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Fiber Optic Cables

Shop fiber optic cables at CableLeader. Find LC LC and LC SC single mode 9/125 fiber cables for fast Ethernet and long-range networking. Low insertion loss, high return loss. UL listed and OFNR rated.

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1m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4101

1m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$7.28
2
$7.21
20
$7.10
40
$6.96
$7.28
2m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4102

2m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$7.48
2
$7.43
20
$7.35
40
$7.20
$7.48

Out of stock

3m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4103

3m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$8.15
2
$8.07
20
$7.98
40
$7.82
$8.15

Out of stock

5m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4105

5m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$12.38
2
$12.18
20
$11.95
40
$11.71
$12.38
10m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4110

10m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$13.38
2
$13.25
20
$13.05
40
$12.79
$13.38
15m OM3 LC/LC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua
SKU: FB106-4115

15m OM3 LC to LC UPC Uniboot Duplex Corning Fiber Optic Cable Multimode 50/125 OFNR Rated, Aqua

1
$18.30
2
$18.12
20
$17.85
40
$17.49
$18.30
1m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua
SKU: FB123-4B01

1m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua

1
$40.49
2
$39.68
20
$38.49
40
$36.95
$40.49
1.5m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua
SKU: FB123-4B1H

1.5m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua

1
$43.49
2
$42.62
20
$41.34
40
$39.69
$43.49
2m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua
SKU: FB123-4B02

2m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua

1
$46.99
2
$46.05
20
$44.67
40
$42.88
$46.99
3m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua
SKU: FB123-4B03

3m OM4 MTP TO MTP 12 Fibers Corning Fiber Trunk Cable Type B Multimode 50/125 OFNP Rated, Aqua

1
$52.99
2
$51.93
20
$50.37
40
$48.36
$52.99

Items 1-10 of 442

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More About Fiber Optic Cables

CableLeader is your trusted source for high-quality LC-LC single-mode fiber optic cables and LC-SC single-mode fiber optic cables. Our extensive range of fiber optic cables is perfect for fast Ethernet, gigabit Ethernet, and other data applications requiring long-range networking solutions.

Our fiber optic cables feature:

  • Connectors: LC to LC and LC to SC connectors for versatile connectivity
  • Applications: Ideal for high-density network applications, upright shafts between floors, and long-range networking
  • Quality & Safety: Made with Corning® glass, UL listed, and OFNR (riser) rated for reliable and safe performance

With low insertion loss (≤0.3 dB) and high return loss (≥55 dB), our 9/125 single-mode fiber optic cables ensure optimal signal transmission. Each cable comes with a test report for guaranteed performance. Choose CableLeader for your fiber optic cabling needs and experience the difference in quality and reliability.

Here is the SEO-optimized comprehensive article on fiber optic cables:

Fiber Optic Cables: The Future of High-Speed Internet and Data Transmission

In today's digital age, high-speed internet and reliable data transmission are essential for both personal and professional applications. Fiber optic cables, also known as optical fiber cables, have emerged as the cutting-edge solution for meeting these demands. These cables utilize light to transmit data over long distances, offering unparalleled speed, bandwidth, and reliability compared to traditional copper cables.

What are Fiber Optic Cables?

Fiber optic cables are composed of thin strands of glass or plastic, known as optical fibers, encased in protective cladding and jackets. These cables transmit data in the form of light pulses, enabling faster and more efficient data transfer compared to electrical signals used in copper cables. Fiber optic cables come in two main types: single-mode fiber and multi-mode fiber, each designed for specific applications and distances.

Single-Mode Fiber Optic Cables

Single-mode fiber optic cables are ideal for long-distance communication and high-bandwidth applications. They feature a small core diameter, typically 8-10 microns, allowing light to travel in a single path with minimal dispersion. This makes single-mode fibers suitable for transmitting data over vast distances, ranging from a few kilometers to thousands of kilometers, with minimal signal loss.

Multi-Mode Fiber Optic Cables

Multi-mode fiber optic cables, on the other hand, have a larger core diameter, typically 50-100 microns, allowing light to travel in multiple paths or modes. These cables are better suited for shorter distances, such as within buildings or campus environments, and are commonly used in local area networks (LANs) and data centers.

Key Specifications of Fiber Optic Cables

When selecting fiber optic cables, it's essential to consider the following key specifications:

  • Fiber Connectors: Fiber optic cables are available with various connector types, such as LC, SC, ST, and FC, designed for different applications and compatibility requirements.
  • Fiber Mode: As mentioned earlier, fiber optic cables can be single-mode or multi-mode, with different core diameters and light propagation characteristics.
  • Fiber Count: This refers to the number of individual optical fibers bundled within a single cable, typically ranging from 2 to 144 fibers.
  • Polish Type: The polish type, such as UPC (Ultra Polished Connectors) or APC (Angled Polished Connectors), affects the return loss and performance of the cable.
  • Insertion Loss and Return Loss: These parameters measure the signal attenuation and reflectance, respectively, and are crucial for ensuring optimal data transmission.
  • Jacket Material and Color: The jacket material and color protect the optical fibers and aid in cable identification and organization.

