Features
1. Summary of Key Advantages:
Indoor optical cables are specifically designed for complex indoor environments. They offer easy installation, bend resistance, and flame retardancy, meeting the requirements of applications such as communication equipment connection and building wiring.² Their optimized structure (such as the flat/tight buffer design) and material selection (halogen-free jacket) balance performance and practicality.
2. Key Advantages:
Easy Installation: Flat or dual-core structures (such as the GJFJ8V model) allow for rapid deployment and are suitable for equipment pigtails and indoor cabling.
High Flexibility: Its small bend diameter design allows for cabling in tight spaces, minimizing signal loss.
Safety and Reliability: Thanks to its flame-resistant LSZH/PVC jacket, it meets indoor fire safety standards.
Independent Reinforcement: Integrated reinforcement elements, such as aramid yarn, improve tensile strength and protect the fiber from external f
Applications
Indoor optical cables have a wide range of applications spanning multiple industries. The main ones are:
1. Data Centers
Indoor 10 Gigabit OM4 multimode optical cables are used in data centers to interconnect servers, connect storage area networks (SANs), and connect core and access switches. They meet the high bandwidth and low latency requirements of data centers and support fast data reading, writing, and transmission.
2. Enterprise Campus Networks
Indoor 10 Gigabit OM4 multimode optical cables can serve as backbone connections between buildings within an enterprise campus or as vertical backbone cabling between floors within large office buildings, providing businesses with stable, high-speed network connections and supporting various business applications such as video conferencing, file sharing, and ERP systems.
3. Cloud Computing and Hosting Services
In cloud computing data centers and hosting provider facilities, indoor 10 Gigabit OM4 multimode optical cables are used to connect different server clusters, storage devices, and network equipment, ensuring the operation of cloud computing services and rapid data transmission.
4. Video Surveillance Systems
Ideal for large-scale video surveillance projects, such as urban security surveillance, airport surveillance, and campus surveillance, these cables support the real-time transmission of high-definition video streams, ensuring clear and smooth surveillance recording and facilitating both real-time monitoring and post-event playback.
5. Optical Connections in Optical Communication Equipment Rooms and Distribution Frames, as well as for the connection of optical instruments and equipment.
Indoor optical cables are widely used for optical connections in optical communication equipment rooms and distribution frames, as well as for connecting optical instruments and equipment. They are also suitable for use as pigtails, patch cords, and drop cables in buildings.
6. Indoor Cabling
Indoor optical cables are used for cabling within buildings and for connecting network devices. Due to the limitations imposed by the building environment and installation conditions, the structural design of indoor optical cables has become increasingly complex, with the use of various optical fiber and cable materials and different priorities regarding mechanical and optical performance.
7. Remote communications, security monitoring, temperature sensing, military operations, emergency repairs, and many other fields.
With the increasing use of indoor optical cables, their application environments have long expanded beyond the purely indoor environment, placing higher demands on mechanical, environmental, and flame-retardant properties.
In short, indoor optical cables have important applications in a wide range of fields, providing high-speed, stable, and reliable optical signal transmission solutions for various industries.
Mechanical Specifications
Cable Model |
Outer Diameter
(mm)
|
Weight
(kg/km)
|
Tensile Strength(N) |
Crush Resistance(N/100mm) |
Bending Radius |
Jacket Thickness(mm) |
Long term |
Short term |
Long term |
Short term |
Dynamic |
Static |
GJFJV-2F |
3.6±0.2 |
12.5 |
180 |
440 |
300 |
1000 |
20D |
10D |
0.45±0.05 |
GJFJV-4F |
4.7±0.2 |
17.6 |
180 |
440 |
300 |
1000 |
20D |
10D |
0.8±0.1 |
GJFJV-6F |
5.2±0.2 |
22.8 |
180 |
440 |
300 |
1000 |
20D |
10D |
0.9±0.1 |
GJFJV-8F |
5.8±0.2 |
26.7 |
180 |
440 |
300 |
1000 |
20D |
10D |
0.9±0.1 |
GJFJV-12F |
6.3±0.2 |
32.7 |
180 |
440 |
300 |
1000 |
20D |
10D |
0.9±0.1 |
GJFJV-24F |
8.0±0.2 |
53 |
200 |
660 |
300 |
1000 |
20D |
10D |
1.0±0.1 |