Fibre Patch Leads - OM3

Fibre Patch Leads - OM3

Explore our Fibre Patch Leads - OM3 category for cutting-edge connectivity solutions. These patch leads feature OM3-grade optical fibers, designed to meet the demands of high-speed data transmission in multimode fiber optic networks. With a core optimized for 10 Gigabit Ethernet applications, these patch leads offer superior bandwidth and performance. Ideal for data centers, enterprises, and high-density environments, our OM3 Fibre Patch Leads ensure reliable and efficient connectivity. Upgrade your network infrastructure with our premium selection, providing seamless data transmission for your critical applications.

Fibre Patch Leads - OM3 refer to optical fiber patch cables constructed with OM3-grade optical fibers. OM3, which stands for Optical Multimode 3, is a classification for multimode optical fibers designed to support high-speed data transmission in networking applications. OM3 fibers are optimized for use with laser sources and are commonly used in networks requiring higher bandwidths.

Key Features:

  1. Multimode Fiber: OM3 fibers are multimode fibers, allowing the transmission of multiple modes or rays of light simultaneously.

  2. 850 nm Wavelength: OM3 fibers are optimized for a wavelength of 850 nm, making them suitable for short-distance transmissions, such as within data centers.

  3. 10 Gigabit Ethernet (GbE): OM3 fibers are designed to support 10 GbE applications, providing high bandwidth for demanding networking environments.

  4. Aqua Jacket Color: OM3 fibers are often identified by their aqua-colored jacket, which helps distinguish them from other fiber types.

Applications:

Fibre Patch Leads - OM3 are commonly used in environments where high-speed data transmission over short to moderate distances is required. They are particularly well-suited for data center applications and high-density networking environments.

Fibre Patch Leads - OM3 offer a high-performance and cost-effective solution for multimode fiber optic connections, ensuring efficient data transmission in demanding networking applications.