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Indoor Optical Cable - Fcjoptic

FCJ OPTO TECH, a distinguished member of FCJ Group, stands as a pillar in the Communication Industry with its inception dating back to 1985. With over three decades of expertise in manufacturing optical fiber cables and components, FCJ OPTO TECH has carved a niche in the international market. Our extensive product range includes Indoor Fiber Optic Cable, which is meticulously crafted to meet the highest standards of the industry.

Our Indoor Fiber Optic Cable portfolio, epitomized by products such as the GJFJV and GJFJTC8Y cables, embodies innovation and precision. The GJFJV indoor communication cable features high-strength aramid or glass yarns coupled with a PVC(LSZH) jacket, ensuring durability and exceptional performance. On the other hand, the GJFJTC8Y distribution cable, with its small diameter and light weight, offers high tensile strength and superior mechanical performance, making it a reliable choice for diverse indoor applications.

FCJ OPTO TECH's commitment to quality and excellence has made us a trusted partner for telecom operators and distributors worldwide, including industry giants like China Mobile and Telefónica. Our products have traversed global boundaries, reaching markets in North and South America, Europe, Southeast Asia, Middle East, and Africa. By integrating cutting-edge technology and rigorous quality control, we ensure that our Fiber Optic Indoor Patch Cord meets the dynamic demands of the modern communication landscape.

As we continue to expand our global footprint, FCJ OPTO TECH remains dedicated to fostering strong business relationships and delivering unparalleled solutions in the field of indoor optical communication. For future cooperation, please feel free to contact us; we are poised to be your most trustworthy partner in the optical communication industry.

Indoor Optical Cable

  • FTTH Outdoor Fiber Drop Cable 2 Core With Strength Member KFRP GJYXFCH Aerial Fiber Optic Drop Cable

    FTTH Outdoor Fiber Drop Cable 2 Core With Strength Member KFRP GJYXFCH Aerial Fiber Optic Drop Cable

    The optical fiber unit is positioned in the centre. Two parallel Fiber Reinforced Plastics (FRP/KFRP/STEEL) are placed at the two sides. A steel wire as the additional strength member is also applied. Then the cable is completed with a black or colored LSZH sheath.


  • Indoor Communication Cable 24 48 96 144 core Multi mode fiber optic cable distribution tight buffer GJFJV

    Indoor Communication Cable 24 48 96 144 core Multi mode fiber optic cable distribution tight buffer GJFJV

    Description

    GJFJV indoor fiber optic cable is made by evenly applying strands of Aramid yarns or High strength glass yarns as the strength member over ф900μm or ф600μm tight buffer fibers and then is completed with PVC(LSZH)jacket.

     

     


  • GJFJTC8Y 8C distribution optical cable 8f sm g657a2 fiber optic cable figure 8 fiber optic cable

    GJFJTC8Y 8C distribution optical cable 8f sm g657a2 fiber optic cable figure 8 fiber optic cable

    Description

    GJFJTC8Y cable is made by evenly applying strands of Aramid yarns as the strength member over ф900μm or ф600μm fibers,twisting fibers with aramid yarn into the circular cable core,then steel wires assembled into the shape 8 PE sheath.

    Characteristics

    ·Small diameter, light weight and friendly
    ·High tensile strength of aramid yarn meet the requirements of self-supporting and reduce the installation cost.
    ·Good mechanical and temperature performance.

    Standards

    ·GJFJTC8Y cable complies with Standard YD/T11155-2011,YDT 1770-2008,IEC794 etc.

    Optical Parameters

    G.652

    G.655

    50/125μm

    62.5/125μm

    Attenuation

     (+20℃)

    @850nm

    ≤3.0dB/km

    ≤3.0dB/km

    @1300nm

    ≤1.0dB/km

    ≤1.0dB/km

    @1310nm

    ≤0.36dB/km

    ≤0.36dB/km

    @1550nm

    ≤0.22dB/km

    ≤0.23dB/km

    Bandwidth
    Class A)

    @850

    ≥500MHZ·km

    ≥500MHZ·km

    @1300

    ≥1000MHZ·km

    ≥600MHZ·km

    Numerical Aperture

    0.200±0.015NA

    0.275±0.015NA

    Cable Cut-off Wavelength

    ≤1260nm

    ≤1480nm

     

