Designing a 3-D Printing-Based Channel Emulator with Printable Electromagnetic Materials

Xiangyang Jiao; Hui He; Wei Qian; Guanghua Li; Guangyao Shen; Xiao Li; Chong Ding; Douglas White; Stephen Scearce; Yaochao Yang; David Pommerenke

doi:10.1109/TEMC.2015.2418255

Designing a 3-D Printing-Based Channel Emulator with Printable Electromagnetic Materials

Xiangyang Jiao, Hui He, Wei Qian, Guanghua Li, Guangyao Shen, Xiao Li, Chong Ding, Douglas White, Stephen Scearce, Yaochao Yang, David Pommerenke

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

Abstract

This paper explored the possibility of building channel emulators by utilizing fused deposition modeling (FDM) three-dimensional (3-D) printing technology. The FDM 3-D printing provides a rapid and economic method to produce parts with different shapes. An optimizing algorithm was developed for obtaining the printing pattern and loss profile. Parts with different dielectric constants and loss tangents can be printed. Those parts will be placed or directly printed on a low-loss transmission line to modify its transmission or reflection. As a result, different channel emulators can be built to emulate the S-parameter and eye diagrams of a target channel with the advantage of avoiding complicated electronic components and only being limited in the frequency range by the transmission line and attached connectors.

Original language	English
Article number	7088616
Pages (from-to)	868-876
Number of pages	9
Journal	IEEE Transactions on Electromagnetic Compatibility
Volume	57
Issue number	4
DOIs	https://doi.org/10.1109/TEMC.2015.2418255
Publication status	Published - 1 Aug 2015
Externally published	Yes

Keywords

Channel emulator
dielectric constants
fused deposition modeling (FDM)
lossy material
three-dimensional (3-D) printing
transmission line

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1109/TEMC.2015.2418255

Cite this

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title = "Designing a 3-D Printing-Based Channel Emulator with Printable Electromagnetic Materials",

abstract = "This paper explored the possibility of building channel emulators by utilizing fused deposition modeling (FDM) three-dimensional (3-D) printing technology. The FDM 3-D printing provides a rapid and economic method to produce parts with different shapes. An optimizing algorithm was developed for obtaining the printing pattern and loss profile. Parts with different dielectric constants and loss tangents can be printed. Those parts will be placed or directly printed on a low-loss transmission line to modify its transmission or reflection. As a result, different channel emulators can be built to emulate the S-parameter and eye diagrams of a target channel with the advantage of avoiding complicated electronic components and only being limited in the frequency range by the transmission line and attached connectors.",

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author = "Xiangyang Jiao and Hui He and Wei Qian and Guanghua Li and Guangyao Shen and Xiao Li and Chong Ding and Douglas White and Stephen Scearce and Yaochao Yang and David Pommerenke",

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AU - Jiao, Xiangyang

AU - He, Hui

AU - Qian, Wei

AU - Li, Guanghua

AU - Shen, Guangyao

AU - Li, Xiao

AU - Ding, Chong

AU - White, Douglas

AU - Scearce, Stephen

AU - Yang, Yaochao

AU - Pommerenke, David

PY - 2015/8/1

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AB - This paper explored the possibility of building channel emulators by utilizing fused deposition modeling (FDM) three-dimensional (3-D) printing technology. The FDM 3-D printing provides a rapid and economic method to produce parts with different shapes. An optimizing algorithm was developed for obtaining the printing pattern and loss profile. Parts with different dielectric constants and loss tangents can be printed. Those parts will be placed or directly printed on a low-loss transmission line to modify its transmission or reflection. As a result, different channel emulators can be built to emulate the S-parameter and eye diagrams of a target channel with the advantage of avoiding complicated electronic components and only being limited in the frequency range by the transmission line and attached connectors.

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KW - lossy material

KW - three-dimensional (3-D) printing

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Designing a 3-D Printing-Based Channel Emulator with Printable Electromagnetic Materials

Abstract

Keywords

ASJC Scopus subject areas

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