期刊
IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION
卷 70, 期 11, 页码 11132-11137出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TAP.2022.3184504
关键词
Dual-band; frequency selective surfaces; polarization rotation; transmitarray (TA)
资金
- Department of Navy through the Office of Naval Research [N00014-16-1-2308, N00014-19-1-2502]
This paper presents a dual-band transmitarray (TA) that uses ultrathin polarization-rotating spatial phase shifters. The TA provides independent polarization rotation in two different frequency bands, allowing for beam collimation at both bands. The proposed ultrathin spatial phase shifter results in a compact TA with high gain and narrow bandwidth.
We present a dual-band transmitarray (TA) comprising ultrathin polarization-rotating (PR) spatial phase shifters. The PR elements provide +90 degrees and -90 degrees polarization rotation independently in two different frequency bands, used as dual-band 1-bit spatial phase shifters. Independent polarization rotation in the two operating frequency bands is realized by interleaving high-band and low-band features that include dipoles, strips, and slots printed on three metallic layers with ultrathin interlayer spacings. The concept is generally applicable to any frequency band where TAs are practical. To illustrate the concept, we simulated and tuned a PR unit cell to achieve 1-bit phase shifts in two operating frequency bands at X- and Ku-bands, with center frequencies at 9.5 and 14.5 GHz, respectively. Subsequently, a dual-band TA was designed using the proposed unit cell to provide beam collimation at broadside directions at both operating frequency bands. The proposed ultrathin spatial phase shifter results in a TA with an overall thickness of 0.07 lambda(LB), where lambda(LB) is the wavelength at the center frequency of the lower band. Measurement results of a fabricated prototype of the TA show maximum gains of 25.2 and 26.2 dBi as well as 3 dB gain bandwidths of 26% and 6.2% for the lower and higher bands, respectively.
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