Fiber Optic Cable- More Info

 
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Premise Zip Cord Fiber Optic Cables- Premise Zip Cord Fiber Optic Cable- Premise Zip Cord Fiber Optic Cable Supplier- Premise Zip Cord Fiber Optic Cable Distributor-Singlemode Fiber Cable- Multimode Fiber Cable- Fiber Optic Assemblies

Plenum Innerduct is one of the leading suppliers of Premise Zip Cord Fiber Optic Cables, Premise Zip Cord Fiber Optic Cable, Premise Zip Cord Fiber Optic Cable in the USA. Simplex cables are one fiber, tight-buffered (coated with a 900 micron buffer over the primary buffer coating) with Kevlar (aramid fiber) strength members and jacketed for indoor use. The jacket is usually 3mm (1/8 in.) diameter. Zipcord is simply two of these joined with a thin web. It's used mostly for patch cord and backplane applications, but zipcord can also be used for desktop connections.Available in PVC and Plenum rated  jacket. Jumper cord is available in simplex, (one fiber) or duplex, (two fibers), and is usually used in patching  applications.  The duplex fiber is referred to commonly as  "zipcord", because the design is very similar to lamp  cord that can be peeled apart at the seam.  Jumper cord is  designed to be flexible without a lot of memory, to work well in  patch panels and racks where wire management is a concern.Our warehouses across the USA stock most of the Fiber Optic Cable- More Infos we have on our website but please call us for the latest fiber cable availability for your needs at (866) 342-3721 and let one of customer technical executives assist you in your fiber cable selection.

Premise Zip Cord Fiber Optic Cable

Premise Zip Cord Fiber Optic Cable
Catalog Number Fiber Count UL Rating Nom. Cable Diameter Inch Nom. Cable Weight Lbs/1000' Max.Tensile Load Install Lbs Max.Tensile Load Long Term Lbs Min. Bend Radius Install Inch Min. Bend Radius Long Term Inch
ATS101001XT03 1 OFNR 0.11 5.5 110 65 2.0 1.2
ATS101002XT03 2 OFNR 0.11x0.24 10.5 220 160 2.0 1.2
ATS101001XT01 1 OFNP 0.11 6.5 110 65 2.0 1.2
ATS101002XT01 2 OFNP 0.11x0.24 12.1 220 160 2.0 1.2
Application:
  • Patch panels within communication closets
  • Cross-connects
  • Communication closets to wall outlets
  • Drop ceiling applications (plenum)
  • Fiber-To-The-Desk (FTTD)
  • Interconnect design compatible with connectors requiring 3.0mm jacket diameter
  • UL Listed Type OFNR for installation in vertical riser and and general horizontal applications when installed in accordance with NEC article 770-51(b) and 770-53(b)
  • UL Listed Type OFNP for installation in ducts, plenums and other spaces used as environmental air returns when installed in accordance with NEC article 770-51(a) and 770-53(a)
Product Features:
  • Maximum flexibility
  • Ease of stripping
  • Durability
  • Industry standard design
  • Ideal for interconnect and Fiber-To-The-Desk (FTTD)
Fiber:
  • 1 or 2 fibers
  • 900�m tight buffer
Overall Strength Member:
  • Aramid fiber yarn
Jacket:
  • Flame-retardant polyvinyl chloride (PVC)
  • Sequential footage markings
  • Orange jacket - multimode fibers
  • Yellow jacket - singlemode fibers
Performance:

Temperature:

  • Storage -40°C (-40°F) to +70°C (+158°F)
  • Operating -20°C (-4°F) to +70°C (+158°F)

Maximum Crush Resistance:

  • 500lbs/in (875N/cm)
Compliances:
  • UL and c(UL) listed Type OFNR/OFNP
  • OFNR-CSA FT-4, OFNP-CSA FT-6
  • GR-409
Note: Additional fiber types and LifeGuard™ Low Smoke Zero Halogen Jacket available. Contact sales representative for details.

