SDGI offers a wide range of micromodule optical fiber cables for a number of applications, including building network wiring and data centers. These cables are designed to be significantly smaller than traditional fiber cables and thus provide a more compact solution without compromising the quality of the optical transmission signal. They can be used in a variety of installation environments, such as duct, aerial, or direct buried installations, making them a versatile and cost-effective option for all types of networks.
Optical networking technology is an essential part of our growing digital infrastructure, allowing for the transfer of massive amounts of data across long distances in high-speed and reliable ways. While there are many different types of optical networking technologies available, the most versatile and advanced options feature high-performance single mode fiber. This type of fiber provides superior performance in the 1310nm and 1550nm windows, resulting in optimal return loss and low insertion loss. In addition, these cables are made with durable materials and processes that allow them to withstand the test of time and harsh environments.
https://www.sdgicable.com/products-detail/Micromodule-Integrated-Optical-Fiber-Cable.html Conventional multimode optical cables, which are often used in data centers, can be quite bulky and may cause problems when attempting to fit them into tight spaces. Moreover, they can restrict cooling air flow in and around equipment and create fire hazards. This is why many companies are turning to new, more compact solutions like micromodule optical fiber cable to meet their networking needs.
One such example of a micromodule optical fiber cable is a high density breakout cable. This type of cable features a series of micromodules, each of which contains several optical waveguides and a polymer sheath that surrounds the optical waveguides. The sheaths can be formed from a fire-retardant material that is capable of meeting various requirements, such as plenum burn specifications. In addition, the sheaths can be made to be robust enough that they can be used as furcation legs.
Another key benefit of these new breakout cables is their exceptional bend resistance. These cables can withstand extremely high bending stresses and still maintain their shape, even when subjected to a 90-degree bend for up to six kilograms. This level of bend resistance is particularly important in data centers, where space constraints make it impractical to use conventional cabling systems.
In addition, the cable jacket 50, the breakout unit jackets 70, and the micromodule sheaths 80 can be made from a fire-retardant composite that is capable of achieving a desired plenum burn rating. For example, the sheaths can be made from highly-filled PVC of specified thicknesses to ensure that they meet NFPA 262 and other plenum burn standards.
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