Applications of Fiber Optic Cables

Fiber optic cables have revolutionized various industries and applications due to their exceptional performance and capabilities. Some of the most common applications include:

  • Telecommunications: Fiber optic cables form the backbone of modern telecommunication networks, enabling high-speed internet, voice, and video services over vast distances.
  • Data Centers: In data centers, fiber optic cables are used for high-speed data transfer between servers, storage devices, and network equipment, ensuring efficient and reliable data processing.
  • Cable TV and IPTV: Cable TV and IPTV providers rely on fiber optic cables to deliver high-quality video and audio content to millions of subscribers.
  • Industrial Automation: Fiber optic cables are increasingly used in industrial settings for reliable data transmission, remote monitoring, and control systems due to their immunity to electromagnetic interference.
  • Military and Aerospace: The durability and security of fiber optic cables make them ideal for military and aerospace applications, where data integrity and reliability are paramount.

Advantages of Fiber Optic Cables

Fiber optic cables offer numerous advantages over traditional copper cables, making them the preferred choice for high-speed data transmission:

  1. Higher Bandwidth and Speed: Fiber optic cables can transmit data at incredibly high speeds, up to terabits per second, enabling faster internet, video streaming, and data transfer.
  2. Long-Distance Transmission: Single-mode fiber optic cables can transmit data over vast distances with minimal signal loss, making them ideal for long-haul communication networks.
  3. Immunity to Electromagnetic Interference: Unlike copper cables, fiber optic cables are not affected by electromagnetic interference (EMI), ensuring reliable and secure data transmission.
  4. Lower Signal Attenuation: Fiber optic cables experience lower signal attenuation compared to copper cables, resulting in less signal loss over long distances.
  5. Durability and Reliability: Fiber optic cables are highly durable and resistant to environmental factors, such as moisture, temperature fluctuations, and corrosion, ensuring long-lasting performance.
  6. Security: Data transmitted through fiber optic cables is more secure as it is difficult to tap or intercept the light signals without detection.

The Future of Fiber Optic Cables

As the demand for high-speed internet and data transmission continues to grow, fiber optic cables will play an increasingly crucial role in shaping the future of communication networks. With ongoing advancements in fiber optic technology, we can expect even higher data rates, longer transmission distances, and improved cost-effectiveness.

Moreover, the integration of fiber optic cables with emerging technologies, such as 5G networks, the Internet of Things (IoT), and cloud computing, will further enhance our ability to transmit and process data efficiently and securely.

At CableLeader, we offer a wide range of high-quality fiber optic cables designed to meet the diverse needs of our customers. With our commitment to excellence and innovation, we are at the forefront of providing cutting-edge fiber optic solutions for a connected world.

Conclusion

Fiber optic cables have revolutionized the way we transmit data, enabling faster internet speeds, reliable communication networks, and efficient data processing. With their superior bandwidth, long-distance transmission capabilities, and immunity to electromagnetic interference, fiber optic cables are the future of high-speed data transmission. As technology continues to evolve, the demand for these cables will only increase, paving the way for a more connected and efficient world.

Fiber Optic Cables FAQ

What are fiber optic cables used for?

Fiber optic cables are used for transmitting data over long distances at high speeds. They are the backbone of modern internet networks, providing homes and businesses with high-speed fiber optic internet, phone, and TV services. Fiber optic cables offer faster data transmission rates and higher bandwidth compared to traditional copper cables, making them ideal for applications that require high data throughput and low latency.

What are the 3 types of fiber optic cables?

The three main types of fiber optic cables are:

  • Single-mode fiber - A single strand of glass fiber with a diameter of 8.3 to 10 microns, used for long-distance data transmission.
  • Multimode fiber - Multiple strands of glass fibers with a larger core diameter, used for shorter distances and lower bandwidth applications.
  • Plastic optical fiber (POF) - Made of plastic instead of glass, used for short-distance applications and less demanding environments.

Is fiber optic cable better than regular cable?

Fiber optic internet is significantly faster than traditional cable internet and DSL. Fiber optic cables can provide internet speeds up to 20 times faster than regular cable internet and 80 times faster than DSL. While fiber internet plans may cost slightly more, the increased speeds, bandwidth, and reliability make fiber optic cables the superior choice for most internet users.

What are 3 disadvantages of fiber optic cables?

Some disadvantages of fiber optic cables include:

  1. Physical damage - Fiber optic cables are made of glass and can be more fragile compared to copper cables, making them susceptible to damage during installation or environmental conditions.
  2. Cost considerations - The initial installation and equipment costs for fiber optic networks can be higher than traditional copper-based networks.
  3. Structure - Fiber optic cables have a more complex structure, which can make them more challenging to install and maintain compared to simpler copper cables.

How do I connect my router to fiber?

To connect your router to a fiber optic internet connection, follow these steps:

  1. Connect one end of the fiber optic cable to the Optical Network Terminal (ONT) provided by your internet service provider.
  2. Connect the other end of the fiber optic cable to the fiber optic port on your router.
  3. Ensure that the connectors are securely attached to the ports on both the ONT and the router.
  4. Power on the ONT and the router, and follow any additional setup instructions provided by your internet service provider.

Note that you may need a fiber-ready router specifically designed to work with fiber optic internet connections.

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