Fiber-To-The-Antenna (FTTA) Cables

Fiber-to-the-antenna (FTTA) installation demands a high standard of quality. That’s why every fiber-and-connector component must meet rigorous standards and be thoroughly tested.

FTTA cable assemblies combine pre-terminated fiber and copper connectivity with an outdoor rated termination box. They are used for RRH to BBU port interconnection in new cell sites and in tower pull-ups or retrofits.

FTTA Cable

FTTA cables provide a cost-efficient and flexible way to expand mobile networks. They offer high bandwidth capacity and enhanced signal quality, resulting in improved data transfer rates. Moreover, they are less susceptible to electromagnetic interference and have a longer lifespan than traditional coaxial cable-based networks.

While FTTA offers many benefits, it also comes with some challenges. First, it requires a change from copper to optical fiber ftta-cable media, which is more fragile and can be vulnerable to damage and contamination. Moreover, it may not be compatible with all mobile communication network equipment. Additionally, the cost of laying optical fiber is higher than that of traditional coaxial cable.

To overcome these challenges, mobile operators and OEMs are exploring solutions that can improve FTTA installation and maintenance. One option is to use hybrid FTTA cable, which combines a fiber and copper conductor in a single cable. Another option is to use a fusing method, which fuses a pre-terminated fiber connector with a stub of bare fiber.

In addition, a high-quality FTTA cable should have superior crush resistance and be resistant to chemicals that are commonly found in industrial environments. It should also be easy to install and maintain, and provide high performance and scalability. Finally, it should be designed for reliable operation in harsh environments. These factors can help reduce FTTA deployment and maintenance costs and ensure long-term network success.

FTTA Patch Cable

Fiber optic patch cable is used to provide a connection between the antenna and base station in wireless communications networks. It is immune to electromagnetic interference, so it can provide high-speed data transmission over long distances. It is also more flexible than copper cables and easier to work with. There are two types of fiber optic patch cords: single-mode and multi-mode. Single-mode works best for short distances and premises cabling, while multi-mode is better for long-distance applications.

The FTTA LC Fiber Patchcord with Pulling Eye is designed for outdoor wireless network applications such as Fiber to the Antenna (FTTA) and FTTX networks. It features a 12F LC connector pre-terminated on each end, reducing installation time and minimizing network downtime. It is a highly reliable solution with a low failure rate and easy maintenance.

LC patch cords are a key component in base station antenna-to-radio units (RRU) connections for 3G, 4G and WiMax mobile communication systems. They are typically mated together in a duplex configuration, so one end transmits and the other receives signals. The LC connectors are made of durable plastic, and they have a positive latch to secure the connection.

Huihong fiber has a full line of ODVA-compliant LC patch cords, including both metal and plastic variants. These are ideal for rugged environments and can be used with a wide range of equipment ports, including those on WiMax and LTE base stations. They can even support FullAXS connectors, which are designed to meet the needs of next-generation WiMAX and Long-Term Evolution fiber-to-the-antenna (FTTA) setups.

FTTA Outdoor Cable

FTTA outdoor cable is designed for use in harsh and demanding environments where fiber to the antenna (FTTA) is required. It features a durable and flexible LSZH outer jacket that is both flame retardant and highly resistant to chemicals commonly found in industrial installations. In addition, it is low in smoke and odor and provides excellent crush resistance. Depending on the bandwidth requirements and network design, it may contain multimode or single-mode optical fiber.

In FTTA applications, the quality of the optical fibers is of primary importance. A high degree of optical loss leads to data corruption, which is particularly detrimental for businesses in data-sensitive industries. Moreover, latency, or the delay in receiving data, can be very damaging to customer satisfaction. This is why it is important to choose optical fibers that provide minimal optical loss and latency.

Optical cables are often installed in harsh environments, including towers, rooftops, and small cell deployments. They must be able to withstand high temperatures, humidity, and water exposure. Consequently, FTTA CPRI outdoor cable assemblies are typically equipped with waterproof connectors such as ODVA, PDLC, NSN, Mini SC, and MPO to prevent damage caused by environmental factors. This ensures that the FTTA system will operate reliably, even in difficult outdoor conditions. Moreover, this design allows you to easily modify or expand your network in the future without having to replace the entire cable assembly.

FTTA Indoor Cable

Fiber to the antenna (FTTA) systems are designed to connect a baseband unit (BBU) and remote radio heads (RRHs) over optical fibers. RF functions are moved to the RRH, which is situated close to the antenna on the tower for optimum performance. This system 5G˴Fibre to the home allows for a shorter cable run to the antenna and reduces installation time, pole attachment space and cost.

FTTA systems are built with factory-terminated, hybrid cables that combine both fiber optics and copper power conductors in one cable. These cables are typically prefabricated and terminated at the factory to the proper length and shipped on large spools for safe transport. Depending on the network architecture, these hybrid cables can be configured with singlemode or multimode fiber and duplex LC connectors.

When deploying an FTTA system, it’s important to consider the safety of your team as you climb the tower and install the equipment. Using pre-connected FTTA hybrid cables and connectors prevents a lot of potential damage and ensures that the fiber connections are secure and ready for service.