TY - GEN
T1 - Beamforming Network in Square Waveguide Technology for 5G Communications
AU - Haro-Baez, Raul
AU - Romero, Carlos G.
AU - Sáenz, Fabián G.
AU - Sotomayor, Danny
AU - Benítez, Diego S.
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - This paper presents the design of a compact Rotman lens using square waveguide (SWG) technology for operation in the Ka band. The design is achieved by calculating the effective behavior of the waveguides that comprise the ports, the central cavity, and the transitions between the ports and the central cavities. In order to validate the operation of the Rotman lens at the array ports, cross-slot antennas were incorporated into the design. A seven-beam port feeds a nine-element array with eight dummy ports, which serves to reduce the occurrence of secondary lobes above -12.0 dB and to enhance the lens geometry. The designed lens was subjected to simulation and validation using a number of tools, including the CST Microwave Studio with the frequency solver. The simulation results demonstrate that the lens is capable of functioning in both the TE10 and TE01, thus doubling its capacity. The transmission coefficient reaches a level of 9.5 dB within the frequency range of 28.0 to 33.0 GHz, with an available bandwidth of 16.4%. The return loss level is 13.5 dB when both modes are considered. Furthermore, a cross-slot design is presented for incorporation into a future prototype, which will be constructed using a numerical control machine or a 3D printer to facilitate the subsequent metalization process for experimental measurement.
AB - This paper presents the design of a compact Rotman lens using square waveguide (SWG) technology for operation in the Ka band. The design is achieved by calculating the effective behavior of the waveguides that comprise the ports, the central cavity, and the transitions between the ports and the central cavities. In order to validate the operation of the Rotman lens at the array ports, cross-slot antennas were incorporated into the design. A seven-beam port feeds a nine-element array with eight dummy ports, which serves to reduce the occurrence of secondary lobes above -12.0 dB and to enhance the lens geometry. The designed lens was subjected to simulation and validation using a number of tools, including the CST Microwave Studio with the frequency solver. The simulation results demonstrate that the lens is capable of functioning in both the TE10 and TE01, thus doubling its capacity. The transmission coefficient reaches a level of 9.5 dB within the frequency range of 28.0 to 33.0 GHz, with an available bandwidth of 16.4%. The return loss level is 13.5 dB when both modes are considered. Furthermore, a cross-slot design is presented for incorporation into a future prototype, which will be constructed using a numerical control machine or a 3D printer to facilitate the subsequent metalization process for experimental measurement.
KW - Rotman lens
KW - beamforming networks
KW - power distribution network
KW - square waveguide
UR - http://www.scopus.com/inward/record.url?scp=85208828263&partnerID=8YFLogxK
U2 - 10.1109/COLCOM62950.2024.10720318
DO - 10.1109/COLCOM62950.2024.10720318
M3 - Contribución a la conferencia
AN - SCOPUS:85208828263
T3 - 2024 IEEE Colombian Conference on Communications and Computing, COLCOM 2024 - Proceedings
BT - 2024 IEEE Colombian Conference on Communications and Computing, COLCOM 2024 - Proceedings
A2 - Briceno Rodriguez, Diana Z.
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2024 IEEE Colombian Conference on Communications and Computing, COLCOM 2024
Y2 - 21 August 2024 through 24 August 2024
ER -