This paper describes the implementation and evaluation of the switching network equipment of a 620-Mb/s circuit-switching system, which will economically provide both 4-MHz bandwidth television and high-definition television services. A bit-synchronization LSI capable of handling 52-Mb/s, 155-Mb/s, and 620-Mb/s input signals was developed for this equipment. This LSI together with a 1.5-Gb/s space-division switch LSI and high-speed physical design technology were used in constructing a prototype. A feature of this prototype is that it is designed with multiple printed circit boards which plug into a back panel. Although a switching board that can deal with over 620 Mb/s has previouly been developed, such an implementation is new. Evaluation of the prototype shows that it satisfies the system objectives.
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Kazuhiro HIRAIDE, Yoshihiro OTSUKA, Kenjiro MURAKAMI, "620-Mb/s Circuit-Switching Network Equipment Implementation and Evaluation" in IEICE TRANSACTIONS on Communications,
vol. E74-B, no. 8, pp. 2268-2275, August 1991, doi: .
Abstract: This paper describes the implementation and evaluation of the switching network equipment of a 620-Mb/s circuit-switching system, which will economically provide both 4-MHz bandwidth television and high-definition television services. A bit-synchronization LSI capable of handling 52-Mb/s, 155-Mb/s, and 620-Mb/s input signals was developed for this equipment. This LSI together with a 1.5-Gb/s space-division switch LSI and high-speed physical design technology were used in constructing a prototype. A feature of this prototype is that it is designed with multiple printed circit boards which plug into a back panel. Although a switching board that can deal with over 620 Mb/s has previouly been developed, such an implementation is new. Evaluation of the prototype shows that it satisfies the system objectives.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e74-b_8_2268/_p
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@ARTICLE{e74-b_8_2268,
author={Kazuhiro HIRAIDE, Yoshihiro OTSUKA, Kenjiro MURAKAMI, },
journal={IEICE TRANSACTIONS on Communications},
title={620-Mb/s Circuit-Switching Network Equipment Implementation and Evaluation},
year={1991},
volume={E74-B},
number={8},
pages={2268-2275},
abstract={This paper describes the implementation and evaluation of the switching network equipment of a 620-Mb/s circuit-switching system, which will economically provide both 4-MHz bandwidth television and high-definition television services. A bit-synchronization LSI capable of handling 52-Mb/s, 155-Mb/s, and 620-Mb/s input signals was developed for this equipment. This LSI together with a 1.5-Gb/s space-division switch LSI and high-speed physical design technology were used in constructing a prototype. A feature of this prototype is that it is designed with multiple printed circit boards which plug into a back panel. Although a switching board that can deal with over 620 Mb/s has previouly been developed, such an implementation is new. Evaluation of the prototype shows that it satisfies the system objectives.},
keywords={},
doi={},
ISSN={},
month={August},}
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TY - JOUR
TI - 620-Mb/s Circuit-Switching Network Equipment Implementation and Evaluation
T2 - IEICE TRANSACTIONS on Communications
SP - 2268
EP - 2275
AU - Kazuhiro HIRAIDE
AU - Yoshihiro OTSUKA
AU - Kenjiro MURAKAMI
PY - 1991
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E74-B
IS - 8
JA - IEICE TRANSACTIONS on Communications
Y1 - August 1991
AB - This paper describes the implementation and evaluation of the switching network equipment of a 620-Mb/s circuit-switching system, which will economically provide both 4-MHz bandwidth television and high-definition television services. A bit-synchronization LSI capable of handling 52-Mb/s, 155-Mb/s, and 620-Mb/s input signals was developed for this equipment. This LSI together with a 1.5-Gb/s space-division switch LSI and high-speed physical design technology were used in constructing a prototype. A feature of this prototype is that it is designed with multiple printed circit boards which plug into a back panel. Although a switching board that can deal with over 620 Mb/s has previouly been developed, such an implementation is new. Evaluation of the prototype shows that it satisfies the system objectives.
ER -