Buy Fiber Optic Cable 2 Core Spiral Steel Armoured Cable Single Core Fiber Optic Cable Multi Core Fiber Optic Cable
2 Core Spiral Steel Armored Indoor Buy Fiber Optic Cable
Description
- These cables are available in fiber diameters of Φ900μm or Φ600μm, offering the flexibility
to meet diverse installation requirements and ensuring suitability for a wide range of applications.
- Equipped with spiral steel armor, these cables provide robust protection against physical
stress and potential damage. This essential feature preserves the integrity of the fibers, particularly
in demanding environments.
- Incorporating two layers of Kevlar yarn, these cables significantly boost tensile strength and
resilience. This construction allows the cables to withstand harsh environments and mechanical strain,
ensuring long-term reliability and optimal performance.
- Designed specifically for vertical riser applications, the OFNR jacket ensures flame resistance
and prevents the spread of fire between floors. It is ideal for high-rise buildings and other vertical
installations.
- PVC jackets are known for their flexibility, ease of installation, and cost-effectiveness. Suitable
for a wide range of applications, they offer a balanced combination of performance and affordability,
making them versatile for various environments.
- LSZH jackets prioritize fire safety by emitting minimal smoke and containing no halogen content,
making them perfect for enclosed or high-density spaces. These jackets are particularly suitable for
environments where safety and low toxicity are paramount, such as public buildings and areas with
high human occupancy.
Applications
- Designed for both indoor and outdoor use, these cables are suitable for a wide range of distribution
scenarios. They are built to withstand various environmental conditions, providing reliable performance and
ensuring uninterrupted connectivity in any setting.
- These cables are primarily used in the creation of pigtails and patch cords, which are crucial for
connecting optical fibers to equipment. They ensure stable and efficient connections, vital for the
seamless operation of optical networks and smooth data transmission.
- Employed in optical communication equipment rooms and distribution frames, these cables offer
efficient and organized cabling solutions. They help maintain the integrity and performance of the optical
network infrastructure, ensuring optimal functionality.
- These cables are utilized for optical connections in various apparatus and equipment scenarios.
They deliver consistent and dependable connectivity, ensuring that diverse optical communication
systems operate smoothly and efficiently, whether in specialized equipment or general applications.
Characteristics
- These cables are engineered to offer exceptional mechanical and environmental properties,
ensuring durability and reliability in various conditions. They are specifically designed to withstand
physical stresses and harsh environments, delivering long-lasting performance even in challenging
situations.
- Complying with relevant flame retardant standards, these cables prioritize safety in critical
environments. In the event of a fire, they help prevent the spread of flames, protecting both
equipment and personnel from potential harm.
- The mechanical attributes of these cables are meticulously aligned with specified standards,
guaranteeing consistent and reliable performance. This adherence assures users that the cables
will function as expected, even in the most demanding applications, without compromising on quality.
- Featuring a soft and flexible design, these cables facilitate easy splicing and accommodate
large-capacity data transmission without compromising integrity. Their flexibility simplifies installation
and maintenance, making them a practical choice for various applications.
- Designed to meet diverse market and client requirements, these cables provide adaptable
and customizable solutions. Whether for specific industry needs or custom installations, they
can be tailored to meet unique demands, ensuring broad applicability and suitability across
different sectors.
