Pattern-Reconfigurable Cavity-Backed Antenna Based on Radiant Metal Blocks

In this letter, a design method for the reconfigurable radiant metal block antenna with beam switching is proposed. The pattern-reconfigurable antenna is realized using the concept of mismatch in filter theory. The positive intrinsic negative (PIN) diodes are employed to change the characteristic cu...

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Bibliographic Details
Published inIEEE antennas and wireless propagation letters Vol. 23; no. 12; pp. 4553 - 4557
Main Authors Huang, Tian-Gui, Chen, Fu-Chang, Xiang, Kai-Ran, Wei, Liu-Yu, Zeng, Wen-Feng
Format Journal Article
LanguageEnglish
Published New York IEEE 01.12.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Antenna design
Antenna measurements
Antenna radiation patterns
Antennas
Beam steering
Beam switching
cavity antenna
Design
Filtering
Filtration
metal block antenna
Metals
pattern-reconfigurable antenna
PIN photodiodes
Radiation
radiation pattern
Reconfigurable devices
Reconfiguration
Switches
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Summary:In this letter, a design method for the reconfigurable radiant metal block antenna with beam switching is proposed. The pattern-reconfigurable antenna is realized using the concept of mismatch in filter theory. The positive intrinsic negative (PIN) diodes are employed to change the characteristic current mode of the radiant metal block to achieve the switching of the matched or mismatched state between the block and the resonant metal cavity. Based on this feature, a second-order reconfigurable cavity antenna is designed by placing reconfigurable metal blocks around the resonant metal cavity. The designed antenna is capable of covering a 360<inline-formula><tex-math notation="LaTeX">^{\circ }</tex-math></inline-formula> area range. Not only can different radiation patterns be designed for switching, but also it is ensured that the second-order filtering characteristics are maintained when switching beams. For validation, a six-beam switchable metal block cavity filtering antenna is fabricated and measured. The bandwidth of the designed antenna is 4.8% and the radiation pattern can be controlled to switch from 0<inline-formula><tex-math notation="LaTeX">^{\circ }</tex-math></inline-formula> to 360<inline-formula><tex-math notation="LaTeX">^{\circ }</tex-math></inline-formula> in steps of 60<inline-formula><tex-math notation="LaTeX">^{\circ }</tex-math></inline-formula>. The nice consistency between the measured and simulated results validates the proposed design methodology.
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ISSN:1536-1225
1548-5757
DOI:10.1109/LAWP.2024.3456778