The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Este artigo descreve técnicas de projeto para suprimir diafonia em um módulo transceptor óptico usando tecnologias de integração híbrida PLC e para obter operação em modo burst com alta sensibilidade e ampla faixa dinâmica usando tecnologias CMOS-IC. Um arranjo que reduz a diafonia elétrica para menos de -100 dB foi projetado usando análise de campo eletromagnético tridimensional. As configurações de um circuito driver CMOS LD de resposta instantânea recentemente desenvolvido também são descritas e as técnicas do circuito receptor CMOS de resposta instantânea são revisadas. Com essas técnicas, conseguimos construir módulos transceptores ópticos para sistemas ATM-PON usando integração híbrida PLC e processos de fabricação CMOS-IC padrão de baixo custo. Sob operação full-duplex a 156 Mb/s, os módulos transceptores fabricados mostraram sensibilidade do receptor melhor que -34 dBm e faixa dinâmica superior a 28 dB, que satisfazem as especificações de classe B e classe C recomendadas pela ITU-T (International União de Telecomunicações - Setor de Normalização de Telecomunicações) G983.1 para o módulo transceptor óptico para uma ONU (unidade de rede óptica).
Takeshi KUROSAKI
Toshikazu HASHIMOTO
Noboru ISHIHARA
Yasuhiro SUZUKI
Masahiro YANAGISAWA
Hideaki KIMURA
Makoto NAKAMURA
Yuichi TOHMORI
Kazutoshi KATO
Yoshihiro KAWAGUCHI
Yuji AKAHORI
Yasufumi YAMADA
Kuniharu KATO
Hiromu TOBA
Junichi YOSHIDA
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Takeshi KUROSAKI, Toshikazu HASHIMOTO, Noboru ISHIHARA, Yasuhiro SUZUKI, Masahiro YANAGISAWA, Hideaki KIMURA, Makoto NAKAMURA, Yuichi TOHMORI, Kazutoshi KATO, Yoshihiro KAWAGUCHI, Yuji AKAHORI, Yasufumi YAMADA, Kuniharu KATO, Hiromu TOBA, Junichi YOSHIDA, "1.3/1.55-µm Full-Duplex WDM Optical Transceiver Modules for ATM-PON (PDS) Systems Using PLC-Hybrid-Integration and CMOS-IC Technologies" in IEICE TRANSACTIONS on Communications,
vol. E82-B, no. 8, pp. 1199-1208, August 1999, doi: .
Abstract: This paper describes design techniques for suppressing crosstalk in an optical transceiver module using PLC-hybrid-integration technologies and for achieving burst-mode operation with high sensitivity and wide dynamic range using CMOS-IC technologies. An arrangement that reduces the electrical crosstalk to less than -100 dB was designed using three-dimensional electromagnetic field analysis. The configurations of a newly developed instantaneous-response CMOS LD driver circuit is also described and instantaneous-response CMOS receiver circuit techniques are reviewed. With these techniques, we have succeeded in building optical transceiver modules for ATM-PON systems using PLC-hybrid-integration and inexpensive standard CMOS-IC fabrication processes. Under full-duplex operation at 156 Mb/s, fabricated transceiver modules showed receiver sensitivity of better than -34 dBm and dynamic range of over 28 dB, which satisfy both the class-B and class-C specifications recommended by ITU-T (International Telecommunication Union-Telecommunication standardization sector) G983.1 for the optical transceiver module for an ONU (optical network unit).
URL: https://global.ieice.org/en_transactions/communications/10.1587/e82-b_8_1199/_p
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@ARTICLE{e82-b_8_1199,
author={Takeshi KUROSAKI, Toshikazu HASHIMOTO, Noboru ISHIHARA, Yasuhiro SUZUKI, Masahiro YANAGISAWA, Hideaki KIMURA, Makoto NAKAMURA, Yuichi TOHMORI, Kazutoshi KATO, Yoshihiro KAWAGUCHI, Yuji AKAHORI, Yasufumi YAMADA, Kuniharu KATO, Hiromu TOBA, Junichi YOSHIDA, },
journal={IEICE TRANSACTIONS on Communications},
title={1.3/1.55-µm Full-Duplex WDM Optical Transceiver Modules for ATM-PON (PDS) Systems Using PLC-Hybrid-Integration and CMOS-IC Technologies},
year={1999},
volume={E82-B},
number={8},
pages={1199-1208},
abstract={This paper describes design techniques for suppressing crosstalk in an optical transceiver module using PLC-hybrid-integration technologies and for achieving burst-mode operation with high sensitivity and wide dynamic range using CMOS-IC technologies. An arrangement that reduces the electrical crosstalk to less than -100 dB was designed using three-dimensional electromagnetic field analysis. The configurations of a newly developed instantaneous-response CMOS LD driver circuit is also described and instantaneous-response CMOS receiver circuit techniques are reviewed. With these techniques, we have succeeded in building optical transceiver modules for ATM-PON systems using PLC-hybrid-integration and inexpensive standard CMOS-IC fabrication processes. Under full-duplex operation at 156 Mb/s, fabricated transceiver modules showed receiver sensitivity of better than -34 dBm and dynamic range of over 28 dB, which satisfy both the class-B and class-C specifications recommended by ITU-T (International Telecommunication Union-Telecommunication standardization sector) G983.1 for the optical transceiver module for an ONU (optical network unit).},
keywords={},
doi={},
ISSN={},
month={August},}
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TY - JOUR
TI - 1.3/1.55-µm Full-Duplex WDM Optical Transceiver Modules for ATM-PON (PDS) Systems Using PLC-Hybrid-Integration and CMOS-IC Technologies
T2 - IEICE TRANSACTIONS on Communications
SP - 1199
EP - 1208
AU - Takeshi KUROSAKI
AU - Toshikazu HASHIMOTO
AU - Noboru ISHIHARA
AU - Yasuhiro SUZUKI
AU - Masahiro YANAGISAWA
AU - Hideaki KIMURA
AU - Makoto NAKAMURA
AU - Yuichi TOHMORI
AU - Kazutoshi KATO
AU - Yoshihiro KAWAGUCHI
AU - Yuji AKAHORI
AU - Yasufumi YAMADA
AU - Kuniharu KATO
AU - Hiromu TOBA
AU - Junichi YOSHIDA
PY - 1999
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E82-B
IS - 8
JA - IEICE TRANSACTIONS on Communications
Y1 - August 1999
AB - This paper describes design techniques for suppressing crosstalk in an optical transceiver module using PLC-hybrid-integration technologies and for achieving burst-mode operation with high sensitivity and wide dynamic range using CMOS-IC technologies. An arrangement that reduces the electrical crosstalk to less than -100 dB was designed using three-dimensional electromagnetic field analysis. The configurations of a newly developed instantaneous-response CMOS LD driver circuit is also described and instantaneous-response CMOS receiver circuit techniques are reviewed. With these techniques, we have succeeded in building optical transceiver modules for ATM-PON systems using PLC-hybrid-integration and inexpensive standard CMOS-IC fabrication processes. Under full-duplex operation at 156 Mb/s, fabricated transceiver modules showed receiver sensitivity of better than -34 dBm and dynamic range of over 28 dB, which satisfy both the class-B and class-C specifications recommended by ITU-T (International Telecommunication Union-Telecommunication standardization sector) G983.1 for the optical transceiver module for an ONU (optical network unit).
ER -