TY - GEN
T1 - On the Design of a New 4x4 Coupler for C Band based on a 180° Coupler at Microstrip Technology
AU - Haro-Baez, Raul
AU - Benitez, DIego S.
AU - Romero, David
N1 - Publisher Copyright:
© 2019 IEEE.
PY - 2019/6
Y1 - 2019/6
N2 - In this paper, a new design for a 180 hybrid directional coupler is presented and implemented, the coupler works in the frequency range of the C band spectrum from 5.9 to 6.1 GHz in UP-LINK mode. The designed coupler achieves less weight, use less coupler sections, reaches phase difference in the output ports and its able to handle larger bandwidths. First, a study of the state of the art about this type of couplers, their mathematical analysis, and the methods to be used, are reviewed together with the initial design of a 180 hybrid coupler section. Then, the electromagnetic behavior of this hybrid ring, as well as its coupling to the host transmission line, are studied, and analytical equivalent-circuit models are also proposed. A new multiple sections coupler with 4 input and 4 output ports, was then generated from this initial hybrid ring design, with the aim of increasing the bandwidth. A final directional coupler implementation was then fabricated using Microstrip technology for its subsequent analysis at 6 GHz. Both simulation and experimental results show good performance agreement. A 16.67% bandwidth was achieved.
AB - In this paper, a new design for a 180 hybrid directional coupler is presented and implemented, the coupler works in the frequency range of the C band spectrum from 5.9 to 6.1 GHz in UP-LINK mode. The designed coupler achieves less weight, use less coupler sections, reaches phase difference in the output ports and its able to handle larger bandwidths. First, a study of the state of the art about this type of couplers, their mathematical analysis, and the methods to be used, are reviewed together with the initial design of a 180 hybrid coupler section. Then, the electromagnetic behavior of this hybrid ring, as well as its coupling to the host transmission line, are studied, and analytical equivalent-circuit models are also proposed. A new multiple sections coupler with 4 input and 4 output ports, was then generated from this initial hybrid ring design, with the aim of increasing the bandwidth. A final directional coupler implementation was then fabricated using Microstrip technology for its subsequent analysis at 6 GHz. Both simulation and experimental results show good performance agreement. A 16.67% bandwidth was achieved.
KW - Directional coupler
KW - hybrid ring
KW - multiple section
KW - power combiners
KW - waveguide components
UR - http://www.scopus.com/inward/record.url?scp=85072130955&partnerID=8YFLogxK
U2 - 10.1109/ColComCon.2019.8809146
DO - 10.1109/ColComCon.2019.8809146
M3 - Contribución a la conferencia
AN - SCOPUS:85072130955
T3 - 2019 IEEE Colombian Conference on Communications and Computing, COLCOM 2019 - Proceedings
BT - 2019 IEEE Colombian Conference on Communications and Computing, COLCOM 2019 - Proceedings
A2 - Rodriguez, Diana Briceno
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2019 IEEE Colombian Conference on Communications and Computing, COLCOM 2019
Y2 - 5 June 2019 through 7 June 2019
ER -