    Technical Parameters

    Cable Type

    Fiber Count

    Cable Diameter

    mm

    Cable Weight
    Kg/km

    Tensile Strength

    Long/Short Term

    N

    Crush Resistance

    Long/Short

    Term
    N/100m

    Bending Radius
    Static/Dynamic

    mm

    GJFJTC8Y

    2

    3.5×5.5

    19

    200/400

    100/200

    30D/15D

    GJFJTC8Y

    4

    4.0×6.0

    26

    200/400

    100/200

    30D/15D

    GJFJTC8Y

    6

    5.0×7.0

    30

    200/400

    100/200

    30D/15D

    GJFJTC8Y

    8

    6.0×9.0

    32

    200/400

    100/200

    30D/15D

    GJFJTC8Y

    12

    6.5×9.5

    40

    200/400

    100/200

    30D/15D

    ·Storage/Operating temperature:-20℃~﹢60℃

     


  • GJXFH 1 2 4 Core LSZH Sheath G657A1 FTTH Fiber Optical Drop Cable for Indoor

    GJXFH 1 2 4 Core LSZH Sheath G657A1 FTTH Fiber Optical Drop Cable for Indoor

    Description

    The optical fiber unit is positioned in the centre. Two parallel Fiber Reinforced Plastics (FRP/KFRP) are placed at the two sides. Then the cable is completed with a black or colored LSZH sheath.

    Characteristics

    · Special low-bend-sensitivity fiber provides high bandwidth and excellent communication transmission property;
    · Two parallel FRP strength members ensure good performance of crush resistance to protect the fiber;
    · Simple structure, light weight and high practicability;
    · Novel flute design, easily strip and splice, simplify the installation and maintenance;
    · Low smoke, zero halogen and flame retardant sheath.

    Optical Characteristics

    G.652 G.655 50/125μm 62.5/125μm
    @850nm ≤3.5 dB/km ≤3.5 dB/km
    @1300nm ≤1.5 dB/km ≤1.5 dB/km
    @1310nm ≤0.40 dB/km ≤0.40 dB/km
    @1550nm ≤0.30 dB/km ≤0.30dB/km
    @850nm ≥500 MHz·km ≥200 MHz·km
    @1300nm ≥500 MHz·km ≥500 MHz·km
    Numerical Aperture 0.200±0.015NA 0.275±0.015NA
    Cable Cut-off Wavelength ≤1260nm ≤1260nm

    Technical Parameters

    Fiber count CableDiameter

    mm

    CableWeight

    kg/km

    Tensile StrengthLong/Short Term N Crush ResistanceLong/Short

    Term

    N/100mm

    Bending Radius Static /Dynamic mm
    1 (2.0±0.2)×(3.0±0.2) 8 40/80 500/1000 20/40
    2 (2.0±0.2)×(3.0±0.2) 8 40/80 500/1000 20/40
    4 (2.0±0.2)×(3.0±0.2) 8 40/80 500/1000 20/40
    6 (2.5±0.2)×(4.0±0.2) 8.5 40/80 500/1000 20/40
    8 (2.5±0.2)×(4.0±0.2) 9.0 40/80 500/1000 20/40
    12 (3.0±0.2)×(4.0±0.2) 9.7 40/80 500/1000 20/40

    Storage/Operating  Temperature : -20℃ to + 60℃


  • FOB Price: US $0.5 - 9,999 / Piece
  • Min.Order Quantity: 100 Piece/Pieces
  • Supply Ability: 10000 Piece/Pieces per Month
  • Model Number: GJXFH
  • Type: Fiber Optic Cable
  • Place of Origin: Zhejiang,China
  • Number of Conductors: 2
  • Product Name: ftth fiber optical drop cable indoor
  • Outer Jacket Material: LSZH
  • Strength Member: FRP
  • Fiber Model: Singlemode G657A1
  • Cable Diameter: (2.±0.2)*(3.0±0.2)mm
  • Package Type: Carton box/wooden reel
  • 24 Core Indoor GJFJH Break-Out Optical Fiber Cable From FCJ OPTO TECH

    24 Core Indoor GJFJH Break-Out Optical Fiber Cable From FCJ OPTO TECH

    GJFJV 2-24 Tight indoor fiber optic cable is made by evenly applying strands of Aramid yarns or High strength glass yarns as the strength member over ф900μm or ф600μm tight buffer fibers and then is completed with PVC(LSZH)jacket.


