RT Journal Article
T1 Design of a Planar Array of Low Profile Horns at 28 GHz
A1 Wang, Jou-Yi
A1 Kehn, Malcolm Ng Mou
A1 Rajo Iglesias, Eva
AB A planar array of low profile horns fed by a transverse slotted waveguide array in the low millimeter-wave regime (28 GHz) is presented. The array of transverse slots cannot be directly used as antenna as it has grating lobes due to the fact that slot elements must be spaced a guided wavelength. However, these slots can be transformed into low profile horns that with their radiation patterns attenuate the grating lobes. To this aim, low profile horns with less than 0.6λ0 height were designed. The horns include a couple of chips that contribute to further reduce the grating lobes especially in the H-plane. The good performance of the designed array was demonstrated by both simulations and experiments performed on a manufactured prototype. A 5 × 5 array was designed that has a measured realized gain of 26.6 dBi with a bandwidth below 2%, still useful for some applications such as some radar systems. The total electrical size of the array is 6.63λ0× 6.63λ0. The radiation efficiency is very high and the aperture efficiency is above 80%. This all-metal solution is advantageous for millimeter-wave applications where losses sustained by dielectric materials become severe and it can be easily scaled to higher frequencies.
PB MDPI
SN 1424-8220
YR 2020
FD 2020-12-01
LK https://hdl.handle.net/10016/33002
UL https://hdl.handle.net/10016/33002
LA eng
NO This article belongs to the Section Physical Sensors
NO This work was partially supported by the "Center for mmWave Smart Radar Systems and Technologies" under the Featured Areas Research Center Program within the framework of the Higher Education Sprout Project by the Ministry of Education (MOE) in Taiwan and partially supported by the Ministry of Science and Technology (MOST) of Taiwan under Grant numbers MOST 107-3017-F-009-001 and 107-2221-E-009-051-MY2. This work was also partially supported by the Spanish Government with grant numbers: TEC2016-79700-C2-2-R and PID2019-107688RB-C21.
DS e-Archivo
RD 1 sept. 2024