Experience Seamless Speed with 2D Fiber

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About

Explore our cutting-edge optical fibers engineered for high speed network requirements. With low water peak attenuation and minimal optical losses across the entire bandwidth range, these optical fibers ensure uninterrupted data transmission. Their dual layers of acrylate coating enhance fiber reliability, making them perfect for high-speed applications. Compliant with and surpassing ITU-T G.652.D standards, these optical fibers are the go-to choice for high-speed transmission in DWDM, CWDM, metro networks, access networks, and CATV networks.

Features

Low Water Peak, Dual-layer Acrylate Coating, Backbone; Metro and Long-haul Networks, High Durability in Harsh Conditions, Compatible with Legacy Networks, Compatible with ITU-TG.652D Recommendations

Benefits

Low Water Peak Attenuation

Ensures minimal signal loss in the entire bandwidth range for reliable high-speed data transmission.

Acrylate Coating for Enhanced Reliability

These optical fibers consist of dual layers that enhance fiber durability, ensuring consistent performance in demanding environments.

Seamless High-speed Connectivity

Facilitates smooth data transmission, making it ideal for applications like DWDM, CWDM, metro, access, and CATV networks.

Internationally Recognized Quality Assurance

Adhering to ITU-T G.652.D standards ensures a high level of performance and compatibility, assuring users of top-notch quality.

Key Specifications

Attribute
Unit
Value
Transmission Properties
Attenuation @ 1310 nm
dB/km
≤ 0.34
Attenuation @ 1383 nm
dB/km
≤ Value at 1310 nm
Attenuation @ 1550 nm
dB/km
≤ 0.20
Attenuation @ 1625 nm
dB/km
≤ 0.23
PMD coefficient (Individual Fiber)
ps//√km
≤ 0.20
Macro-bend Loss
1 turn around 16 mm radius
dB
≤ 0.50 @ 1550 nm
≤ 1.00 @ 1625 nm
100 turn around 25 mm radius
dB
≤ 0.05 @ 1310nm
≤ 0.05 @ 1550 nm
100 turn around 30 mm radius
dB
≤ 0.05 @ 1550 nm
≤ 0.10 @ 1625 nm
Geometrical Characteristics
Coating Diameter
µm
242 ± 5
Mode Field Diameter
µm
9.2 ± 0.4 @ 1310 nm
10.4 ± 0.5 @ 1550 nm

Applications

High-speed transmission (DWDM and CWDM)
Metro networks
Access networks
CATV networks

Variants

FAQs

What are the different types of optical fibers?

Optical fibers come in various types, including single-mode and multi-mode fibers. Single-mode fibers are designed for long-distance transmission, while multi-mode fibers suit shorter distances. Specialty fibers cater to specific applications, such as dispersion-shifted fibers for enhanced signal quality.

How do signals travel through optical fibers?

Signals travel through optical fibers using the principle of total internal reflection. Light signals, often in the form of laser pulses, propagate through the core of the optical fiber.

How many fibers are in a fiber optic cable?

The number of fibers in a fiber optic cable can vary widely depending on the cable's design and purpose. Common fiber optic cables for telecommunications and networking purposes may have anywhere from a few to hundreds or even thousands of individual fibers bundled together within a single cable.

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Attribute	Unit	Value
Transmission Properties
Attenuation @ 1310 nm	dB/km	≤ 0.34
Attenuation @ 1383 nm	dB/km	≤ Value at 1310 nm
Attenuation @ 1550 nm	dB/km	≤ 0.20
Attenuation @ 1625 nm	dB/km	≤ 0.23
PMD coefficient (Individual Fiber)	ps//√km	≤ 0.20
Macro-bend Loss
1 turn around 16 mm radius	dB	≤ 0.50 @ 1550 nm ≤ 1.00 @ 1625 nm
100 turn around 25 mm radius	dB	≤ 0.05 @ 1310nm ≤ 0.05 @ 1550 nm
100 turn around 30 mm radius	dB	≤ 0.05 @ 1550 nm ≤ 0.10 @ 1625 nm
Geometrical Characteristics
Coating Diameter	µm	242 ± 5
Mode Field Diameter	µm	9.2 ± 0.4 @ 1310 nm 10.4 ± 0.5 @ 1550 nm