2 Core Spiral Steel Armored Indoor Buy Fiber Optic Cable
durability and reliability in various conditions. Specifically designed to withstand physical stresses
and harsh environments, they deliver long-lasting performance even in challenging situations.
environments. In the event of a fire, they help prevent the spread of flames, protecting both
equipment and personnel from potential harm.
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.
large-capacity data transmission without compromising integrity. Their flexibility simplifies
installation and maintenance, making them a practical choice for various applications.
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.
Applications
at fulfilling a wide array of distribution needs. Engineered to endure diverse environmental
conditions, they guarantee reliable performance and uninterrupted connectivity across different
scenarios.
components for linking optical fibers to equipment. Their ability to establish stable and efficient
connections is indispensable for the seamless operation of optical networks and the smooth
transmission of data.
cables offer streamlined cabling solutions. They contribute to maintaining the integrity and
functionality of optical network infrastructure, ensuring optimal performance.
cables are indispensable for optical connections in various apparatus and equipment setups.
Their consistent and dependable connectivity ensures the smooth and efficient operation of
diverse optical communication systems.
Characteristics
environmental properties, guaranteeing durability and reliability across diverse conditions.
Specifically crafted to withstand physical stresses and harsh environments, they deliver
enduring performance even in the most challenging situations.
environments, effectively preventing the spread of flames in case of fire and safeguarding
both equipment and personnel from potential harm.
consistent and reliable performance that meets the most demanding requirements
without compromising on quality.
large-capacity data transmission without compromising integrity. Their flexibility streamlines
installation and maintenance processes, making them a practical and efficient choice for various
applications.
customizable solutions. Whether for specific industry requirements or tailored installations,
they can be adjusted to meet unique demands, ensuring wide 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 | ---- | ---- | ---- |