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Si us plau utilitzeu sempre aquest identificador per citar o enllaçar aquest document: https://hdl.handle.net/2445/219203
3D-Printed Broadband Power Divider Based on Helical-Microstrip Transmission Line Segments
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Received May 17, 2022, accepted June 3, 2022, date of publication June 13, 2022, date of current version June 20, 2022.
Digital Object Identifier 10.1109/ACCESS.2022.3182707
3D-Printed Broadband Power Divider Based on
Helical-Microstrip Transmission Line Segments
JOSEP MARIA LOPEZ-VILLEGAS , (Senior Member, IEEE), NEUS VIDAL ,
AND ARNAU SALAS BARENYS
Department of Electronic and Biomedical Engineering, University of Barcelona (UB), 08028 Barcelona, Spain
Corresponding author: Josep Maria Lopez-Villegas (j.m.lopez_villegas@ub.edu)
This work was supported by the Spanish State Secretariat for Research, Development, and Innovation under Project TEC2017-83524-R.
ABSTRACT This paper presents the design and electromagnetic characterization of a 3D-printed 2-way
broadband power divider intended to work in the RF band from several hundred MHz up to a few GHz. The
design of the power divider is based on the use of helical-microstrip transmission line segments. Two different
topologies of tapered helical-microstrip segments are considered prior to deciding on the final design of
the power divider. The characteristic impedance profiles of both topologies are analyzed by means of
electromagnetic simulation using the finite element method. After checking the performance of the segments
in comparison with an ideal exponential profile, we propose an optimized design for the tapered impedance
transformer. Two such optimized transformers are connected to configure the power divider as a compact
3-port device. We then fabricate and test a demonstrator prototype of this proposed broadband power divider
design. Our experimental results show a good agreement with the performance predicted by electromagnetic
simulations. These results demonstrate the potential of helical-microstrip technology to reduce the length of
the transmission line segments required to implement such a power divider. A compaction factor of 4-5 was
achieved, compared to an ideal design operating in the same frequency range
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LÓPEZ VILLEGAS, José maría, VIDAL MARTÍNEZ, Neus, SALAS BARENYS, Arnau. 3D-Printed Broadband Power Divider Based on Helical-Microstrip Transmission Line Segments. _IEEE Access_. 2022. Vol. 10, núm. 63375-63382. [consulta: 25 de febrer de 2026]. ISSN: 2169-3536. [Disponible a: https://hdl.handle.net/2445/219203]