Modeling and O/E characterization of 40-Gbps InGaAs side-illuminated waveguide photodiode and submodule for optical receivers

Su Chang Jeon, Han Sung Joo, Bongyong Lee, Joong Seon Choe, Yong Hwan Kwon, Ilgu Yun

Research output: Contribution to journalConference article

Abstract

With the need of high-speed and mass data transmission, optical communication system requires the growth of optical components. Waveguide photodiodes (WGPDs) are introduced and the circuit models of the WGPD and the WGPD submodule are required for the optical receiver application. In this paper, the circuit models of the WGPD and the WGPD submodule are investigated using the partial element equivalent circuit (PEEC) methodology by optimizing the measured s-parameters. In addition, the optical to electrical (O/E) conversion characteristics of the WGPD and the WGPD submodule are examined with the established WGPD models. The physical variation of the WGPD in the presence of optical source is also examined.

Original languageEnglish
Pages (from-to)100-105
Number of pages6
JournalProceedings of the IEEE/CPMT International Electronics Manufacturing Technology (IEMT) Symposium
Volume29
Publication statusPublished - 2004 Oct 8
EventIEEE/CPMT/SEMI 29th International Electronics Manufacturing Technology Symposium - San Jose, CA, United States
Duration: 2004 Jul 142004 Jul 16

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Optical receivers
Photodiodes
Waveguides
Networks (circuits)
Optical communication
Equivalent circuits
Data communication systems
Light sources
Communication systems

All Science Journal Classification (ASJC) codes

  • Industrial and Manufacturing Engineering
  • Electrical and Electronic Engineering

Cite this

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title = "Modeling and O/E characterization of 40-Gbps InGaAs side-illuminated waveguide photodiode and submodule for optical receivers",
abstract = "With the need of high-speed and mass data transmission, optical communication system requires the growth of optical components. Waveguide photodiodes (WGPDs) are introduced and the circuit models of the WGPD and the WGPD submodule are required for the optical receiver application. In this paper, the circuit models of the WGPD and the WGPD submodule are investigated using the partial element equivalent circuit (PEEC) methodology by optimizing the measured s-parameters. In addition, the optical to electrical (O/E) conversion characteristics of the WGPD and the WGPD submodule are examined with the established WGPD models. The physical variation of the WGPD in the presence of optical source is also examined.",
author = "Jeon, {Su Chang} and Joo, {Han Sung} and Bongyong Lee and Choe, {Joong Seon} and Kwon, {Yong Hwan} and Ilgu Yun",
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pages = "100--105",
journal = "Proceedings of the IEEE/CPMT International Electronics Manufacturing Technology (IEMT) Symposium",
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Modeling and O/E characterization of 40-Gbps InGaAs side-illuminated waveguide photodiode and submodule for optical receivers. / Jeon, Su Chang; Joo, Han Sung; Lee, Bongyong; Choe, Joong Seon; Kwon, Yong Hwan; Yun, Ilgu.

In: Proceedings of the IEEE/CPMT International Electronics Manufacturing Technology (IEMT) Symposium, Vol. 29, 08.10.2004, p. 100-105.

Research output: Contribution to journalConference article

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T1 - Modeling and O/E characterization of 40-Gbps InGaAs side-illuminated waveguide photodiode and submodule for optical receivers

AU - Jeon, Su Chang

AU - Joo, Han Sung

AU - Lee, Bongyong

AU - Choe, Joong Seon

AU - Kwon, Yong Hwan

AU - Yun, Ilgu

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AB - With the need of high-speed and mass data transmission, optical communication system requires the growth of optical components. Waveguide photodiodes (WGPDs) are introduced and the circuit models of the WGPD and the WGPD submodule are required for the optical receiver application. In this paper, the circuit models of the WGPD and the WGPD submodule are investigated using the partial element equivalent circuit (PEEC) methodology by optimizing the measured s-parameters. In addition, the optical to electrical (O/E) conversion characteristics of the WGPD and the WGPD submodule are examined with the established WGPD models. The physical variation of the WGPD in the presence of optical source is also examined.

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