Low insertion loss, Bending radius 10mm, Aramid fiber reinforced, Up to 10 Gbps, 0.3 dB insertion loss, 55 dB return loss, Wavelength of 1260-1625 nm, Coarse Wavelength Division Multiplexing (CWDM) support, Color coded connectors, Ceramic ferrule, Bend insensitive
Right Connector Qty
2
Left Connector Qty
2
Core / Cladding Diameter
9 / 125 micron
Jacket Material
Low Smoke Zero Halogen (LSZH)
Type of Fiber Optics
Singlemode
Dimensions & Weight
Length
1 m
Diameter
2 mm
Length in Meters
1 m
Dimensions & Weight (Shipping)
Shipping Width
20 cm
Shipping Depth
22 cm
Shipping Height
0,27 cm
Shipping Weight
18,2 g
Service & Support
Type
Limited lifetime warranty
Miscellaneous
Color
Yellow
Color Category
Yellow
Description
OS2 LC to SC Single Mode Duplex Fiber Optic Patch cable facilitates connectivity across 10G networks. It supports Coarse Wavelength Division Multiplexing (CWDM) across an extended wavelength range of 1260-1625nm, improving channel isolation for optimal signal strength over long distances. Compatibility This 9/125µm Single Mode fiber cable supports 1260-1625nm laser-optimized sources and is ideal for critical connections between servers, switches, and data center equipment. It is backward compatible with OS1 networks, ensuring a reliable connection in legacy fiber environments. Engineered for Optimal Performance Precision-manufactured ceramic ferrules ensure correct fiber alignment to preserve insertion loss below 0.3dB. Ultra Physical Contact (UPC)-polished LC to SC fiber ends greatly improves return loss characteristics over older PC polishing techniques. The Bend Insensitive fiber core is surrounded by a layer of low refractive index material. This material reduces the amount of light that can escape the fiber cable by reflecting the light back into the fiber. The OS2 fiber patch cord is engineered for low attenuation and performance that exceeds ITU-T G652.D/G657.A1 and IEC60703-2-50 type B1.3/B6.a1 industry standards. LSZH Cable Jacket Housed in a Low-Smoke Zero-Halogen (LSZH) flame-retardant jacket, the OS2 fiber cable emits low smoke and toxic fumes when exposed to extreme heat or in the event of a fire. This enables safer cable installations in areas with poor ventilation including some industrial settings, self-contained environments such as trains and aircraft, as well as residential settings where compliance with building codes must be considered. Each OS2 fiber cable is individually tested for insertion loss performance and includes a test report, for guaranteed compatibility and 100% reliability.
Compatibility This 9/125µm Single Mode fiber cable supports 1260-1625nm laser-optimized sources and is ideal for critical connections between servers, switches, and data center equipment. It is backward compatible with OS1 networks, ensuring a reliable connection in legacy fiber environments.
Engineered for Optimal Performance Precision-manufactured ceramic ferrules ensure accurate fiber alignment for an insertion loss below 0.3dB. Ultra Physical Contact (UPC)-polished LC to SC fiber ends greatly improve return loss characteristics over older PC polishing techniques. The Bend Insensitive fiber core is surrounded by a layer of low refractive index material. This material reduces the amount of light that can escape the fiber cable by reflecting the light back into the fiber. The OS2 fiber patch cord is engineered for low attenuation and performance that exceeds ITU-T G652.D/G657.A1 and IEC60703-2-50 type B1.3/B6.a1 industry standards.
LSZH Cable Jacket Housed in a Low-Smoke Zero-Halogen (LSZH) flame-retardant jacket, the OS2 fiber cable emits low smoke and toxic fumes when exposed to extreme heat or in the event of a fire. This enables safer cable installations in areas with poor ventilation including some industrial settings, self-contained environments such as trains and aircraft, as well as residential settings where compliance with building codes must be considered. Each OS2 fiber cable is individually tested for insertion loss performance and includes a test report, for guaranteed compatibility and 100% reliability.