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Double PE Sheath Steel Wire Armoured 2-288 Core Fiber Optic Cable GYTY53
The fibers, 250μm, are positioned in a loose tube made of a high modulus plastic. The tubes are filled with a water-resistant filling compound. A steel wire, sometimes sheathed with polyethylene (PE) for cable with high fiber count, locates in the center of core as a metallic strength member. Tubes (and fillers) are stranded around the strength member into a compact and circular cable core. The cable core is filled with the filling compound to protect it from water ingress, over which a thin PE inner sheath is applied. After the PSP is longitudinally applied over the inner sheath, the cable is completed with a PE outer sheath.
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Features
Good mechanical and temperature performance
High strength loose tube that is hydrolysis resistant
Special tube filling compound ensure a critical protection of fiber
Crush resistance and flexibility
PE/LSZH sheath protects cable from ultraviolet radiation
100% cable core filling
Armored construction provides additional crush and rodent protection
Suitable for outdoor aerial, duct, direct buried installation method.
GYTY53 cable complies with Standard YD/T 769-2003.
Storage/Operating Temperature: -40°C to + 70°C
Optical Characteristics:
| G.652 | G.655 | 50/125μm | 62.5/125μm | ||
| Attenuation (+20℃) | @850nm | ≤3.0dB/km | ≤3.0dB/km | ||
| @1300nm | ≤1.0dB/km | ≤1.0dB/km | |||
| @1310nm | ≤0.36dB/km | ||||
| @1550nm | ≤0.22dB/km | ≤0.23dB/km | |||
| Bandwidth(Class A) | @850nm | ≥500MHz·km | ≥200MHz·km | ||
| @1300nm | ≥1000MHz·km | ≥600MHz·km | |||
| Numerical Aperture | 0.200±0.015NA | 0.275±0.15NA | |||
| Cable Cut-off Wave length | ≤1260nm | ||||
Structure and Technical Specifications
| increasad by 2fibers | fiber count | tutubes+fillers | Max.No of fibers in tube | cable diameter(mm) | cable weight(kg/km) | strength long/short term(N) | crush resistabce long/short term(N/100mm) |
| GYTA53-2~36Xn | 2~36 | 6 | 6 | 13.2 | 198
| 1000/3000 | 1000/3000 |
| GYTA53-38~72Xn | 38~72 | 6 | 12 | 14.8 | 240 | 1000/3000 | 1000/3000 |
| GYTA53-74~96Xn | 74~96 | 8 | 12 | 16.2 | 260 | 1000/3000 | 1000/3000 |
| GYTA53-98~120Xn | 98~120 | 10 | 12 | 17.8 | 320 | 1000/3000 | 1000/3000 |
| GYTA53-122~144Xn | 122~144 | 12 | 12 | 19.6 | 380 | 1000/3000 | 1000/3000 |
| GYTA53-146~216Xn | 144~216 | 18 | 12 | 19.6 | 388 | 1000/3000 | 1000/3000 |
Note:1.suffix Xn denotes fiber type and see details in FOCC's cable coding illustration
2.the colour arrangement of fiber and tube is specified in the colour identification table.
Fiber coloure Identification of loose tube with FOCC
the fibers in cables can be identified by standard colour identification in compliance with YD/T901-2001 Standard.
Standard colour Identification
Note: A. when the fiber count of one loose tube is less than 12, the fibers are identified form the NO.1 colour on a stream.
B.in standard colour identification, the NO.6 white colour could be replaced by nature colour,which called standard colour identification W.
The coloure Identification of loose tubes in cable
the loose rubes in cable can be identified by pan-chromatograph
Pilot chromatograph
Pan-chromatograph
Application:
Long distance and local area network (LAN) communication.
Aerial & conduit / duct application.
