In modern optical communication systems, fiber optic splitters (PLC splitters) are essential core components, fulfilling the crucial task of evenly distributing signals from a single fiber to multiple optical channels. Particularly in scenarios such as data centers, industrial automation, and communication base stations, rack-mount PLC splitters have become the preferred solution for fiber optic network construction due to their high density, ease of management, and strong reliability.
A rack-mount PLC splitter is a fiber optic splitter designed to be installed in a standard 19-inch rack. It utilizes planar lightwave circuit (PLC) technology to evenly distribute single or multiple optical signals. Compared to traditional fused fiber splitters, PLC splitters offer higher stability, lower insertion loss, and lower return loss, making them ideal for large-scale fiber optic networks. Its rack-mount design allows multiple splitters to be centrally installed in a single rack, enabling high-density fiber management and convenient maintenance.
In many industrial and communications applications, equipment must operate for extended periods in high-temperature, high-humidity, and even dusty environments. Conventional fiber splitters are prone to increased insertion loss, uneven optical power attenuation, and even equipment failure in these extreme environments. The Rack Mount PLC Splitter ensures stability through the following features:
Utilizing high-temperature-stable materials and an optimized optical waveguide structure, the device maintains stable optical signal distribution even in environments exceeding 85°C. Whether in a scorching equipment room or in a communications cabinet installed outdoors in summer, network performance is protected from temperature fluctuations.
The device housing and internal fiber connections utilize moisture-resistant materials and sealing techniques to effectively prevent moisture intrusion. Even in relative humidity levels as high as 95%, the PLC Splitter maintains reliable operation over time, avoiding humidity-related signal attenuation and fiber interface corrosion.
The rack-mount design provides a secure and stable installation, and its anti-vibration design withstands even minor vibrations during transportation and operation, ensuring stable optical connections.
The Rack Mount PLC Splitter is not only suitable for high-temperature and high-humidity environments, but is also widely used in data centers, FTTH (fiber-to-the-home), CATV, smart buildings, and industrial automation systems. Its high-density, scalable design meets future network upgrade requirements while reducing wiring complexity and improving maintenance efficiency. Its advantages are particularly evident in scenarios requiring long-term stable operation and requiring less frequent maintenance.
In modern optical communication systems, fiber optic splitters (PLC splitters) are essential core components, fulfilling the crucial task of evenly distributing signals from a single fiber to multiple optical channels. Particularly in scenarios such as data centers, industrial automation, and communication base stations, rack-mount PLC splitters have become the preferred solution for fiber optic network construction due to their high density, ease of management, and strong reliability.
A rack-mount PLC splitter is a fiber optic splitter designed to be installed in a standard 19-inch rack. It utilizes planar lightwave circuit (PLC) technology to evenly distribute single or multiple optical signals. Compared to traditional fused fiber splitters, PLC splitters offer higher stability, lower insertion loss, and lower return loss, making them ideal for large-scale fiber optic networks. Its rack-mount design allows multiple splitters to be centrally installed in a single rack, enabling high-density fiber management and convenient maintenance.
In many industrial and communications applications, equipment must operate for extended periods in high-temperature, high-humidity, and even dusty environments. Conventional fiber splitters are prone to increased insertion loss, uneven optical power attenuation, and even equipment failure in these extreme environments. The Rack Mount PLC Splitter ensures stability through the following features:
Utilizing high-temperature-stable materials and an optimized optical waveguide structure, the device maintains stable optical signal distribution even in environments exceeding 85°C. Whether in a scorching equipment room or in a communications cabinet installed outdoors in summer, network performance is protected from temperature fluctuations.
The device housing and internal fiber connections utilize moisture-resistant materials and sealing techniques to effectively prevent moisture intrusion. Even in relative humidity levels as high as 95%, the PLC Splitter maintains reliable operation over time, avoiding humidity-related signal attenuation and fiber interface corrosion.
The rack-mount design provides a secure and stable installation, and its anti-vibration design withstands even minor vibrations during transportation and operation, ensuring stable optical connections.
The Rack Mount PLC Splitter is not only suitable for high-temperature and high-humidity environments, but is also widely used in data centers, FTTH (fiber-to-the-home), CATV, smart buildings, and industrial automation systems. Its high-density, scalable design meets future network upgrade requirements while reducing wiring complexity and improving maintenance efficiency. Its advantages are particularly evident in scenarios requiring long-term stable operation and requiring less frequent maintenance.
