DocumentCode
757804
Title
Development of a Time-Division Switching Network Usable in a Very Large Range of Capacities
Author
Charransol, Pierre ; Hauri, Jacques ; Athenes, C. ; Hardy, Daniel
Author_Institution
Thomson-CSF-STE, Colombes Cedex, France
Volume
27
Issue
7
fYear
1979
fDate
7/1/1979 12:00:00 AM
Firstpage
982
Lastpage
988
Abstract
Well adapted to medium size systems, the 
switching networks fully proved the operational value of the time division principles. For higher capacities, the more usual realizations are now STS and mainly TST networks. These are attractive as the growth of the equipment proportional to the square of the number of subscribers is limited to the intermediate stage (or stages). Drastic improvements in semiconductor technology, particularly in the memory field, allow another step: mixing in the same I.C. can, the and 
stages. In this concept, staggering or even functional discrimination of and appears to be useless and artificial. The resulting matrix circuit has quite symmetrical input-outputs and the multiple incoming bit positions are distributed to the output in whatever time and space arrangement that is needed. This paper describes the networks based on this concept.
switching networks fully proved the operational value of the time division principles. For higher capacities, the more usual realizations are now STS and mainly TST networks. These are attractive as the growth of the equipment proportional to the square of the number of subscribers is limited to the intermediate stage (or stages). Drastic improvements in semiconductor technology, particularly in the memory field, allow another step: mixing in the same I.C. can, the and stages. In this concept, staggering or even functional discrimination of and appears to be useless and artificial. The resulting matrix circuit has quite symmetrical input-outputs and the multiple incoming bit positions are distributed to the output in whatever time and space arrangement that is needed. This paper describes the networks based on this concept.Keywords
Time-division switching; Circuits; Communication switching; Helium; Intelligent networks; Large scale integration; Phase change materials; Sociotechnical systems; Speech; Switches; Symmetric matrices;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1979.1094521
Filename
1094521
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