Parametric Study of a Fully 3D-Printed Dielectric Resonator Antenna Loaded With a Metallic Cap

Cuevas, Matias; Pizarro, Francisco; Leiva, Ariel; Hermosilla, Gabriel; Yunge, Daniel

doi:10.1109/access.2021.3081068

Cited by 30 publications

(17 citation statements)

References 35 publications

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“…One technology used in recent years to implement high frequency structures is 3D-printing 10 , 11 . Thanks to the introduction of low-loss dielectric and conductive filaments, together with the lower cost and higher precision of the new generation of 3D-printers, it has been possible to implement different high frequency topologies that were either difficult or too expensive to manufacture 12 , 13 . This brings the opportunity to implement cost-effective solutions.…”

Section: Introductionmentioning

confidence: 99%

Cost-effective wideband dielectric planar lens antenna for millimeter wave applications

Poyanco

Pizarro

Rajo‐Iglesias

2022

Sci Rep

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This article presents a fully 3D-printed dielectric planar lens operating in the entire Ka-band manufactured using additive manufacturing and a relatively low-cost 3D-printer. The lens consists of ten concentric rings implemented using low-loss ABS filaments with high permittivity values. By varying the infill percentages of them the required refractive indexes of each section are achieved. An additional 3D-printed matching layer, using the same manufacturing and design method was included in the lens, to reduce reflections. Simulation and measurement results show a very good agreement, which confirms the possibility of manufacturing a cost-effective broadband and planar lens solution operating in millimeter wave bands, where Low Earth Orbit Satellites (LEO) networks, future mobile communication systems (5G, 6G) and radar systems operate.

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Section: Introductionmentioning

confidence: 99%

Cost-effective wideband dielectric planar lens antenna for millimeter wave applications

Poyanco

Pizarro

Rajo‐Iglesias

2022

Sci Rep

Self Cite

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“…Changing the 3D-printed infill fraction was also used to create a DRA with two effective dielectric regions. It was found that by increasing the air volume fraction in certain locations and including a metal cap to compensate for the frequency shift, the weight of the DRA could be reduced by 22% [57].…”

Section: Dielectric Resonator Antennasmentioning

confidence: 99%

3D Printing Materials and Techniques for Antennas and Metamaterials: A survey of the latest advances

Whittaker

Zhang

Powell

et al. 2023

IEEE Antennas Propag. Mag.

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his is a review article of the latest advances in 3D printing for enabling new materials and new geometries for radiofrequency (RF) devices, antennas, and metamaterials. The article discusses the achievable material properties and various optimized applications that are achievable by creating new shapes in either dielectric or metal. This article demonstrates what is currently possible with additive manufacturing and the current limitations. Various additively manufactured RF devices are reviewed.

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“…3D printer are a cost-efficient solution for manufacturing of complex microwave designs such as in Garcia-Martinez and colleagues. [27][28][29][30][31][32][33][34][35][36] Here to have a design with a shorter length, the substrates is modeled as nonplanar substrate. This feature can be obtained easily by using the unique feature of 3D printing technology.…”

Section: Design Of Nunpmf Unit Element and Data Setmentioning

confidence: 99%

“…With recent development in 3D printing technology the fields that utilize this method for low‐cost manufacturing is also increased. 3D printer are a cost‐efficient solution for manufacturing of complex microwave designs such as in Garcia‐Martinez and colleagues 27–36 . Here to have a design with a shorter length, the substrates is modeled as nonplanar substrate.…”

Section: Design Of Nunpmf Unit Element and Data Setmentioning

confidence: 99%

Surrogate‐assisted optimization of 3D printed ceramic nonuniform nonplanar microstrip filter

Mahouti

Kuskonmaz

Yıldırım

2022

Micro & Optical Tech Letters

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Herein, by using 3D printing technology and data‐driven surrogate model‐assisted optimization method, design of a ceramic material‐based nonuniform nonplanar microstrip filter is taken into the consideration in a computationally efficient and low‐cost manner. For this aim, 3D EM model of the proposed design had been used for generating training and validation data sets. Then commonly used state‐of‐the‐art regression algorithms had been used for creating accurate and fast surrogate models to create a mapping between inputs of the model and outputs of the unit element design. After that, Grey Wolf Optimization algorithm had been used for design optimization of a bandpass filter. Then, via the use of 3D printer, the optimally designed filter had been prototyped and its performance characteristics are measured. As a result, by using 3D printer technology, ceramic material, and the proposed method, design optimization of nonuniform nonplanar microstrip filter can be achieved in a computationally efficient way.

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Parametric Study of a Fully 3D-Printed Dielectric Resonator Antenna Loaded With a Metallic Cap

Cited by 30 publications

References 35 publications

Cost-effective wideband dielectric planar lens antenna for millimeter wave applications

Cost-effective wideband dielectric planar lens antenna for millimeter wave applications

3D Printing Materials and Techniques for Antennas and Metamaterials: A survey of the latest advances

Surrogate‐assisted optimization of 3D printed ceramic nonuniform nonplanar microstrip filter

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