  • GJFJV Tight Buffer Single Fiber Simplex/Sx 2.0/2.8/3.0mm Fiber Optic Indoor Cable

    GJFJV Tight Buffer Single Fiber Simplex/Sx 2.0/2.8/3.0mm Fiber Optic Indoor Cable

    GJFJV SX Tight indoor fiber optic cable is made by evenly applying strands of Aramid yarns as the strength member over ф900μm or ф600μm tight buffer fibers and then is completed with PVC(LSZH)jacket.


  • GJFV 2-24 OM3 Multi Model Indoor 50/125 Or 62.5/125 CCTV Fiber Optic Cable

    GJFV 2-24 OM3 Multi Model Indoor 50/125 Or 62.5/125 CCTV Fiber Optic Cable

    GJFV 2-24 OM3 Colored cable is made by evenly applying strands of Aramid yarns as the strength member over ф250μm fibers.,twisting fibers with aramid yarn,then is completed with PVC(LSZH)jacket.


  • Figure 8 Cable Aerial Self-Support Fiber Optical Cable Figure 8 Fiber Optic Cable 64 Core

    Figure 8 Cable Aerial Self-Support Fiber Optical Cable Figure 8 Fiber Optic Cable 64 Core

    Figure 8 Cable cable is made by evenly applying strands of Aramid yarns as the strength member over ф900μm or ф600μm fibers,twisting fibers with aramid yarn into the circular cable core,then steel wires assembled into the shape 8 PE sheath.


  • GJFJH Break-Out 48 Core LSZH OM3 Indoor Break-Out Fiber Optic Cable

    GJFJH Break-Out 48 Core LSZH OM3 Indoor Break-Out Fiber Optic Cable

    GJFJH Break-out cable,the tight buffer fiber is placed on the surface with a layer of aramid yarn as strength member units,multi fibers as the subunit twist with FRP(and some cushions) into the circle ,and finally into fiber optic cable with PVC or LSZH sheath,with dry-type water-blocking materials between fiber and sheath.


  • GJPFJV Break-Out G657A1 Cable Multimode Purpose Break-Out Optical Fiber Cable

    GJPFJV Break-Out G657A1 Cable Multimode Purpose Break-Out Optical Fiber Cable

    GJPFJV Break-out cable is made by the tight buffer fiber wrapped with a layer of aramid yarn as strength member units,multi fibers as the sub unit twist with FRP into the circle ,and finally into fiber optic cable with PVC or LSZH sheath,with dry-type water-blocking materials between fiber and sheath.


  • 300μm Tight Buffered Optic Fiber Cable -FCJ OPTO TECH

    300μm Tight Buffered Optic Fiber Cable -FCJ OPTO TECH

    The 300μm Tight buffered fiber optical cable is made of Hytrel-7246 grade material, with a layer of Hytrel material extruded from a 200 / 250μm fiber to provide the ideal choice for high-density fiber optic cable.


  • Tight Buffered Fiber Optical Jumper Cable For Patch Cords And Pigtails

    Tight Buffered Fiber Optical Jumper Cable For Patch Cords And Pigtails

    Tight Buffered Fiber is produced as that fiber is sheathed by buffer material.The selection of top-quality fiber, the specific production equipment and the accurately designed to make the performance of product.


14 Total

What Is Indoor Optical Cable

Indoor optical cables are a critical component of modern communication networks, providing high-speed data transmission within buildings for both commercial and residential applications. These cables are specifically tailored for indoor environments, ensuring reliable and efficient connectivity that supports the increasing demand for bandwidth-intensive applications like streaming, cloud computing, and Internet of Things (IoT) devices. Understanding the construction, features, and types of indoor optical cables is paramount for anyone involved in network installation and maintenance.

Construction and Features



● Central Tube Design


Indoor optical cables often feature a central tube construction, which houses the optical fibers in a protective central core. This design minimizes the risk of damage during installation and handling while maintaining the integrity of the fibers. The central tube provides a sturdy structure that protects the fibers from physical stress and environmental factors that might affect performance.

