EMI Coupling Paths and Mitigation in Optical Transceiver Modules

Ling Zhang; Xiao Li; Xiangyang Jiao; Jing Li; Sukhjinder S. Toor; Alpesh U. Bhobe; David J. Pommerenke; James L. Drewniak

doi:10.1109/TEMC.2017.2697761

EMI Coupling Paths and Mitigation in Optical Transceiver Modules

Ling Zhang^*, Xiao Li, Xiangyang Jiao, Jing Li, Sukhjinder S. Toor, Alpesh U. Bhobe, David J. Pommerenke, James L. Drewniak

^*Korrespondierende/r Autor/-in für diese Arbeit

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Optical transceiver modules are commonly used in telecommunication and data communication systems, and are among the most troublesome electromagnetic interference (EMI) problems for regulatory compliance at their operation frequencies and/or harmonics. In this study, simulations and measurements are performed on an optical subassembly module, including the silicon photonics submodule assembly, in order to identify and characterize the EMI coupling paths. The total radiated power is measured and computed. Through simulation and corroborating measurements, the dominant EMI coupling paths at high frequencies above 10 GHz are identified and characterized, and currents on the silicon photonic subassembly conductor housing and optical fiber connection ferrule are a dominant radiating source. EMI mitigation methods are developed and shown to be effective in reducing the radiated emissions from real product hardware.

Originalsprache	englisch
Aufsatznummer	7917374
Seiten (von - bis)	1848-1855
Seitenumfang	8
Fachzeitschrift	IEEE Transactions on Electromagnetic Compatibility
Jahrgang	59
Ausgabenummer	6
DOIs	https://doi.org/10.1109/TEMC.2017.2697761
Publikationsstatus	Veröffentlicht - 1 Dez. 2017
Extern publiziert	Ja

ASJC Scopus subject areas

Atom- und Molekularphysik sowie Optik
Physik der kondensierten Materie
Elektrotechnik und Elektronik

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title = "EMI Coupling Paths and Mitigation in Optical Transceiver Modules",

abstract = "Optical transceiver modules are commonly used in telecommunication and data communication systems, and are among the most troublesome electromagnetic interference (EMI) problems for regulatory compliance at their operation frequencies and/or harmonics. In this study, simulations and measurements are performed on an optical subassembly module, including the silicon photonics submodule assembly, in order to identify and characterize the EMI coupling paths. The total radiated power is measured and computed. Through simulation and corroborating measurements, the dominant EMI coupling paths at high frequencies above 10 GHz are identified and characterized, and currents on the silicon photonic subassembly conductor housing and optical fiber connection ferrule are a dominant radiating source. EMI mitigation methods are developed and shown to be effective in reducing the radiated emissions from real product hardware.",

keywords = "Electromagnetic interference (EMI) coupling paths, EMI sources, mitigation, optical transceiver modules, total radiated power (TRP)",

author = "Ling Zhang and Xiao Li and Xiangyang Jiao and Jing Li and Toor, {Sukhjinder S.} and Bhobe, {Alpesh U.} and Pommerenke, {David J.} and Drewniak, {James L.}",

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T1 - EMI Coupling Paths and Mitigation in Optical Transceiver Modules

AU - Zhang, Ling

AU - Li, Xiao

AU - Jiao, Xiangyang

AU - Li, Jing

AU - Toor, Sukhjinder S.

AU - Bhobe, Alpesh U.

AU - Pommerenke, David J.

AU - Drewniak, James L.

PY - 2017/12/1

Y1 - 2017/12/1

N2 - Optical transceiver modules are commonly used in telecommunication and data communication systems, and are among the most troublesome electromagnetic interference (EMI) problems for regulatory compliance at their operation frequencies and/or harmonics. In this study, simulations and measurements are performed on an optical subassembly module, including the silicon photonics submodule assembly, in order to identify and characterize the EMI coupling paths. The total radiated power is measured and computed. Through simulation and corroborating measurements, the dominant EMI coupling paths at high frequencies above 10 GHz are identified and characterized, and currents on the silicon photonic subassembly conductor housing and optical fiber connection ferrule are a dominant radiating source. EMI mitigation methods are developed and shown to be effective in reducing the radiated emissions from real product hardware.

AB - Optical transceiver modules are commonly used in telecommunication and data communication systems, and are among the most troublesome electromagnetic interference (EMI) problems for regulatory compliance at their operation frequencies and/or harmonics. In this study, simulations and measurements are performed on an optical subassembly module, including the silicon photonics submodule assembly, in order to identify and characterize the EMI coupling paths. The total radiated power is measured and computed. Through simulation and corroborating measurements, the dominant EMI coupling paths at high frequencies above 10 GHz are identified and characterized, and currents on the silicon photonic subassembly conductor housing and optical fiber connection ferrule are a dominant radiating source. EMI mitigation methods are developed and shown to be effective in reducing the radiated emissions from real product hardware.

KW - Electromagnetic interference (EMI) coupling paths

KW - EMI sources

KW - mitigation

KW - optical transceiver modules

KW - total radiated power (TRP)

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EMI Coupling Paths and Mitigation in Optical Transceiver Modules

Abstract

ASJC Scopus subject areas

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