2019
DOI: 10.2528/pierm18102603
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High-Frequency Filters Manufactured Using Hybrid 3d Printing Method

Abstract: In this work, two different high-frequency filters were produced, and each was manufactured in two different ways, one using conventional PCB technology and the other using hybrid 3D printing. The hybrid 3D printing technique combined the use of microdispensing of conductive inks and fused filament fabrication (FFF) of thermoplastic substrates. Measurements, properties, and comparisons between these filters are discussed. The goal of the research was to benchmark 3D printing of highfrequency filters to more co… Show more

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Cited by 7 publications
(4 citation statements)
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“…To enhance the microwave dielectric properties, the polymer is removed by sintering the ceramic/polymer composites or is reserved for a specific function (e.g., flexibility). The aforementioned examples of multi-material 3D printing of microstrip antennas would likely have additional applications in filters [ 247 , 248 , 249 ], resonators [ 234 , 250 ], and isolators [ 251 ].…”
Section: Applications Of Multi-materials 3d Printing In Functional Ce...mentioning
confidence: 99%
“…To enhance the microwave dielectric properties, the polymer is removed by sintering the ceramic/polymer composites or is reserved for a specific function (e.g., flexibility). The aforementioned examples of multi-material 3D printing of microstrip antennas would likely have additional applications in filters [ 247 , 248 , 249 ], resonators [ 234 , 250 ], and isolators [ 251 ].…”
Section: Applications Of Multi-materials 3d Printing In Functional Ce...mentioning
confidence: 99%
“…It can be used to construct antenna models for multiband applications as in [16][17][18][19]. Additionally, there are various designs of microwave filters based on 3D printing in the RF frequency range [20][21], and the implemented BPF in [22] was operated in the E-band (60-90 GHz) of the millimetric wave frequency range, but with inconsistent simulation and experimental results due to fabrication tolerance.…”
Section: Introductionmentioning
confidence: 99%
“…In contrast, a planar metal structure can be easily obtained by numerous methods, such as 3D-printing technology, , silk-screen printing, , and printed circuit board technology. , Therefore, it would be a good choice once a three-dimensional structure could be constructed from a flat structure, which is the characteristic advantage of origami. Besides, compared with 3D-printing technology, origami has the advantages of fast processing speed and no complicated modeling process . Origami has been widely studied by researchers, and its utilities have been extended into unexplored territories, such as space solar panels, metamaterials, metasurfaces, intelligent electronic components, and optical equipment .…”
mentioning
confidence: 99%
“…Besides, compared with 3D-printing technology, origami has the advantages of fast processing speed and no complicated modeling process. 9 Origami has been widely studied by researchers, and its utilities have been extended into unexplored territories, such as space solar panels, metamaterials, 10 metasurfaces, 11 intelligent electronic components, and optical equipment. 12 Meanwhile, previous studies have been carried out to realize self-folding of the origami structure, which is usually driven by the active reaction of folding materials, external mechanical structures, and differences in pressure.…”
mentioning
confidence: 99%