● Jacket Material


The outer jacket of indoor optical cables plays a vital role in ensuring durability and safety. These jackets are typically made from flame-retardant materials to meet stringent fire safety standards. The most common jacket materials include Low Smoke Zero Halogen (LSZH), which not only resists fire but also minimizes the release of toxic fumes and smoke in the event of a fire. Plenum-rated and riser-rated jackets are also available, each designed to meet specific building and fire code requirements for different installation environments.

● Fiber Types


Indoor optical cables are available with both singlemode and multimode fibers. Singlemode fibers are ideal for long-distance and high-bandwidth applications, whereas multimode fibers are suited for shorter distances and high-speed data transmission within buildings. The choice between singlemode and multimode fibers depends on the specific requirements of the network and the distances involved.

Types of Indoor Optical Cables



● Distribution Cables


Distribution cables are one of the most common types of indoor optical cables. They consist of multiple fibers bundled together, making them suitable for connecting various network devices within a building. These cables are designed to offer flexibility and ease of installation, allowing for quick deployment and efficient space utilization. They are often used in data centers, office buildings, and campus environments.

● Ribbon Cables


Ribbon cables feature multiple optical fibers arranged in a flat, ribbon-like structure. This design allows for high fiber density, making them an excellent choice for applications requiring a large number of fibers in a compact space. Ribbon cables are commonly used in high-capacity data transmission scenarios, such as within data centers and telecommunication facilities.

● MPO Trunk Cables


MPO (Multi-Fiber Push-On/Pull-Off) trunk cables are designed for high-density fiber optic networks. These cables utilize MPO connectors, which can connect multiple fibers simultaneously, significantly reducing installation time and improving efficiency. MPO trunk cables are ideal for environments where rapid deployment and scalability are essential, such as data centers and large enterprise networks.

● Armored Cables


For environments where additional protection is required, armored indoor optical cables provide enhanced durability. These cables feature an additional layer of metal armor that protects the fibers from physical damage, crushing, and rodent attacks. Armored cables are suitable for industrial settings, high-traffic areas, and other environments where cables may be exposed to harsher conditions.

In conclusion, indoor optical cables are indispensable for establishing robust and high-performance communication networks within buildings. Their specialized construction, including central tube design, protective jacket materials, and availability in various types like distribution, ribbon, MPO trunk, and armored cables, ensures they meet the diverse needs of modern network infrastructures. By understanding the unique features and applications of indoor optical cables, professionals can make informed decisions that optimize network performance, reliability, and safety.

FAQ about Indoor Optical Cable

What is indoor fiber optic cable?

Fiber optic cables have revolutionized the way we transmit data, offering high-speed and reliable solutions for both indoor and outdoor applications. One key component of this technology is the indoor fiber optic cable, which is specifically designed for use in enclosed environments. This cable, while similar in some respects to its outdoor counterpart, is tailored to meet the unique demands of indoor settings.

Understanding Indoor Fiber Optic Cables

Indoor fiber optic cables are engineered for environments within buildings, including offices, homes, and other enclosed spaces. These cables consist of multiple optical fibers that are encased in a protective plastic sleeve and an additional plastic cover. The primary function of these cables is to transmit optical signals, making them essential for a host of communication applications.

Construction and Features

The core of an indoor fiber optic cable is composed of a specified number of optical fibers, each capable of carrying large amounts of data at high speeds. Surrounding these fibers is a protective plastic sleeve, which shields them from potential damage. The outer plastic cover offers additional protection while keeping the cable lightweight and flexible.

A notable feature of indoor fiber optic cables is their lower tensile strength compared to outdoor cables. This is because the environmental stresses and physical demands are typically less severe indoors. Consequently, these cables do not require the same level of robust construction as outdoor cables, making them both lighter and more cost-effective.

Applications of Indoor Fiber Optic Cables

One of the primary applications of indoor fiber optic cables is in building wiring. These cables are used to connect various network devices, such as routers, switches, and servers, facilitating seamless communication and data transfer within a building. They are also commonly employed in data centers, where they link servers and other critical equipment.

Another important application is in the form of Fiber Optic Indoor Patch Cords. These short, flexible cables are used to connect end devices to the main network infrastructure, providing a reliable and efficient link in the communication chain. Their flexibility and ease of use make them invaluable in settings where frequent changes to network configurations are required.

Advantages of Indoor Fiber Optic Cables

Indoor fiber optic cables offer several advantages over traditional copper cables. Firstly, they provide significantly higher bandwidth, enabling the transfer of larger amounts of data at faster speeds. This makes them particularly suitable for modern networks that require high-speed internet and large data transfers.