 

  • Multimode Fiber Optic Cable- More Info
  • Singlemode Fiber Optic Cable- More Info

We Carry Fiber Optic Cable- More Info and The Complete Lines of CAT 5e , CAT 6, Coax & Specialty Cable From The Following Manufacturers

.Plenum Innerduct is one of the leading suppliers of Fiber Optic Cable in the USA stocking hundreds of thousands of feet of Fiber Optic Cable that are ready to ship same day including loose tube Fiber Optic Cable, tight buffer Fiber Optic Cable-, aerial Fiber Optic Cable- indoor outdoor Fiber Optic Cable- ADSS cables, figure 8 Fiber Optic Cable-, military Fiber Optic Cable- armored Fiber Optic Cable- tactical Fiber Optic Cable- and more in singlmode fiber, mulimode fiber and multifiber combinations- Call us at (866) 342-3721 and let one of customer technical executives assist you in your fiber cable selection.

  • Premise Zip Cord Fiber Optic Cable- More Info
  • Premise Tight Buffer Breakout Riser Fiber Optic Cable- More Info
  • Premise Tight Buffer Breakout Plenum Fiber Optic Cable- More Info
  • Premise Tight Buffer Distribution Riser Fiber Optic Cable- More Info
  • Premise Tight Buffer Distribution Plenum Fiber Optic Cable- More Info
  • Indoor/Outdoor Tight Buffer Distribution Riser Fiber Optic Cable- More Info
  • Indoor/Outdoor Tight Buffer Distribution Plenum Fiber Optic Cable- More Info
  • Indoor/Outdoor Central Tube Single Jacket Riser Fiber Optic Cable- More Info
  • Indoor/Outdoor Central Tube Single Jacket Plenum Fiber Optic Cable- More Info
  • Indoor/Outdoor Loose Tube Single Jacket Riser Fiber Optic Cable- More Info
  • Indoor/Outdoor Loose Tube Dual Jacket Riser Fiber Optic Cable- More Info
  • Indoor/Outdoor Loose Tube Single Jacket Plenum Fiber Optic Cable- More Info
  • Outside Plant Central Loose Tube Single Jacket Non-Armored Fiber Optic Cable- More Info
  • Outside Plant Central Loose Tube Single Jacket Armor Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Single Jacket Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Dual Jacket Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Single Jacket Single Armored Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Dual Jacket Single Armored Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Triple Jacket Dual Armored Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Single Jacket Self Supporting (Figure 8) Fiber Optic Cable- More Info
  • Outside Plant Loose Tube Dual Jacket Armored Self Supporting (Figure 8) Fiber Optic Cable- More Info

Specifications

HF10

 

PREMISE ZIP CORD

Simplex and Duplex Zip Cord - OFNR/OFNP

Catalog Number Fiber Count UL Rating Nom. Cable Diameter Inch Nom. Cable Weight Lbs/1000' Max.Tensile Load Install Lbs Max.Tensile Load Long Term Lbs Min. Bend Radius Install Inch Min. Bend Radius Long Term Inch
ATS101001XT03 1 OFNR 0.11 5.5 110 65 2.0 1.2  
ATS101002XT03 2 OFNR 0.11x0.24 10.5 220 160 2.0 1.2  
ATS101001XT01 1 OFNP 0.11 6.5 110 65 2.0 1.2  
ATS101002XT01 2 OFNP 0.11x0.24 12.1 220 160 2.0 1.2  
 
