Vindhya Telelinks
Easy Responsive Tabs to Accordion

  • FIBRE OPTIC CABLES
  • TELECOM FIBRE ACCESSORIES
  • COPPER CABLES
  • SOLAR CABLES
  • POWER CABLES

  • AERIAL
  • UNDERGROUND DUCT
  • MICRODUCT
  • MICROMODULE
  • FTTX
  • SPECIALITY
  • INDOOR

CABLES ACCESSORIES

Fibre Patchcord Series – ST (Singlemode/Multimode)

Ipsum

Features

  • All ceramic ferrules for maximum optical and mechanical performance.
  • 100% optically tested(Insertion loss)
  • A variety of cable types are available. Custom build design can be delivered
  • Accurate mounting dimentions
  • As per ITU standard

Applications

  • Local area Networks
  • Fast Ethernet
  • ATM Networks
  • Testing and measuring instruments
  • FDMS, Mounts in wall mount cabinets and rack mount units

Product Description

Birla patchcord offers superior performance with very high repeatability. The Optical fiber patchcords are manufacturered in our state of the art manufacturing facility. These patchcords can be ordered in simplex or duplex form. Variety of designs can be offered as per customer requirements. The sheath of the patchcords can be Raiser, Plennum or Lzoh. Precise control on the process always yield low insertion loss patchcords. All the patchcords are compliant with EIA/TIA 568A, TIA 604 FOCIS3 and I S O 1 1 8 0 1 for optical performance and intermateablity. Our advanced manufacturing equipments allow us to manufacture the highest quality patchcords needed for todays stringent optical networks.

Technical Features

Parameters Multimode Single mode
Insertion loss 0.2dB Typical 0.15dB Typical
0.3dB Max 0.25dB Max
Returnloss -25dB Typical -35dB PC Polish
-45dB Super PC Polich
-55dB Ultra PC Polish
Connection Durability 500 Matings 500 Matings
Connector Repeatability ΔIL < 0.2dB ΔIL < 0.1dB
Operating Environment -40°C to +85°C -40°C to +85°C
Temperature Cycling ΔIL < 0.2dB/ΔRL < 5dB ΔIL < 0.2dB/ΔRL < 5dB
Vibration ΔIL < 0.1dB/ΔRL < 5dB ΔIL < 0.1dB/ΔRL < 5dB
Cable retension 900um 2lbs 2lbs
Ferrul material Ceramic Ceramic
Housing material Composite composite