DocumentCode
1280730
Title
Process control using a fiber-optic unified cabling systems
Author
Byres, Eric J. ; Mitchell, Colin
Author_Institution
British Columbia Inst. of Technol., Burnaby, BC, Canada
Volume
8
Issue
3
fYear
2002
Firstpage
57
Lastpage
61
Abstract
In an ideal world, communications cabling for process control would be simple-buy all the computer, instrumentation, and electrical equipment from a single vendor, and connect it all together using a single cabling standard. But real life is never that simple; rarely are the programmable logic controllers (PLC), distributed control systems (DCS), drives, motor controls, field instrumentation, and computers all purchased from the same vendor. Supplying power to all this different equipment certainly doesn\´t require separate cabling structures, so why shouldn\´t the same be true for communications needs? Wouldn\´t a standard cabling infrastructure minimize the cabling infrastructure cost and complexity? The engineering group of a Canadian pulp and paper mill wondered about these two questions. They were designing a new steam plant and decided to investigate the possibility of making a single process communication cabling "utility" through the plant. The result was a design methodology that allowed a standardized cabling system to serve all communications needs throughout the process areas. Fiber-optic cable was chosen for all communications cabling outside of the control or electrical rooms. While the noise immunity and high data carrying capacity of fiber-optic cable was a factor, the primary reason was that fiber-optic cabling was the only system that could provide a single medium suitable for the very wide range of communications equipment in the mill
Keywords
data communication; optical cables; paper industry; process control; Canada; distributed control systems; fiber-optic unified cabling systems; field instrumentation; high data carrying capacity; noise immunity; process control; programmable logic controllers; pulp and paper mill; single process communication cabling utility; standard cabling infrastructure; standardized cabling system; Communication cables; Communication standards; Distributed control; Drives; Instruments; Optical fiber cables; Optical fiber communication; Optical fiber devices; Process control; Programmable control;
fLanguage
English
Journal_Title
Industry Applications Magazine, IEEE
Publisher
ieee
ISSN
1077-2618
Type
jour
DOI
10.1109/2943.999614
Filename
999614
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