Cable construction details
| Technical Parameters: | |||||||
| Out Diameter(MM) | 2.0 | Weight(KG) | 15.0 | ||||
| 2.8 | 18.0 | ||||||
| 3.0 | 18.0 | ||||||
| Storage temperature(℃) | -20 ~ +60 | ||||||
| Min Bending Radius(mm) | Long term | 10D | |||||
| Min Bending Radius(mm) | Short term | 20D | |||||
| Min allowable Tensile Strength(N) | Long term | 300 | |||||
| Min allowable Tensile Strength(N) | Short term | 1000 | |||||
| Crush Load (N/100mm) | Long term | 500 | |||||
| Crush Load (N/100mm) | short term | 1000 | |||||
Fiber characteristic
| Fiber style | Unit | SM G652 |
SM G652D |
MM 50/125 |
MM 62.5/125 |
MM OM3-300 |
|
| condition | nm | 1310/1550 | 1310/1550 | 850/1300 | 850/1300 | 850/1300 | |
| attenuation | dB/km | ≤ | ≤ | ≤ | ≤3.0/1.0 | ≤3.0/1.0 | |
| 0.36/0.23 | 0.34/0.22 | 3.0/1.0 | ---- | ---- | |||
| Dispresion | 1550nm | Ps/(nm*km) | ---- | ≤18 | ---- | ---- | Dispresion |
| 1625nm | Ps/(nm*km) | ---- | ≤22 | ---- | ---- | ||
| Bandwith | 850nm | MHZ.KM | ---- | ---- | ≧400 | ≧160 | Bandwith |
| 1300nm | MHZ.KM | ---- | ---- | ≧800 | ≧500 | ||
| Zero dispersion wavelength | nm | 1300-1324 | ≧1302, ≤1322 |
---- | ---- | ≧ 1295, ≤1320 |
|
| Zero dispresion slope | nm | ≤0.092 | ≤0.091 | ---- | ---- | ---- | |
| PMD Maximum Individual Fibr | ≤0.2 | ≤0.2 | ---- | ---- | ≤0.11 | ||
| PMD Design Link Value | Ps(nm2*km) | ≤0.12 | ≤0.08 | ---- | ---- | ---- | |
| Fibre cutoff wavelength λc | nm | ≧ 1180, ≤1330 |
≧1180, ≤1330 |
---- | ---- | ---- | |
| Cable sutoff wavelength λcc | nm | ≤1260 | ≤1260 | ---- | ---- | ---- | |
| MFD | 1310nm | um | 9.2+/-0.4 | 9.2+/-0.4 | ---- | ---- | ---- |
| 1550nm | um | 10.4+/-0.8 | 10.4+/-0.8 | ---- | ---- | ---- | |
| Numerical Aperture(NA) |
---- | ---- | 0.200+/ -0.015 |
0.275+/-0. 015 |
0.200+/-0 .015 |
||
| Step(mean of bidirectional measurement) |
dB | ≤0.05 | ≤0.05 | ≤0.10 | ≤0.10 | ≤0.10 | |
| Irregularities over fiber length and point |
dB | ≤0.05 | ≤0.05 | ≤0.10 | ≤0.10 | ≤0.10 | |
| Dicontinuity | |||||||
| Difference backscatter coefficient |
dB/km | ≤0.05 | ≤0.03 | ≤0.08 | ≤0.10 | ≤0.08 | |
| Attenuation uniformity | dB/km | ≤0.01 | ≤0.01 | ||||
| Core dimater | um | 50+/-0.9 | 62.5+/-2.4 | 50+/-0.8 | |||
| Cladding diameter | um | 125.0+/-0.2 | 125.0+/-0.2 | 125.0+/-0.2 | 125.0+/-0.3 | 125.0+/-0.3 | |
| Cladding non-circularity | % | ≤1.0 | ≤1.0 | ≤1.0 | ≤1.0 | ≤1.0 | |
| Coating diameter | um | 242+/-5 | 242+/-5 | 242+/-6 | 242+/-6 | 242+/-5 | |
| Coating/chaffinch concentrically error |
um | ≤12.0 | ≤12.0 | ≤12.0 | ≤12.0 | ≤12.0 | |
| Coating non circularity | % | ≤6.0 | ≤6.0 | ≤6.0 | ≤6.0 | ≤6.0 | |
| Core/cladding conentricity error | um | ≤0.5 | ≤0.5 | ≤1.3 | ≤1.3 | ≤1.3 | |
| Curl(radius) | um | ≤4 | ≤4 | ---- | ---- | ---- | |
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