In modern fiber-optic communication networks, efficient and stable optical signal distribution is critical to ensuring network performance. For applications such as data centers, fiber-to-the-x (FTTx), enterprise campus networks, and metropolitan area networks, the Rack-Mount PLC Splitter has become an indispensable device. It not only provides stable optical signal distribution but also offers flexible and diverse splitting ratio options to meet diverse network architectures and service requirements.
A Rack-Mount PLC Splitter is an optical splitting device that mounts in a standard 19-inch rack. It uses PLC (Planar Lightwave Circuit) technology to evenly or proportionally distribute the signal from a single optical fiber to multiple output fibers. PLC splitters are widely used in fiber-optic communication systems due to their high reliability, low insertion loss, wide-band adaptability, and excellent environmental adaptability. Compared to traditional Fused Biconical Taper (FBT) splitters, PLC splitters are more suitable for large-scale network deployments, especially in scenarios requiring centralized rack management. Rack-mount PLC splitters are particularly convenient.
One of the greatest advantages of the Rack-mount PLC Splitter is its support for a wide range of split ratios. Common split ratios include 1*2, 1*4, 1*8, 1*16, 1*32, and even 1*64, allowing users to flexibly choose based on their network layout and signal distribution needs. For example:
These different split ratio configurations allow network designers to maximize fiber resources while maintaining signal quality, reduce construction costs, and eliminate the need for frequent equipment replacement during network expansion.
The Rack Mount PLC Splitter features a rack-mount design that easily installs in a standard 19-inch rack, saving space and facilitating centralized management. Compared to bulk or cassette-mounted splitters, rack-mount splitters offer neater cabling and easier maintenance, making them particularly suitable for medium- to large-scale fiber optic network projects. Furthermore, rack-mount designs often feature removable trays or modular connectors, making maintenance and upgrades more efficient without interrupting system operation.
The PLC splitter itself offers high reliability and a wide operating temperature range, generally withstanding temperatures from -40°C to +85°C. Its low insertion loss and high uniformity ensure stable signal transmission, while its resistance to vibration, humidity, and heat makes it suitable for a variety of challenging environments.
In practical applications, the Rack Mount PLC Splitter is primarily used in the following scenarios:
In modern fiber-optic communication networks, efficient and stable optical signal distribution is critical to ensuring network performance. For applications such as data centers, fiber-to-the-x (FTTx), enterprise campus networks, and metropolitan area networks, the Rack-Mount PLC Splitter has become an indispensable device. It not only provides stable optical signal distribution but also offers flexible and diverse splitting ratio options to meet diverse network architectures and service requirements.
A Rack-Mount PLC Splitter is an optical splitting device that mounts in a standard 19-inch rack. It uses PLC (Planar Lightwave Circuit) technology to evenly or proportionally distribute the signal from a single optical fiber to multiple output fibers. PLC splitters are widely used in fiber-optic communication systems due to their high reliability, low insertion loss, wide-band adaptability, and excellent environmental adaptability. Compared to traditional Fused Biconical Taper (FBT) splitters, PLC splitters are more suitable for large-scale network deployments, especially in scenarios requiring centralized rack management. Rack-mount PLC splitters are particularly convenient.
One of the greatest advantages of the Rack-mount PLC Splitter is its support for a wide range of split ratios. Common split ratios include 1*2, 1*4, 1*8, 1*16, 1*32, and even 1*64, allowing users to flexibly choose based on their network layout and signal distribution needs. For example:
These different split ratio configurations allow network designers to maximize fiber resources while maintaining signal quality, reduce construction costs, and eliminate the need for frequent equipment replacement during network expansion.
The Rack Mount PLC Splitter features a rack-mount design that easily installs in a standard 19-inch rack, saving space and facilitating centralized management. Compared to bulk or cassette-mounted splitters, rack-mount splitters offer neater cabling and easier maintenance, making them particularly suitable for medium- to large-scale fiber optic network projects. Furthermore, rack-mount designs often feature removable trays or modular connectors, making maintenance and upgrades more efficient without interrupting system operation.
The PLC splitter itself offers high reliability and a wide operating temperature range, generally withstanding temperatures from -40°C to +85°C. Its low insertion loss and high uniformity ensure stable signal transmission, while its resistance to vibration, humidity, and heat makes it suitable for a variety of challenging environments.
In practical applications, the Rack Mount PLC Splitter is primarily used in the following scenarios:
