Basic Info.
Model NO.
T-OF089
Material Shape
Customized
Allowed Lateral Pressure
Customized
Allowed Tensile Strength
Customized
Core
Multicore
Certification
ISO9001, IEC60793-2-10A1a.2/A1a.3
Brand
OEM
Sheath Material
Customized
Transport Package
Carton, Wooden Case
Specification
As Customized
Trademark
TOEM
Origin
China
Production Capacity
500000 Meter/Year
Product Description
OM 2 (50 / 125 μ m) Multimode fiber and fiber, also known as gradient fiber, gradient refractive index fiber, is the fiber with gradient refractive index or gradient distribution of the fiber core area in the cross section (such as parabolic shape). The purpose of adopting the gradient refractive index fiber is to reduce the pattern dispersion of the multimode fiber.This fiber has small dispersion and bandwidth is 1~2 orders of magnitude larger than that of mutant fiber, which is suitable for medium distance fiber communication system.
OM 2 (50 / 125 μ m) bending insensitive multimode fiber meets or exceeds ISO / IEC 11801-1 OM 2 specification, IEC 60793-2-10 A1-OM 2 specification and TIA-492AAAF A1-OM 2 specification.
Product Characteristics:
* Using a proprietary double-layer UV-cured acrylate coating.
* Excellent microbending resistance.
* Use for tight sleeve optical cable performance is superior.
* Stable performance under multiple environmental conditions.
*Superior geometric consistency,Low attenuation
*At 850nm and 1300nm wavelengths with high bandwidth.
*Manufactured using the PCVD process.
*An extremely accurate refractive index profile.
Applicable to:
*LAN application video, audio.
*Data services are applicable to Gigabit Ethernet for laser or LED light sources
*Support the use and installation of optical cables at a small bending radius
Specifications:
Package: Standard
OM 2 (50 / 125 μ m) bending insensitive multimode fiber meets or exceeds ISO / IEC 11801-1 OM 2 specification, IEC 60793-2-10 A1-OM 2 specification and TIA-492AAAF A1-OM 2 specification.
Product Characteristics:
* Using a proprietary double-layer UV-cured acrylate coating.
* Excellent microbending resistance.
* Use for tight sleeve optical cable performance is superior.
* Stable performance under multiple environmental conditions.
*Superior geometric consistency,Low attenuation
*At 850nm and 1300nm wavelengths with high bandwidth.
*Manufactured using the PCVD process.
*An extremely accurate refractive index profile.
Applicable to:
*LAN application video, audio.
*Data services are applicable to Gigabit Ethernet for laser or LED light sources
*Support the use and installation of optical cables at a small bending radius
Specifications:
Features | Conditions | Data | Unit |
Geometrical Features | |||
Core Diameter | -- | 50±2.5 | [μm] |
Core out-of-roundness | -- | ≤5.0 | [%] |
Cladding diameter | -- | 125.0±1.0 | [μm] |
Non-circularity of cladding | -- | ≤1.0 | [%] |
Coating diameter | -- | 245±7 | [μm] |
Coating / cladding concentricity | -- | ≤10.0 | [μm] |
Non-circularity of coating | -- | ≤6.0 | [%] |
Core layer / cladding concentricity | -- | ≤1.5 | [μm] |
Fiber length | -- | Maximum17.6 | [km/disk] |
Optical characteristics | |||
Damping | 850nm | ≤2.7 | [dB/km] |
1300nm | ≤0.6 | [dB/km] | |
Full injection bandwidth | 850nm | ≥200 | [MHz·km] |
1300nm | ≥500 | [MHz·km] | |
Full injection bandwidth | -- | 0.275±0.015 | -- |
Group index | 850nm | 1.496 | -- |
1300nm | 1.491 | -- | |
Zero dispersion wavelength | -- | 1320~1365 | [nm] |
Zero dispersion slope | 1320nm≤ λ0 ≤1348nm | ≤0.11 | [ps/(nm2·km)] |
1348nm≤ λ0 ≤1365nm | ≤0.001(1458-λ0 ) | [ps/(nm2·km)] | |
Macro bend loss | -- | -- | -- |
100 laps, with radius 37.5mm | 850nm | ≤0.50 | [dB] |
1300nm | ≤0.50 | [dB] | |
Backscattering characteristics of 1300nm | |||
Steps (average of bidirectional measurements) | -- | ≤0.10 | [dB] |
Irregularities and point discontinuity in the length direction | -- | ≤0.10 | [dB] |
Inhomogeneity of attenuation | -- | ≤0.10 | [dB/km] |
Environmental characteristics of 850nm and 1300nm | |||
Additional attenuation of the temperature cycle | -60ºC~ 85ºC | ≤0.10 | [dB/km] |
Additional attenuation of the temperature-humidity cycle | -10ºC ~85ºC,4%~98% relative humidity | ≤0.10 | [dB/km] |
Immersion additional attenuation | 23ºC, 30 days | ≤0.10 | [dB/km] |
Dry heat additional attenuation | 85ºC,30days | ≤0.10 | [dB/km] |
Heat and heat attach attenuation | 85ºC and 85% relative humidity,30days | ≤0.10 | [dB/km] |
mechanical properties | |||
Screening tension | -- | ≥9.0 | [N] |
-- | ≥1.0 | [%] | |
-- | ≥100 | [kpsi] | |
Coating stripping force | Typical average stripping force | 1.5 | [N] |
Peak force | ≥1.3,≤8.9 | [N] | |
Dynamic fatigue parameter (nd, typical value) | -- | 20 | -- |
Package: Standard
- Excellent
- Excellent geometric uniformity and batch consistency
- Excellent radiation resistance
- W
- ide working temperature range and good full temperature stability
- Excellent birefringence effect
- Excellent long-term reliability
- geometric uniformity and batch consistency
- Excellent radiation resistance
- Wide working temperature range and good full temperature stability
- Excellent birefringence effect
- Excellent long-term reliab