Zibbix 1*8 Optical Fiber PLC Splitter
The Zibbix 1×8 Optical Fiber PLC Splitter is a high-performance passive optical device designed for efficient signal distribution in fiber optic networks. Engineered for reliability and precision, this splitter is ideal for applications in FTTH (Fiber to the Home), FTTB (Fiber to the Building), and other telecommunication and data network systems. Its compact design ensures easy integration into network cabinets, distribution boxes, and other infrastructure setups.
The splitter works by evenly dividing a single optical input signal into eight output channels without requiring any external power source. This passive splitting ensures minimal signal loss and maintains stable optical performance over long distances. Using PLC (Planar Lightwave Circuit) technology, the Zibbix 1×8 splitter delivers uniform splitting ratios and high repeatability, which is essential for modern high-speed optical networks.
Constructed with high-quality optical components, the splitter ensures low insertion loss, high return loss, and excellent wavelength stability. Its robust housing provides protection against environmental factors such as dust, moisture, and temperature fluctuations, making it suitable for both indoor and outdoor deployment. The device also features standard SC/APC or SC/UPC connectors, depending on the model, allowing for straightforward connectivity with existing fiber networks.
The Zibbix 1×8 Optical Fiber PLC Splitter is designed for ease of installation and maintenance. Its plug-and-play functionality reduces setup time, while the durable design ensures long-term reliability. Network operators, service providers, and system integrators can depend on it for consistent signal distribution, high performance, and minimal downtime.
Overall, the Zibbix 1×8 Optical Fiber PLC Splitter is an essential component for efficient, reliable, and scalable optical networks. It combines advanced PLC technology, uniform splitting performance, and durable construction, providing an effective solution for modern high-speed fiber optic communications
