DocumentCode
1649584
Title
New developments in batteries for fiber-in-the-loop applications
Author
Bullock, Kathryn R. ; Fent, Douglas G. ; Ng, Patrick K.
Author_Institution
AT&T Bell Labs., Mesquite, TX, USA
fYear
1995
Firstpage
690
Lastpage
696
Abstract
The rapid deployment of power in uncontrolled environments and unusual installation configurations for fiber-in-the-loop applications is posing new challenges to battery and battery system designers. Battery string voltages and discharge rates are also higher than in traditional telecommunications applications. Battery materials and designs must be chosen to withstand extreme temperatures, and manufacturing processes must provide greater product uniformity to enhance battery life. At the same time, the system must be designed to control the charging currents even at extreme temperatures under fault conditions to avoid catastrophic failures such as shorting and thermal runaway. The authors describe how a slope/plateau/step approach to temperature compensation and a current limiter are two ways to control the charging currents and extend battery life. With careful system design, valve-regulated lead-acid batteries are the best power source in the near term
Keywords
design engineering; lead; optical fibre subscriber loops; secondary cells; telecommunication power supplies; Pb; battery life; battery string voltages; charging currents; current limiter; designs; developments; discharge rates; fault conditions; fiber-in-the-loop; secondary batteries; shorting; slope/plateau/step approach; telecommunication applications; temperature compensation; thermal runaway; valve-regulated Pb-acid batteries; Batteries; Cadmium; Costs; Fault location; Manufacturing industries; Nickel; Optical fiber subscriber loops; Portable computers; Temperature control; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
Telecommunications Energy Conference, 1995. INTELEC '95., 17th International
Conference_Location
The Hague
Print_ISBN
0-7803-2750-0
Type
conf
DOI
10.1109/INTLEC.1995.499033
Filename
499033
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