This cable has been designed for long haul direct / backbone application. Our stranded loose tube design provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. Direct Buried type Fiber Optical Cables are designed for easy and economical installation.
The stranded loose tubes contain thixotropic jelly but the cable core is based on dry-block construction. Incorporation of Dry Water Block Technology eliminates the need for traditional jelly filled water blocking methods, thus providing efficient and craft-friendly cable installation.
The thixotropic jelly is used to fill the buffer tubes to prevent water ingress. Steel Tape Armoring provides a rodent protection, length markings in meters for easy determination of cable length. Extra Strength cable can also be delivered with Peripheral Strength Members.
Features & Application
òExcellent optical, mechanical & environmental performance
òHigh strength-to-weight ratio
òCSM dielectric type û Fiber Reinforced Plastic
òDry block construction
òHigh tensile strength
òHigh crush strength
òCorrosion resistance
òKINK resistance
òVery light weight
òVery flexible & small bending radius
òLong haul / backbone application
òJunction communication systems
òAll dielectric applications
òCATV applications.
Construction Parameters
Fiber Count 02 û 144 Fibers
Color of Loose Tube Blue , Orange , Green , Brown , Grey , White, Red & Black
Loose Tube Material Polybutylene Terephthalate (PBT)
Loose Tube Filling Material Thixotropic Jelly
Filler Material Medium Density/High Density Polyethylene (MDPE/HDPE)
Central Strength Member Fiber Reinforced Plastic (FRP) û Non Metallic
Core Moisture Protection Methodology Dry Block Design, Water Blocking Yarns/Tapes
Second (Outer) Sheath Material High Density Polyethylene (HDPE)
Printing on Outer Sheath Engraved Hot Foil or Inkjet Printing
Nominal Cable Delivery Length (km) 4 KM ¦ 3%.
This cable has been designed for long haul direct / backbone application. Our stranded loose tube design provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. Direct buried type fiber optical cable are designed for easy and economical installation.
The stranded loose tubes contain thixotropic jelly but the cable core is based on dry-block construction. Incorporation of dry water block technology eliminates the need for traditional jelly filled water blocking methods, thus providing efficient and craft-friendly cable installation.
The thixotropic jelly is used to fill the buffer tubes to prevent water ingress. Steel tape armoring provides a rodent protection, length markings in meters for easy determination of cable length. Extra strength cable can also be delivered with peripheral strength members.
Features & application
Excellent optical, mechanical & environmental performance
High strength-to-weight ratio
Csm dielectric type û fiber reinforced plastic
Dry block construction
High tensile strength
High crush strength
Corrosion resistance
Kink resistance
Very light weight
Very flexible & small bending radius
Long haul / backbone application
Junction communication systems
All dielectric applications
Catv applications.
Construction Parameters
Fiber Count As per CustomerÆs Requirement
No. of Loose Tube As per CustomerÆs Requirement
G.655 As per CustomerÆs Requirement
G.652 As per CustomerÆs Requirement
Loose Tube Material Polybutylene Terephthalate (PBT)
Loose Tube Filling Material Thixotropic Jelly
Filler Material Medium Density/High Density Polyethylene (MDPE/HDPE)
Central Strength Member Fiber/Glass Reinforced Plastic (FRP/GRP)
Armoring Corrugated Steel Tape Armoring
Peripheral Strength Member (if required) Aramid / Glass Yarn
Core Moisture Protection Methodology Dry Block Design, Water Blocking Yarns/Tapes
Outer Sheath Material High Density Polyethylene (HDPE)
Printing on Outer Sheath Engraved Hot Foil or Inkjet Printing
Nominal Cable Delivery Length (km) 4 KM ¦ 3%.
Product description
This cable has been designed for aerial application with flat type construction. Our stranded loose tube design provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. This aerial type fiber cable is designed for easy and economical installation with a sufficient tensile strength to overcome wind pressures and ice loadings.