Application:
  • Patch panels within communication closets
  • Cross-connects
  • Communication closets to wall outlets
  • Drop ceiling applications (plenum)
  • Fiber-To-The-Desk (FTTD)
  • Interconnect design compatible with connectors requiring 3.0mm jacket diameter
  • UL Listed Type OFNR for installation in vertical riser and and general horizontal applications when installed in accordance with NEC article 770-51(b) and 770-53(b)
  • UL Listed Type OFNP for installation in ducts, plenums and other spaces used as environmental air returns when installed in accordance with NEC article 770-51(a) and 770-53(a)
Product Features:
  • Maximum flexibility
  • Ease of stripping
  • Durability
  • Industry standard design
  • Ideal for interconnect and Fiber-To-The-Desk (FTTD)
Fiber:
  • 1 or 2 fibers
  • 900�m tight buffer
Overall Strength Member:
  • Aramid fiber yarn
Jacket:
  • Flame-retardant polyvinyl chloride (PVC)
  • Sequential footage markings
  • Orange jacket - multimode fibers
  • Yellow jacket - singlemode fibers
Performance:

Temperature:

  • Storage -40°C (-40°F) to +70°C (+158°F)
  • Operating -20°C (-4°F) to +70°C (+158°F)

Maximum Crush Resistance:

  • 500lbs/in (875N/cm)
Compliances:
  • UL and c(UL) listed Type OFNR/OFNP
  • OFNR-CSA FT-4, OFNP-CSA FT-6
  • GR-409
Note: Additional fiber types and LifeGuard™ Low Smoke Zero Halogen Jacket available. Contact sales representative for details.

 

 

Multimode 62.5/125 micron Duplex Fiber Optic Cable- More Info Assemblies
Multimode 50/125 micron Duplex Fiber Assemblies
Single-Mode 9/125 micron Duplex Fiber Patch cords and Jumpers
Single-Mode Simplex Fiber Optic Cable- More Info Assemblies
Fiber Optic Connectors
Fiber Optic Adapters
Bulk Fiber Optic Cable- More Info
Fiber Optic Cable- More Infos /Fiber Jumpers
Duplex MTRJ-MTRJ Fiber Optic Cable- More Info
Duplex MTRJ-SC Fiber Optic Cable- More Info
Duplex MTRJ-ST Fiber Optic Cable- More Info
Multimode Duplex SC-SC Fiber Optic Cable- More Info
Multimode Duplex ST-SC Fiber Optic Cable- More Info
Multimode Duplex ST-ST Fiber Optic Cable- More Info
Multimode Duplex LC-ST Fiber Optic Cable- More Info
Multimode Duplex LC-LC Fiber Optic Cable- More Info
Multimode Duplex LC-MTRJ Fiber Optic Cable- More Info
Multimode Duplex LC-SC Fiber Optic Cable- More Info
Singlemode Duplex SC-SC Fiber Optic Cable- More Info
Singlemode Duplex ST-SC Fiber Optic Cable- More Info
Singlemode Duplex ST-ST Fiber Optic Cable- More Info Assemblies

Connectors Description Part Number
ST -ST multi-mode, duplex PC ST/STD-XXX
ST -ST single mode, duplex PC ST/STSD-XXX
ST -SC mm, duplex PC ST/SCD-XXX
ST-SC sm, duplex PC ST/SCSD-XXX
SC-SC mm, duplex PC SC/SCD-XXX
SC-SC sm , duplex PC SC/SCSD-XXX
ST-LC mm, duplex PC ST/LCD-XXX
ST-LC sm, duplex PC ST/LCSD-XXX
SC-LC mm, duplex PC SC/LCD-XXX
SC-LC sm, duplex PC SC/LCSD-XXX
LC-LC mm, duplex PC LC/LCD-XXX
LC-LC sm, duplex PC LC/LCSD-XXX
ST-MTRJ mm, duplex PC ST/MTD-XXX
SC-MTRJ mm, duplex PC SC/MTD-XXX
MTRJ-MTRJ mm, duplex PC MT/MTD-XXX
MTRJ-LC mm, duplex PC MT/LCD-XXX

BRIEF OVER VIEW OF Fiber Optic Cable- More Info ADVANTAGES OVER COPPER:

• SPEED: Fiber optic networks operate at high speeds - up into the gigabits
• BANDWIDTH: large carrying capacity
• DISTANCE: Signals can be transmitted further without needing to be "refreshed" or strengthened.
• RESISTANCE: Greater resistance to electromagnetic noise such as radios, motors or other nearby cables.
• MAINTENANCE: Fiber Optic Cable- More Infos costs much less to maintain.


