ÎÊÏ * 4 – 7 ÒÓ Ó 31.3-00214534-036-2004 |
Fiber optic module-core cables, galvanized steel-wire armoured, with polyethylene outer sheath |
Mark formation: |
ÎÊÏ-[a]-[b] [c]4([d]x[e]+[f])-7 |
[a] central strength element |
• C – steel |
• No marks – dielectric |
[b] quantity of optical fibers in the cable, possible values |
• 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 28, 30, 32, 52, 56, 60, 64 |
[c] type of optical fiber |
• E – single-mode (ITU-T G.652B) |
• A – single-mode with extended wavelength band (ITU-T G.652D, ITU-T G.657A1) |
• C – single-mode with non-zero shifted dispersion (ITU-T G.655) |
• M – multimode with core and sheath diameter ratio 50 : 125 mm (ITU-T G.651) |
• B – multimode with core and sheath diameter ratio 62.5 : 125 mm (IEC 60793-2) |
[d] 1 ... 4 – number of optical modules in cable |
[e] quantity of optical fibers in the module: |
• 1 ... 16 |
(f) quantity of insulated copper conductors in cable |
Optical modules are completed with string fillers up to total number of core elements |
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Manufacturing of cables with two copper insulated remote power conductors instead of two string fillers is possible |
Manufacturing of cables in climate version F is possible |
Manufacturing of cables with steel strength element is possible |
Manufacturing of cables with flame-retardant polymer compound outer sheath is possible |
Manufacturing of cables with allowable tensile force 10 kN is possible |
It is possible to manufacture cables with gel-filled core or dry core (with water-blocking yarns and tapes) |
It is possible to manufacture cables with a number of core elements up to and including 18 |
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Order placing: sample of indication (corresponds to configuration pattern) |
ÎÊÏ-10A4(2x4+1x2)-7 • ÒÓ Ó 31.3-00214534-036-2004 |
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Cables are used for: |
• mechanical laying in soils of all categories (except for soils subjected to cryosolic and other distortions) and groups in open trench; in cable ducts, pipes, blocks; under impact of significant tensile forces on cable |