Double Sheath Armored Outdoor CLT FO cable are typically used for outside plant (OSP) applications. These cables are suitable for direct burial as well as for duct/tray applications. This cable can be installed by trenching techniques. These cables can also be installed in ducts by standard pulling standard methods. This cable can be traced by means of metallic tracer machine in the field. The cable consists of color-coded optical fibers placed in a central tube along with gel to protect from water ingress and is surrounded with strength yarns which provides tensile strength to the core. Thermoplastic sheath over the dielectric armor layer makes the cable user friendly. The Fiber used in DME PROLINK’s Fiber Optic cables, are made of pure silica and germanium doped silica. A UV curable acrylate material is applied over the Fiber Cladding as primary protective coating. DME PROLINK quality personals ensures product reliability through rigorous qualification testing to assure cable performance and durability in adverse field environments. Excellent quality control is achieved through intense in-house quality check and stringent audit acceptance by ISO 9001.
Steel Tape Armor adds to crush resistance as well as can be used for cable locator after installation
PE Jacket provide Rodent Protection along with improved Crush and Impact Protection
UV Protected
Easily removable rugged thermoplastic jacket
Flexible, Light weight, easy to handle & install
Excellent Tensile strength and Crush resistant
IEC 60793-1: Optical Fiber Part 1: Generic Specification
IEC 60793-2: Optical Fiber Part 2: Product Specification
IEC 60794
ANSI/ICEA S-87-640
Telcordia GR-20
ITU-T / RoHS / REACH
Temperature Performance (IEC 60794-1-22-F1)
Max. change in attenuation shall be </= 0.15 dB/km Installation -10° to +70°C Operation -40° to +70°C Storage -40° to +70°C
Tensile Strength Short Term (IEC 60794-1-2-E1)
1000N
Tensile Strength Long Term (IEC 60794-1-2-E1)
500N
Crush Resistance (IEC 60794-1-2-E3)
2000N/100mm
Impact Resistance (IEC 60794-1-2-E4)
5 Nm
Torsion (IEC 60794-1-21-E7)
±180º
Min. Bend Radius During Installation (IEC 60794-1-21-E11)
20 D
Min. Bend Radius After Installation (IEC 60794-1-21-E11)
15 D
Water Penetration Test (IEC-60794-1-22-F5)
1m waterhead, 3m samples, 24 h
Drip Test (IEC-60794-1-21-E14)
30 cm, 70ºC, 24 h
1
2
3
4
Blue
Orange
Green
Brown
Fiber count
4
Fiber Type
ITU-T G.652D
Maximum Cabled Attenuation (dB/km)
1310nm: 0.35 | 1550nm: 0.23
PMD LDV (ps/sqrt.km)
</= 0.1
Fibers per Tube
4
Fibre Color Sequence
Blue, Orange, Green, Brown
Peripheral Strength Member
Glass Roving Yarns
Inner Sheath Material
Black HDPE
No. of Ripcords below Inner Sheath
2
Metallic Armoring
Corrugated Steel Tape
No. of Ripcords below Tape
2
Outer Sheath Material
UV Proof HDPE (Black)
Cable OD
10.5 ± 0.5mm
Cable weight
122 kg/km ± 10%
Cable Length
6KM ± 5%
D117-D047PEUPEST2DB
DME PROLINK ™ Double Sheath Armored (Corrugated Steel Tape) Outdoor Fiber Optic Cable, 4 core, Central Loose Tube, SM-G.652D, Inner Sheath: HDPE and Outer Sheath: UV Proof HDPE, Black
Double Sheath Armored Outdoor CLT FO cable are typically used for outside plant (OSP) applications. These cables are suitable for direct burial as well as for duct/tray applications. This cable can be installed by trenching techniques. These cables can also be installed in ducts by standard pulling standard methods. This cable can be traced by means of metallic tracer machine in the field. The cable consists of color-coded optical fibers placed in a central tube along with gel to protect from water ingress and is surrounded with strength yarns which provides tensile strength to the core. Thermoplastic sheath over the dielectric armor layer makes the cable user friendly. The Fiber used in DME PROLINK’s Fiber Optic cables, are made of pure silica and germanium doped silica. A UV curable acrylate material is applied over the Fiber Cladding as primary protective coating. DME PROLINK quality personals ensures product reliability through rigorous qualification testing to assure cable performance and durability in adverse field environments. Excellent quality control is achieved through intense in-house quality check and stringent audit acceptance by ISO 9001.
