A Trident-Fed Wine Glass UWB Antenna Based on Bézier Curve Optimization

Chheang Ly; Jae Young Chung

doi:10.3390/electronics14132560

A Trident-Fed Wine Glass UWB Antenna Based on Bézier Curve Optimization

Chheang Ly, Jae Young Chung

Dept. of Electrical and Information Engineering

Seoul National University of Science and Technology (SNUST)

Research output: Contribution to journal › Article › peer-review

Abstract

This work introduces a wine glass-shaped planar ultra-wideband (UWB) antenna. The antenna achieves a compact form factor by reducing lateral width through Bézier curve shaping and a trident feed, while maintaining length for low-frequency operation. The wine-glass-shaped radiator increases shunt capacitance and enhances midband impedance matching, as demonstrated by equivalent circuit analysis, while the trident feed improves matching at higher frequencies. This design yields a 92% fractional bandwidth (3.2–8.7 GHz) within a compact volume of (Formula presented.). The prototype is fabricated on two 50-μm-thick polyimide flexible copper-clad laminates (FCCL), and its performance is evaluated in an anechoic chamber. The measured results demonstrate omnidirectional radiation with an efficiency of over 80% across the UWB band. With broad operational range and compactness, the antenna is well-suited for IoT and wearable sensing applications.

Original language	English
Article number	2560
Journal	Electronics (Switzerland)
Volume	14
Issue number	13
DOIs	https://doi.org/10.3390/electronics14132560
State	Published - Jul 2025

Keywords

Bézier curve optimization
monopole antenna
thine-film antenna
trident feed
UWB

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10.3390/electronics14132560

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title = "A Trident-Fed Wine Glass UWB Antenna Based on B{\'e}zier Curve Optimization",

abstract = "This work introduces a wine glass-shaped planar ultra-wideband (UWB) antenna. The antenna achieves a compact form factor by reducing lateral width through B{\'e}zier curve shaping and a trident feed, while maintaining length for low-frequency operation. The wine-glass-shaped radiator increases shunt capacitance and enhances midband impedance matching, as demonstrated by equivalent circuit analysis, while the trident feed improves matching at higher frequencies. This design yields a 92\% fractional bandwidth (3.2–8.7 GHz) within a compact volume of (Formula presented.). The prototype is fabricated on two 50-μm-thick polyimide flexible copper-clad laminates (FCCL), and its performance is evaluated in an anechoic chamber. The measured results demonstrate omnidirectional radiation with an efficiency of over 80\% across the UWB band. With broad operational range and compactness, the antenna is well-suited for IoT and wearable sensing applications.",

keywords = "B{\'e}zier curve optimization, monopole antenna, thine-film antenna, trident feed, UWB",

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N2 - This work introduces a wine glass-shaped planar ultra-wideband (UWB) antenna. The antenna achieves a compact form factor by reducing lateral width through Bézier curve shaping and a trident feed, while maintaining length for low-frequency operation. The wine-glass-shaped radiator increases shunt capacitance and enhances midband impedance matching, as demonstrated by equivalent circuit analysis, while the trident feed improves matching at higher frequencies. This design yields a 92% fractional bandwidth (3.2–8.7 GHz) within a compact volume of (Formula presented.). The prototype is fabricated on two 50-μm-thick polyimide flexible copper-clad laminates (FCCL), and its performance is evaluated in an anechoic chamber. The measured results demonstrate omnidirectional radiation with an efficiency of over 80% across the UWB band. With broad operational range and compactness, the antenna is well-suited for IoT and wearable sensing applications.

AB - This work introduces a wine glass-shaped planar ultra-wideband (UWB) antenna. The antenna achieves a compact form factor by reducing lateral width through Bézier curve shaping and a trident feed, while maintaining length for low-frequency operation. The wine-glass-shaped radiator increases shunt capacitance and enhances midband impedance matching, as demonstrated by equivalent circuit analysis, while the trident feed improves matching at higher frequencies. This design yields a 92% fractional bandwidth (3.2–8.7 GHz) within a compact volume of (Formula presented.). The prototype is fabricated on two 50-μm-thick polyimide flexible copper-clad laminates (FCCL), and its performance is evaluated in an anechoic chamber. The measured results demonstrate omnidirectional radiation with an efficiency of over 80% across the UWB band. With broad operational range and compactness, the antenna is well-suited for IoT and wearable sensing applications.

KW - Bézier curve optimization

KW - monopole antenna

KW - thine-film antenna

KW - trident feed

KW - UWB

UR - https://www.scopus.com/pages/publications/105010207210

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DO - 10.3390/electronics14132560

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ER -

A Trident-Fed Wine Glass UWB Antenna Based on Bézier Curve Optimization

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Keywords

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