Communications Cable-Flame Retardant Separator
First Claim
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1. A communication cable comprising:
- a. a plurality of twisted pair conductors, each of the twisted pair conductors including a pair of individually insulated metal conductors that are twisted together to form one of the plurality of twisted pair conductors;
b. a separator(i) being prepared from a separator composition(1) comprising(A1) a polyolefin and(A2) a flame retardant and(2) having a peak heat release rate (PHRR) less than about 330 kW/m2, a total smoke released (TSR) of less than about 1150 m2/m2, a time to peak heat release (TTPHRR) of greater than about 75 seconds, and a time to ignition (TTI) of greater than about 20 seconds when measured using cone calorimetry with a heat flux of 80 kW/m2 and a sample thickness of 1.3 mm and(ii) having(1) a plurality of outwardly protruding projections angularly spaced about a core, the plurality of outwardly protruding projections protruding radially from the core and defining regions between adjacent ones of the outwardly protruding projections within each of which one of the plurality of twisted pair conductors is contained,(2) a dielectric constant less than or equal to about 3.3 measured at 1 MHz, and(3) a dissipation factor less than or equal to about 0.006; and
c. a communication cable jacket enclosing the plurality of twisted pair conductors separated by the plurality of outwardly protruding projections of the separator,wherein the communication cable passes the requirements of NFPA-262.
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Abstract
The present invention is a communication cable comprising a plurality of twisted pair conductors, a separator, and a communication cable jacket enclosing the plurality of twisted pair conductors and the separator. The communication cable passes the requirements of NFPA-262. In particular, the separator is polyolefin-based and achieves the desired electrical and flame retardant properties. The present invention is also a method for selecting a composition for preparing the separator and a method for preparing a communications cable therefrom.
20 Citations
9 Claims
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1. A communication cable comprising:
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a. a plurality of twisted pair conductors, each of the twisted pair conductors including a pair of individually insulated metal conductors that are twisted together to form one of the plurality of twisted pair conductors; b. a separator (i) being prepared from a separator composition (1) comprising (A1) a polyolefin and (A2) a flame retardant and (2) having a peak heat release rate (PHRR) less than about 330 kW/m2, a total smoke released (TSR) of less than about 1150 m2/m2, a time to peak heat release (TTPHRR) of greater than about 75 seconds, and a time to ignition (TTI) of greater than about 20 seconds when measured using cone calorimetry with a heat flux of 80 kW/m2 and a sample thickness of 1.3 mm and (ii) having (1) a plurality of outwardly protruding projections angularly spaced about a core, the plurality of outwardly protruding projections protruding radially from the core and defining regions between adjacent ones of the outwardly protruding projections within each of which one of the plurality of twisted pair conductors is contained, (2) a dielectric constant less than or equal to about 3.3 measured at 1 MHz, and (3) a dissipation factor less than or equal to about 0.006; and c. a communication cable jacket enclosing the plurality of twisted pair conductors separated by the plurality of outwardly protruding projections of the separator, wherein the communication cable passes the requirements of NFPA-262. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for preparing a NFPA-262 communication cable comprising the steps of:
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a. selecting a separator composition (i) comprising a polyolefin and a flame retardant and (ii) having a peak heat release rate (PHRR) less than about 330 kW/m2, a total smoke released (TSR) of less than about 1150 m2/m2, a time to peak heat release (TTPHRR) of greater than about 75 seconds, and a time to ignition (TTI) of greater than about 20 seconds when measured using cone calorimetry with a heat flux of 80 kW/m2 and a sample thickness of 1.3 mm; b. preparing a plurality of twisted pair conductors, each of the twisted pair conductors including a pair of individually insulated metal conductors that are twisted together to form one of the plurality of twisted pair conductors; c. preparing a separator, from the separator composition, having (1) a plurality of outwardly protruding projections angularly spaced about a core, the plurality of outwardly protruding projections protruding radially from the core and defining regions between adjacent ones of the outwardly protruding projections within each of which one of the plurality of twisted pair conductors is contained, (2) a dielectric constant less than or equal to about 3.3 measured at 1 MHz, and (3) a dissipation factor less than or equal to about 0.006; and d. separating the plurality of twisted pair conductors by the plurality of outwardly protruding projections of the separator, and e. enclosing with a communication cable jacket the plurality of twisted pair conductors separated by the plurality of outwardly protruding projections of the separator.
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Specification
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Current AssigneeUnion Carbide Chemicals & Plastics Technology LLC (Dow, Inc.)
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Original AssigneeUnion Carbide Chemicals & Plastics Technology LLC (Dow, Inc.)
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InventorsJow, Jinder, Cogen, Jeffrey M.
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Application NumberUS11/659,580Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current174/113CCPC Class CodesH01B 11/04 with pairs or quads mutuall...H01B 7/295 using material resistant to...
