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Fiber Optic Cables

Image Part Number Description / PDF Quantity Rfq
EFA70-07-001

EFA70-07-001

Richco, Inc. (Essentra Components)

STRAIN RELIEF BOOT BLACK

1767
EFA04-34-P04

EFA04-34-P04

Richco, Inc. (Essentra Components)

CORNER GUIDE & PADS,BLACK,30MM R

178
OFST-1-M

OFST-1-M

Richco, Inc. (Essentra Components)

FIBER SPLIC TRAY MANAGED BLACK

48
OFB-BH-6-19

OFB-BH-6-19

Richco, Inc. (Essentra Components)

FIBER BRACKET NAT 2MM FIB

1952
EFA04-10-ASS

EFA04-10-ASS

Richco, Inc. (Essentra Components)

FIBER REEL,BLK,30MM RAD,3.9MM SP

253
FOSMF

FOSMF

Panduit Corporation

THE PANDUIT OPTICOM FIBER OPTIC

19360
EFA04-67-ASS

EFA04-67-ASS

Richco, Inc. (Essentra Components)

FIBER REEL,BLACK,2 PART

42
EFA04-63-001

EFA04-63-001

Richco, Inc. (Essentra Components)

ISOLATOR CLIP,GREEN,5.5MM

206
EFA04-34-R07

EFA04-34-R07

Richco, Inc. (Essentra Components)

CORNER GUIDE,BLACK,RIBBON FIBER

500
OFFGSP-R-05-BK

OFFGSP-R-05-BK

Richco, Inc. (Essentra Components)

FIBER GUIDE SPT POST BLK

0
OFBLT-C1-5-01

OFBLT-C1-5-01

Richco, Inc. (Essentra Components)

OFBLT CLAMP NATURAL 5MM HOLD

865
OFFG-165M-19-BK

OFFG-165M-19-BK

Richco, Inc. (Essentra Components)

FIBER GUIDE FLEX BLACK 6.5" LG

1140
OFB3P-4-19

OFB3P-4-19

Richco, Inc. (Essentra Components)

OPT FIBER BRACKET NAT 2-PRONG

1127
OFFGSP-F-19-BK

OFFGSP-F-19-BK

Richco, Inc. (Essentra Components)

FIBER GUIDE SPT POST BLK

2701
FOSP61-C

FOSP61-C

Panduit Corporation

FIBER OPTIC SPLICE PROTECTOR (61

100800
EFA04-34-P07

EFA04-34-P07

Richco, Inc. (Essentra Components)

CORNER GUIDE,BLACK,RIBBON FIBER

995
PS-6A-X25PS

PS-6A-X25PS

FinishAdapt

FIBER SPLICE SLEEVE 1.6 X 25MM

0
OFST-1-L

OFST-1-L

Richco, Inc. (Essentra Components)

FIBER SPLIC TRAY LID BLACK

139
EFA04-34-P06

EFA04-34-P06

Richco, Inc. (Essentra Components)

CORNER GUIDE & PADS,BLACK,40MM R

479
EFA52-02-ASS

EFA52-02-ASS

Richco, Inc. (Essentra Components)

STRAIN RELIEF BOOT BLACK SIMPLEX

133

Fiber Optic Cables

Fiber optic cables are physical transmission media that use light signals to transmit data. Composed of glass or plastic fibers, they enable high-speed, long-distance communication with minimal signal loss. As critical infrastructure in modern telecommunications, data centers, and industrial systems, fiber optics have become essential for meeting growing demands for bandwidth and network reliability.

TypeStructural FeaturesKey FunctionsApplication Examples
Single-Mode Fiber (SMF)9/125 m core/cladding diameter, laser light sourceLong-distance transmission, low attenuationTelecom backbone networks, FTTH
Multi-Mode Fiber (MMF)50/125 m or 62.5/125 m core, LED light sourceHigh bandwidth over short distancesData centers, LAN connections
Tight Buffered CableIndividual fiber coating with UV-resistant polymerFlexible indoor/outdoor useBuilding interconnects, premise networks
Loose Tube CableFibers housed in protective gel-filled tubesEnvironmental protection, mechanical strengthUnderground installations, aerial networks
Ribbon Fiber CableFlat arrays of fibers in stacked ribbonsHigh-density connectivityMassive data centers, 5G backhaul

A typical fiber optic cable comprises four primary components:

  1. Core: Glass or plastic center (50-9 m diameter) carrying light signals
  2. Cladding: Lower-refractive-index material surrounding core (125 m)
  3. Coating: UV-cured acrylate layers for mechanical protection
  4. Strength Members: Aramid yarns or steel wires for tensile resistance
  5. Outer Jacket: PVC or LSZH (Low Smoke Zero Halogen) material for environmental protection
ParameterDescriptionImportance
Attenuation (dB/km)Signal loss per kilometerDetermines maximum transmission distance
Bandwidth (MHz km)Data-carrying capacityDefines network speed capabilities
Core DiameterPhysical size of the light-conducting regionImpacts light propagation modes
Operating TemperatureFunctional temperature range (-40 C to +70 C)Environmental durability
Bend RadiusMinimum allowable cable bending radiusPrevents signal degradation from physical stress
  • Telecommunications: 5G networks, submarine cables, central offices
  • Data Centers: Server racks, backbone switches, storage area networks
  • Medical: Endoscopy equipment, imaging devices
  • Industrial: Factory automation, oil & gas monitoring
  • Transportation: High-speed rail signaling, airport navigation systems
ManufacturerRepresentative ProductKey Features
CommScopeOM5 WideBand FiberSupports 4-wave division multiplexing (WDM)
Fujikura10MMF-100-0.22dB FiberUltra-low loss multimode for data centers
HuaweiOptiX OSN 9800400Gbps coherent optical transmission platform
3MCFX-LC Duplex ConnectorField-installable optical connectors
OFS FitelClearCurve Multi-Fiber CableMicro-bend resistant indoor/outdoor solution

Key considerations for fiber optic cable selection:

  • Transmission requirements: Distance, bandwidth, and signal loss budget
  • Environmental conditions: Temperature extremes, moisture exposure, rodent risks
  • Installation methodology: Aerial, underground, or indoor routing
  • Network architecture: Point-to-point, ring, or star topologies
  • Cost optimization: Balancing initial investment vs long-term maintenance

Case Study: For a 10km metropolitan data center interconnect, select single-mode fiber with bend-insensitive design (ITU-T G.657.A1), LSZH jacket, and dual-fiber redundancy.

  • Increased adoption of 400Gbps+ optical transceivers
  • Expansion of fiber-to-the-home (FTTH) networks
  • Growth of bend-insensitive fiber for complex installations
  • Advancements in space-division multiplexing (SDM) technology
  • Integration of AI for real-time fiber network monitoring

Market projections indicate a compound annual growth rate (CAGR) of 11.2% through 2027, driven by 5G deployment and cloud computing expansion.

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