Pluggable Electro-Optical Circuit Board Interconnect Based on Embedded Graded-Index Planar Glass Waveguides

Widespread adoption of electro-optical circuit boards based on embedded glass waveguide technology would enable seamless optical connectivity from external fiber-optic networks to system embedded optical interconnect architectures. In this paper, we report on the fabrication of planar multimode wave...

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Veröffentlicht in:	Journal of lightwave technology 2015-02, Vol.33 (4), p.741-754
Hauptverfasser:	Pitwon, Richard Charles Alexander, Brusberg, Lars, Schroder, Henning, Whalley, Simon, Kai Wang, Miller, Allen, Stevens, Paul, Worrall, Alex, Messina, Alessandro, Cole, Andrew
Format:	Artikel
Sprache:	eng
Schlagworte:	Electro-optical circuit boards Glass glass waveguides graded index waveguides Optical device fabrication Optical fibers pluggable optical connector Propagation losses Refractive index thermal ion exchange
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container_title	Journal of lightwave technology
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creator	Pitwon, Richard Charles Alexander Brusberg, Lars Schroder, Henning Whalley, Simon Kai Wang Miller, Allen Stevens, Paul Worrall, Alex Messina, Alessandro Cole, Andrew
description	Widespread adoption of electro-optical circuit boards based on embedded glass waveguide technology would enable seamless optical connectivity from external fiber-optic networks to system embedded optical interconnect architectures. In this paper, we report on the fabrication of planar multimode waveguides within thin glass foils based on a two-step thermal ion exchange process. Novel lamination techniques were developed to allow glass waveguide panels to be reliably integrated into a conventional electronic multilayer printed circuit board. In addition, a complete suite of optical connector technologies were developed to enable both direct fiber-to-board and board-to-board connectivity. We present the design, development, and characterization of a fully integrated connection platform, comprising a 281×233 mm 2 multilayer electro-optical backplane with integrated planar glass waveguides, a pluggable connector system, and five pluggable test cards. Both on-card and externally generated 850 and 1310-nm optical test data were conveyed through the connector and waveguide system and characterised for in-system and system-to-system optical connectivity at data rates up to 32 Gb/s per channel exhibiting bit error rates of less than 10 -12 .
doi_str_mv	10.1109/JLT.2014.2361438
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In this paper, we report on the fabrication of planar multimode waveguides within thin glass foils based on a two-step thermal ion exchange process. Novel lamination techniques were developed to allow glass waveguide panels to be reliably integrated into a conventional electronic multilayer printed circuit board. In addition, a complete suite of optical connector technologies were developed to enable both direct fiber-to-board and board-to-board connectivity. We present the design, development, and characterization of a fully integrated connection platform, comprising a 281×233 mm 2 multilayer electro-optical backplane with integrated planar glass waveguides, a pluggable connector system, and five pluggable test cards. Both on-card and externally generated 850 and 1310-nm optical test data were conveyed through the connector and waveguide system and characterised for in-system and system-to-system optical connectivity at data rates up to 32 Gb/s per channel exhibiting bit error rates of less than 10 -12 .</abstract><pub>IEEE</pub><doi>10.1109/JLT.2014.2361438</doi><tpages>14</tpages><oa>free_for_read</oa></addata></record>
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subjects	Electro-optical circuit boards Glass glass waveguides graded index waveguides Optical device fabrication Optical fibers pluggable optical connector Propagation losses Refractive index thermal ion exchange
title	Pluggable Electro-Optical Circuit Board Interconnect Based on Embedded Graded-Index Planar Glass Waveguides
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