In recent years it has become apparent that fiber-optics are steadily replacing copper wire as an appropriate means of communication signal transmission. They span the long distances between local phone systems as well as providing the backbone for many network systems. Other system users include cable television services, university campuses, office buildings, industrial plants, and electric utility companies.

A fiber-optic system is similar to the copper wire system that fiber-optics is replacing. The difference is that fiber-optics use light pulses to transmit information down fiber lines instead of using electronic pulses to transmit information down copper lines. Looking at the components in a fiber-optic chain will give a better understanding of how the system works in conjunction with wire based systems.

At one end of the system is a transmitter. This is the place of origin for information coming on to fiber-optic lines. The transmitter accepts coded electronic pulse information coming from copper wire. It then processes and translates that information into equivalently coded light pulses. A light-emitting diode (LED) or an injection-laser diode (ILD) can be used for generating the light pulses. Using a lens, the light pulses are funneled into the fiber-optic medium where they transmit themselves down the line.

Think of a fiber cable in terms of very long cardboard roll (from the inside roll of paper towel) that is coated with a mirror.
If you shine a flashlight in one you can see light at the far end - even if bent the roll around a corner.

Light pulses move easily down the fiber-optic line because of a principle known as total internal reflection. "This principle of total internal reflection states that when the angle of incidence exceeds a critical value, light cannot get out of the glass; instead, the light bounces back in. When this principle is applied to the construction of the fiber-optic strand, it is possible to transmit information down fiber lines in the form of light pulses.
Multimode cable is made of of glass fibers, with a common diameters in the 50-to-100 micron range for the light carry component (the most common size is 62.5). POF is a newer plastic-based cable which promises performance similar to glass cable on very short runs, but at a lower cost.

Multimode fiber gives you high bandwidth at high speeds over medium distances. Light waves are dispersed into numerous paths, or modes, as they travel through the cable's core typically 850 or 1300nm. Typical multimode fiber core diameters are 50, 62.5, and 100 micrometers. However, in long cable runs (greater than 3000 feet [914.4 ml), multiple paths of light can cause signal distortion at the receiving end, resulting in an unclear and incomplete data transmission. The use of fiber-optics was generally not available until 1970 when Corning Glass Works was able to produce a fiber with a loss of 20 dB/km. It was recognized that optical fiber would be feasible for telecommunication transmission only if glass could be developed so pure that attenuation would be 20dB/km or less. That is, 1% of the light would remain after traveling 1 km. Today's optical fiber attenuation ranges from 0.5dB/km to 1000dB/km depending on the optical fiber used. Attenuation limits are based on intended application.

The applications of optical fiber communications have increased at a rapid rate, since the first commercial installation of a fiber-optic system in 1977. Telephone companies began early on, replacing their old copper wire systems with optical fiber lines. Today's telephone companies use optical fiber throughout their system as the backbone architecture and as the long-distance connection between city phone systems.

Cable television companies have also began integrating fiber-optics into their cable systems. The trunk lines that connect central offices have generally been replaced with optical fiber. Some providers have begun experimenting with fiber to the curb using a fiber/coaxial hybrid. Such a hybrid allows for the integration of fiber and coaxial at a neighborhood location. This location, called a node, would provide the optical receiver that converts the light impulses back to electronic signals. The signals could then be fed to individual homes via coaxial cable.

Local Area Networks (LAN) is a collective group of computers, or computer systems, connected to each other allowing for shared program software or data bases. Colleges, universities, office buildings, and industrial plants, just to name a few, all make use of optical fiber within their LAN systems.

Power companies are an emerging group that have begun to utilize fiber-optics in their communication systems. Most power utilities already have fiber-optic communication systems in use for monitoring their power grid systems.

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