Features & application
Excellent optical, mechanical & environmental performance
Csm dielectric type û fiber reinforced plastic
High tensile strength
High crush strength
Aerial application
Application in lan, wan, especially in ftth networks
Easy to clamp and install
Can bear ice loads and high wind pressures.
Construction Parameters
Fiber Count 02 to 12 Fiber
Fiber Type G.652.D
Loose Tube Material Polybutylene Terephthalate (PBT)
Loose Tube Filling Material Thixotropic Jelly
Sheath Material High Density Polyethylene (HDPE)
Printing on Outer Sheath Engraved Hot Foil or Inkjet Printing
Nominal Dimensions Width : 7.0 + 0.5mm , Height : 3.5 + 0.3mm
Nominal Cable Delivery Length (km) 2 KM + 3% .
Mechanical Characteristics
Tensile Strength (N) 600
Tensile Strength (N) (Installation) 1000
Crush Strength (N) 2,000
Minimum Bending Radius (mm) 75
Temperature Operating Range -10 to +70¦C.
Product description
This product description is for 08 fiber single mode double armored optical fiber cable designed to meet the technical requirements as mentioned as per specification documents, it fulfills the design for the applications desired therein. The design is based on stranded loose tube which provides stable performance over a wide temperature range and is compatible with any telecommunications-grade optical fiber. This cable is suitable for both duct and direct buried applications, it provides extra strength and rodent protection by using double armor and two inner coats. The stranded loose tubes contain thixotropic jelly for protection of the optical fibers as required. The thixotropic jelly protects the fibers within the loose tubes and provides excellent quality filling compound for stopping ingress/transport of water into the cable. The product is manufactured on itu-t g.652.D fiber. It facilitates easy and economical installation.
Features & application
Excellent optical, mechanical & environmental performance
High strength-to-weight ratio
Csm dielectric type v fiber reinforced plastic
Dry block construction
High tensile strength
High crush strength
Corrosion resistance
Kink resistance
Very light weight
Very flexible & small bending radius
Long haul / backbone application
Junction communication systems
All dielectric applications
Catv applications.
Construction parameters
Fiber count as per customer¦s requirement
No. Of loose tube to be designed to meet the specifications
No. Of fiber in each tube to be designed to meet the specifications.
Color of fibers as per tia/eia-598a
Loose tube material polybutylene terephthalate (pbt)
Loose tube filling material thixotropic jelly
Central strength member fiber reinforced plastic (frp) v non metallic
Core moisture protection methodology jelly filled construction
Peripheral strength member glass yarn
material medium density/high density polyethylene (mdpe/hdpe).
Product description
Polythene insulated jelly filled, un-armored telecommunication cables (10 to 2400 pairs with conductorsÆ dia of 0.4mm, 0.5mm, 0.6mm and 0.9mm) are manufactured on pakistan telecommunication company specifications lw-33 with reference to various international standards and specifications. Premier cables offers a wide range of telephone cables.
Application
This cable is usually used for direct buried applications for distribution in the exchange areas as local network and interexchange applications. It is a cable with solid polyethylene insulated unit twin jelly filled construction.
Construction
Conductor:
Solid annealed copperith conductor sizes of 0.4 & 0.6mm.
Insulation:
Colored high molecular weight solid high density polyethylene.
Color coding:
Cables are fully color coded in accordance with pic even count color code.
Twining/pairing:
Two colored insulated conductors are uniformly twisted together to form a pair. Varying lay length is designed to minimize the cross talk and capacitance unbalance.
Stranding / cabling:
Twisted pairs are assembled into unit of 25 pairs. When desired for lay-up reason, the units are divided into two or more sub-units, which are bind with durably colored polyethylene tapes to form a compact and circular cable.
Filling compound:
The water resistant filling compound is applied to the air space within the cable core.
Core covering:
A non-hygroscopic and dielectric polyester tape and water blocking tape are applied helically having a suitable overlap.
Flooding compound:
Sufficient flooding compound is applied between the core wrap and shield.