Secondly, fiber optic cables are less susceptible to electromagnetic interference, which can be a significant issue in environments with a high density of electronic devices. This results in a more stable and reliable communication line.

Lastly, indoor fiber optic cables are typically more durable and have a longer lifespan than copper cables. They are resistant to environmental factors such as temperature fluctuations and moisture, ensuring consistent performance over time.

Conclusion

Indoor fiber optic cables are an essential component in modern communication networks, offering high-speed data transfer, reliability, and durability. Their construction is optimized for indoor environments, making them lightweight, flexible, and cost-effective. Whether used for building wiring or as Fiber Optic Indoor Patch Cords, these cables play a crucial role in ensuring efficient and effective communication within enclosed spaces. As technology continues to advance, the importance and application of indoor fiber optic cables are only set to increase, solidifying their place as a foundational element in the infrastructure of the digital age.

What is the difference between indoor and outdoor fiber optic cable?

Fiber optic cables are essential components of modern communication systems, enabling high-speed data transmission over long distances. These cables are broadly categorized into indoor and outdoor fiber optic cables, each designed to meet the unique demands of their respective environments. Understanding the differences between these two types of cables is crucial for selecting the right solution for specific applications.

Structure and Composition



The core difference between indoor and outdoor fiber optic cables lies in their structural composition tailored for respective environmental conditions. Indoor fiber optic cables are composed primarily of optical fibers encased in a plastic protective sleeve and an outer plastic layer. This design focuses on being lightweight and economical, suitable for indoor environments where extreme physical stress and environmental conditions are not factors.

In contrast, outdoor fiber optic cables are designed to withstand harsher external conditions. These cables feature higher tensile strength and are typically armored with a metal sheath for added protection. The thicker protective layers make them resilient to environmental factors such as moisture, temperature fluctuations, and physical damage from external impacts. Additionally, some outdoor cables are designed for specific applications like underground burial, aerial deployment, or underwater installation, further enhancing their durability and versatility.

Performance and Application



Indoor fiber optic cables are optimized for internal building networks, facilitating connections between different devices and systems within a controlled environment. Their lightweight nature and lower tensile strength are suitable for applications like horizontal wiring and vertical backbone subsystems within buildings. Due to their economical design, they provide a cost-effective solution for internal network infrastructure without the need for excessive protective features.

On the other hand, outdoor fiber optic cables serve a different purpose. These cables are critical for connecting buildings and extending network reach across broader geographic areas, often involving long distances. The enhanced tensile strength and robust protective layers enable them to perform reliably despite exposure to external elements. For instance, their design allows them to be buried underground, laid in pipelines, or strung overhead without compromising on performance. These characteristics make outdoor cables ideal for inter-building connections and remote network extensions.

Usage Environment



The intended usage environment significantly influences the choice between indoor and outdoor fiber optic cables. Indoor optical cables are confined to controlled, benign environments where physical and environmental stresses are minimal. They are typically used within office buildings, residential complexes, or data centers where the primary concern is efficient and reliable data transmission without the need for additional protective measures.

Conversely, outdoor fiber optic cables must endure fluctuating and often harsh environmental conditions. Be it extreme temperatures, moisture, or physical impacts, outdoor cables are built to handle such adversities without degrading performance. Therefore, they are utilized in outdoor settings where robust protection is paramount, such as connecting different buildings in a campus setting, extending service to remote areas, or establishing telecom networks across cities and regions.

Overview of Fiber Optic Indoor Patch Cord



A specific application within indoor environments is the Fiber Optic Indoor Patch Cord. These patch cords are designed for short-distance data connections within buildings, offering flexibility and ease of use. They are typically used to link various network devices such as switches, routers, and patch panels within a controlled indoor environment. Given their design for indoor use, they prioritize flexibility, ease of installation, and cost-efficiency over the need for rugged protection.

In conclusion, the main differences between indoor and outdoor fiber optic cables revolve around their structural design, application, and performance requirements tailored to their respective environments. Indoor cables are lightweight, economical, and suitable for controlled environments, while outdoor cables are robust, durable, and designed to withstand external environmental stresses. Understanding these distinctions is essential for choosing the right type of cable to ensure reliability and efficiency in various communication infrastructure projects.

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