The Fiber Optic PLC Splitter (Planar Waveguide Fiber Splitter) is a quartz-based integrated waveguide optical power distribution device primarily used for splitting and converging optical signals in optical communication networks. Its primary applications are as follows:
As a core passive component in optical fiber links, it evenly distributes input optical signals from a single or multiple optical fibers to multiple output channels, or conversely combines multiple signals into a single or dual optical fiber.
It offers excellent optical splitting uniformity and is insensitive to optical signals within the 1260-1650nm wavelength range, making it suitable for full-band transmission.
Offering bare fiber, micro, and box-type packages, it is suitable for various installation environments, including rack-mount and plug-in installations.
Manufactured using semiconductor technology, the optical waveguide array features high-temperature resistance (-40°C to 85°C) and electromagnetic interference resistance, making it suitable for use in harsh environments.
With its low insertion loss and compact size, this device is an ideal choice for modern high-speed communication networks, such as FTTx.
The Fiber Optic PLC Splitter (Planar Waveguide Fiber Splitter) is a quartz-based integrated waveguide optical power distribution device primarily used for splitting and converging optical signals in optical communication networks. Its primary applications are as follows:
As a core passive component in optical fiber links, it evenly distributes input optical signals from a single or multiple optical fibers to multiple output channels, or conversely combines multiple signals into a single or dual optical fiber.
It offers excellent optical splitting uniformity and is insensitive to optical signals within the 1260-1650nm wavelength range, making it suitable for full-band transmission.
Offering bare fiber, micro, and box-type packages, it is suitable for various installation environments, including rack-mount and plug-in installations.
Manufactured using semiconductor technology, the optical waveguide array features high-temperature resistance (-40°C to 85°C) and electromagnetic interference resistance, making it suitable for use in harsh environments.
With its low insertion loss and compact size, this device is an ideal choice for modern high-speed communication networks, such as FTTx.
