies between simulation and measured results.
1:Experimental Design and Method Selection:
The design employs a single-ridge waveguide to reduce size and achieve wide scanning ability, with bandwidth expanded by subarea feeding of the slots. HFSS software is used for simulation to extract active admittance and determine slot parameters.
2:Sample Selection and Data Sources:
A Ku-band one-dimension phased array radar for UAV SAR application is the focus, requiring wide angle scanning and integrated feeding.
3:List of Experimental Equipment and Materials:
HFSS simulation software, Matlab for pattern synthesis, and a manufactured antenna array of 72 waveguide slot antenna lines.
4:Experimental Procedures and Operational Workflow:
The design involves determining slot parameters through simulation, optimizing the antenna line model, and manufacturing the antenna array with vacuum brazing.
5:Data Analysis Methods:
The performance is evaluated based on VSWR, side lobe level, cross-polarization, and scanning angle, with measurements taken in a near-field darkroom.
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