Fiber optic patch cord
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Fibline Series
Fibline Fiber Patch Cord Series
Our Fiber Optic Patch Cord undergoes meticulous manufacturing and testing processes, adhering to industry standards such as TIA 604 (FOCIS), IEC 61754, and YD/T. With compatibility across various fiber types including OM1, OM2, OM3, OM4, OM5, and OS2, our Patch Cords are designed to meet the requirements of Gigabit Ethernets, 100 Gigabit Ethernet, and high-speed Fiber Channel. Each Patch Cord undergoes rigorous parameter testing to guarantee exceptional network performance and reliability.
Standard Fiber Optic Patch Cable Series
9/125μm OS2 single mode and bend-insensitive Fibline Fiber Optic Patch cables have less attenuation when twisted compared to conventional fiber optic cables, making these fiber optic cables more efficient to install and maintain. It also saves more space for your high density cables in data centers, corporate networks, telecom pop points, server rooms, cloud storage networks and where Fiber Patch cables are required.
The Fibline series Fiber Optic Patch cables are specifically designed to cater to 1G/10G/25G/40G/100G/400G Ethernet connections. These cables offer reliable data transmission capabilities, enabling data to be carried up to 10 km at 1310 nm or 40 km at 1550 nm.
Bend Insensitive, Ultra Low Loss Patch Cable Series
The Fibline series Fiber Optic Patch cables feature bend-insensitive G657 A2 fiber optic technology, allowing for a tight bend radius of 7.5mm. These cables are produced in accordance with international standards and exhibit low insertion loss (IL) values, ensuring reliable data transfer over long distances. >With IL values exceeding 97% for an average of ≤0.12dB and a maximum of ≤0.25dB, these cables meet the demands of state-of-the-art wide bandwidth and high-speed applications. They enable the transmission of large data streams efficiently and effectively.
- Single Mode and Muti Mode Options
- Insertion Loss (IL) ≤0.2dB
Uniboot Fiber Patch Cable Series
The Fibline Patch Cord Armored Series includes internally metal armored fiber optic patch cables. These cables provide stronger external protection compared to standard fiber optic cables. They are designed with a solid armor layer, allowing them to be installed in hazardous areas with light dust, oil, gas, moisture, and potential damage from rodents and vermin. With a tensile strength ranging from 225N to 320N, they offer reliable durability. The Armored Series is available in both Duplex and Simplex configurations.
Armored Fiber Patch Cable Series
The Fibline Patch Cord Armored Series includes internally metal armored fiber optic patch cables. These cables provide stronger external protection compared to standard fiber optic cables. They are designed with a solid armor layer, allowing them to be installed in hazardous areas with light dust, oil, gas, moisture, and potential damage from rodents and vermin. With a tensile strength ranging from 225N to 320N, they offer reliable durability. The Armored Series is available in both Duplex and Simplex configurations.
All of our products are tested by our experienced engineers at international standards with state-of-the-art testing equipment.
Polarity Test
The test of properly transmitting the data from the TX end to the RX end at the other end with light signals is provided.
Tip Surface Test
The cleanliness of the tip surfaces is tested to improve communication security, quality, and maintain stable network uptime.
IL and RL Test:
IL and RL Test: Our comprehensive IL and RL testing process examines the insertion and return loss of connectors at the ends of fiber optic cables, guaranteeing reliable and stable communication.
F.A.Q
No. Instead, you can examine our Industrial or CPRI Patch Cable series.
Vodafone, Türk Telekom and Türknet
shows the bending radii and performances of the inner cores. G652D bending radius is 25 mm, while G657 A2/B2 bending radius is 7.5 mm
Minimum compression strength is 2000N/10CM (Long term) or short term compression strength is 3000N/10CM.
G652D: fiber fibers have marginally lower attenuation and lower splicing losses when splicing. It is also used in applications of long cable networks. Its cost is lower than other fibers.