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Suppliers provide these types of single mode fiber optic cable to bulk buyers.
This cable comes with an Angled LC Connectors at both ends to reduce insertion loss and enhance performance. With a durable PVC jacket casing, the coat is constructed for flexibility and longevity. It comes with a compact design that allows for higher density installations. The cable is fabricated with premium Corning glass to offer greater signal clarity and reduced attenuation over longer distances. Often used in data centers and enterprise networks.
The OS2 Fiber Optic Cable supports extended distance telecommunications. It features low water peak single mode glass that meets the rigorous standards of long-haul applications. Typically color-coded yellow, this cable has a tensile strength of up to 100N. It allows for outdoor use without compromising on signal integrity. Its exceptional resistance to environmental factors ensures reliability in challenging weather conditions.
The single mode duplex fiber optic cable enables simultaneous transmission on two channels. Its tight buffered design ensures smooth and easy handling during installation despite being built for high performance and durability. This OS2 compliant cable operates efficiently at 1310nm and 1550nm wavelengths. Typically colored blue and yellow for channel identification, the cable serves outdoor and indoor applications.
The Military Tactical Fiber Optic Cable has been built to operate reliably under extreme conditions. This OS1 single mode cable supports high bandwidth applications and is designed to fulfill military standards for abrasion, water, and extreme temperature resistance. It is constructed with a robust jacket that contains multiple aramid fibers for tensile strength in field environments. This durable cable is efficient for rugged outdoor operations. These include military field communications and remote surveillance.
Suppliers share these details about the single mode fiber optic cable material with buyers.
Single mode fiber optic cables are primarily constructed from silica glass, which provides low attenuation and high signal strength. This glass is drawn into a thin strand of fiber that offers superior resistance to environmental stress. It enables long-distance transmission of light without significant loss. While bulk buyers may have to check for various brand-related names of fiber optic glass, Corning is one popular manufacturer.
Once manufactured, these fibers are coated with acrylate polymer layers to protect against moisture, chemicals, and mechanical damage. Such coatings increase the durability of the cables and reduce the risk of microbends, which can adversely affect the signal. The cables' jackets come in varying materials. PVC is common for indoor applications due to its elasticity. LSHF offers lower smoke generation in case of fire, enhancing safety in confined spaces. For outdoor use, LLDPE is preferred because of its resistance to UV radiation and temperature.
Single mode fiber optic cables are equipped with additional materials like aramid yarns or steel wire to withstand tension during installation and in service. The use of aramid fibers reduces the strain on the fibers themselves, preventing breakage over long periods. In outdoor cables, galvanized steel reinforcements provide enhanced protection against rodent attacks and harsh weather conditions.
Suppliers retail these popular applications of single mode lc fiber optic cable to buyers.
Single mode fiber optic cables are extensively used in long-distance telecommunications networks. Their ability to transmit data over vast distances with minimal loss makes them ideal for providing high-speed internet, television, and phone services. By reducing operational costs per unit of data transmitted, these cables increase the economic efficiency of telecommunication companies.
Data centers use single-mode fibers for internal and external data transmission. Their capacity to support high-bandwidth applications such as cloud computing contributes directly to a data center's operational efficiency. SMFs also minimize energy expenditure associated with signal regeneration, thus enhancing cost-effectiveness. This efficiency is vital in meeting the demands for real-time data processing and storage.
Smart buildings adopt single mode fiber optic cables for integrated communication systems, including security, lighting, and HVAC. The rapid data transmission enables near-instantaneous communication between different systems. It thus enhances building management efficiency. It provides long-term reliability, reduces maintenance needs, and fortifies the building as a valuable asset. This reduction in upkeep helps lower energy and repair costs.
Single mode fiber optic cables are key to high-precision medical equipment in hospitals and healthcare facilities. They enable real-time data transmission for diagnostic imaging systems, telemedicine, and automation of medical records. These cables diminish downtime and maintenance. Therefore, they minimize healthcare service interruption and bolster medical system reliability.
Buyers should read this important information about the single mode armoured fiber optic cable to make bulk purchases.
Select cables with compatible connectors for the intended equipment. Cables are usually connected with LC, SC, or ST connectors. If the cables are to be used in high-density applications, a cable with LC connectors should be chosen because they are smaller and occupy less space.
The jacket material is vital for the fiber's durability. In indoor settings, cables with PVC or LSHF jackets should be selected for flexibility and safety. For outdoor use, cables with jackets constructed from LLDPE or steel wire should be chosen to offer better protection against harsh environmental factors.
For applications requiring regularly exposed cables, pick a tactical or armor-coated SMF cable. Only heavy-duty cables should be considered in industries where the cables might come into contact with water, extreme temperatures, or mechanical wear. Examples include military field operations or construction sites.
Ensure the selected fiber optic cables comply with industry standards like Telcordia or ISO/IEC. Compliance with these standards indicates the cable has been tested for rigorous reliability and performance, making them suitable for high-demand telecommunications applications.
Assess bandwidth requirements when selecting which fiber optic cables to buy. A duplex cable with two fibers would be ideal for simple bi-directional data tasks. For more complex systems that require high data transmission, a multi-fiber bundle would be more suitable.
Fiber optic cables should always be cleaned using a lint-free cloth or fiber optic cleaning wipes to remove any dirt, dust, or oil from the connectors. Next, the cables should be visually inspected with a fiber inspection microscope to check for any fractures, bends, or damage to the internal fibers. Monitoring tools that measure signal strength are maintenance-friendly. They help to check the performance of the fiber optic network from time to time. cables should also be tested with a network management system. This testing ensures that various performance metrics are always monitored in real time.
Buyers should source single mode fiber optic cables directly from reputable manufacturers. They should also leverage the user reviews of reputable businesses on the database. In cases where users are unable to visit the businesses physically, they often request samples to check the quality of the cables themselves. Also asking for certifications is another way to ensure quality.
Buyers should consider the manufacturer's minimum order quantities, retail and bulk prices, lead times, and whether the factory offers various types of fiber optic cables. They should also ask the manufacturer for the materials used to manufacture each cable and what applications they are suited for. This information will not only help users get single mode fiber optic cables that are suitable for their own businesses, but it will also provide them with useful information for potential retail customers.
