Indoor Fiber Optic Cable - Single Mode, 9/125µm GJFJZH

Indoor fiber optic cable production vedio

Indoor fiber optic cable introduction

The GJFJZY indoor fiber optic cable structure is made by using 900um tight-buffered fiber as the basic unit,and extruding a layer of flame retardant and fire-resistant LSZH outer sheath containing two parallel FRP reinforcements on the outside of multiple tight-buffered fibers.

Indoor fiber optic cable Feature

•Tight-buffered optical fiber is easy to peel off and easy to connect;

•Two parallel FRP reinforcements inside the indoor optical fiber cable are entrained in the sheath to provide good tensile strength and lateral pressure resistance;

•The low-smoke,low-halogen flame-retardant sheath of indoor optical fiber cable has anti-flame and self-extinguishing properties,and is suitable for indoor environments such as computer rooms, cable shafts,and wiring in walls.

Indoor fiber optic cable Performance

Applications: Building backbone wiring,jumpers and pigtails,connecting lines between equipment and instruments;

Working temperature:-20℃~+60℃；

Bend Radius: Static 15 times the cable diameter,

                      Dynamic 30 times the cable diameter.

Product Standard

YD/T 1258.4-2019 Indoor optical fibre cables-Part 4 Multi-fibre optical cables

Indoor fiber optic cable Parameter

GJFJZY Document Download

GJFJZH indoor optical fiber cable.pdf

Installation and Maintenance of GJFJZY Indoor fiber optic Cable

Installation of GJFJZY indoor fiber optic cable:

1. 
   

   Preparation:

   
   

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  Ensure all necessary tools and equipment are ready, including fiber optic cable strippers, cleavers, splicers, and testing equipment.

  
  

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  Verify the cable specifications and ensure compatibility with the network infrastructure.

  
  

2. 
   

   Cable Routing:

   
   

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  Plan the cable route to avoid sharp bends and excessive tension. The minimum bend radius for GJFJZY indoor optical fiber cable should be adhered to (typically 10 times the cable diameter).

  
  

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  Use cable trays, conduits, or raceways to protect the cable and maintain organization.

  
  

3. 
   

   Cable Pulling:

   
   

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  Use proper pulling techniques to avoid damaging the cable. Use a pulling grip or mesh sock designed for fiber optic cables.

  
  

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  Apply steady, even tension during the pulling process. Avoid jerking or sudden movements.

  
  

4. 
   

   Termination:

   
   

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  Strip the cable jacket carefully to expose the fibers. Use a fiber optic stripper to remove the buffer coating without damaging the fiber.

  
  

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  Clean the fibers with lint-free wipes and isopropyl alcohol.

  
  

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  Splice or connectorize the fibers using a fusion splicer or mechanical connectors. Ensure low insertion loss and high return loss.

  
  

5. 
   

   Testing:

   
   

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  Perform an optical time-domain reflectometer (OTDR) test to verify the integrity of the cable and splices.

  
  

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  Conduct insertion loss testing to ensure the cable meets the required performance standards.

  
  

Indoor fiber optic cable Maintenance:

1. 
   

   Regular Inspection:

   
   

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  Periodically inspect the cable for physical damage, such as cuts, kinks, or crushing.

  
  

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  Check connectors and splices for cleanliness and proper alignment.

  
  

2. 
   

   Cleaning:

   
   

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  Clean connectors and adapters regularly using lint-free wipes and isopropyl alcohol.

  
  

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  Use a fiber optic microscope to inspect the end faces of connectors for contamination or damage.

  
  

3. 
   

   Environmental Monitoring:

   
   

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  Ensure the indoor environment is free from excessive dust, humidity, and temperature fluctuations that could affect cable performance.

  
  

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  Monitor for any signs of rodent or insect damage, especially in areas where cables are routed through walls or ceilings.

  
  

4. 
   

   Documentation:

   
   

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  Maintain up-to-date documentation of the cable layout, including splice points, connectors, and test results.

  
  

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  Keep records of any maintenance activities, repairs, or modifications.

  
  

5. 
   

   Troubleshooting:

   
   

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  Use OTDR and power meter tests to locate and diagnose any issues with the cable, such as breaks or high loss points.

  
  

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  Replace damaged sections of the cable or faulty connectors promptly to minimize downtime.

  
  

By following these installation and maintenance guidelines, the GJFJZY indoor fiber optic cable can ensure reliable and high-performance data transmission within the indoor environment.

Application of indoor fiber optic cables

Data Center

Indoor fiber optic cables play an important role within data centers, connecting servers, storage devices, network switches, routers, and other equipment to support high-density server interconnection and improve data processing capabilities.

Office environment

In the office, indoor fiber optic cables are commonly used to build local area networks, connect devices such as computers, printers, and networks, achieve information sharing and high-speed file transfer, and support applications such as video conferencing.

Home network

With the increasing demand for home networks, indoor fiber optic cable are increasingly being used in home environments to connect home gateways, routers, smart TVs, and other devices, providing high-speed and stable network services to meet the high demand of family members for networks.

School and Hospital

In schools, hospitals, and other places, indoor fiber optic cables are used to connect network equipment in classrooms, laboratories, wards, operating rooms, and other areas, ensuring the smooth progress of teaching and medical activities, such as supporting remote diagnosis and treatment, medical image transmission, and other applications.

Advantages of GJFJZY Indoor fiber optic Cable

1. 
   

   High Bandwidth:

   Supports high-speed data transmission, making it ideal for applications requiring large amounts of data to be transferred quickly.

   
   

2. 
   

   Low Latency:

   Ensures minimal delay in data transmission, which is crucial for real-time applications like video conferencing and online gaming.

   
   

3. 
   

   Immunity to Electromagnetic Interference (EMI):

   Unlike copper cables, indoor optical fiber cable are not affected by EMI, ensuring stable and reliable data transmission even in environments with high electrical noise.

   
   

4. 
   

   Lightweight and Flexible:

   Easy to install and manage, especially in tight spaces within buildings.

   
   

5. 
   

   Security:

   Optical fibers are difficult to tap, providing a higher level of data security compared to traditional copper cables.

   
   

6. 
   

   Durability:

   Designed to withstand the environmental conditions typically found indoors, such as temperature fluctuations and humidity.

   
   

7. 
   

   Future-Proof:

   With the increasing demand for higher data rates, indoor optical fiber cables are well-suited to meet future technological advancements without the need for frequent upgrades.

   
   

How to choose indoor fiber optic cables

1. Fiber optic type

Select the fiber type based on the transmission distance requirements. Multimode fiber is suitable for short distance transmission (such as inside buildings), with relatively low prices, and can meet the high bandwidth data transmission needs.

Single mode fiber is more suitable for long-distance transmission, with a higher price but longer transmission distance and lower signal loss.

2. Number of fiber cores

Choose the appropriate number of fiber cores according to actual needs. The more cores there are, the larger the amount of data that can be transmitted simultaneously, but the price also increases accordingly.

For general indoor applications, such as connecting multiple devices or requiring high bandwidth, fiber optic cables with more cores can be chosen.

3. Sheath material

The sheath material has a significant impact on the performance and service life of fiber optic cables. Wear resistant, corrosion-resistant, and flame-retardant sheath materials should be selected to ensure the stability and safety of fiber optic cables during long-term use.

Packing& Delivery

Packaging Details: Packed on drums;

Drums length: 1KM,2KM, 3KM or 4KM, as per buyers'request

Delivery detail: 15 days