Description
LGX Splitter PLC 1×16 Features
- Low Insertion loss
- Low PDL
- Compact Design
- Good channel-to-channel uniformity
- High Reliability and Stability
- Conforms to TelcordiaGR-1209&GR-1221, ROHS
LGX Splitter PLC 1×16 Specification
Split ratio | 1×16 |
Operating Wavelength (nm) | 1260-1650nm |
Fiber Type | G657A1 or customer specified |
Insertion Loss (dB)S Grade | 14 |
Insertion Loss (dB) P Grade | 13.8 |
Loss Uniformity(dB) | 1.0 |
PDL(dB) | 0.3 |
Return Loss (dB) | 55 |
Directivity (dB) | 55 |
Wavelength Dependent Loss(dB) | 1.0 |
Details of LGX Splitter PLC 1×16
On the surface of the LGX housing, there is a label that provides key product identification details: Product Name, Part Number (PN), Serial Number (SN).
The splitter is equipped with SC connectors. These connectors are easily recognizable by their rectangular shape and push-pull latching mechanism. The green color of the connector ferrules typically indicates compatibility with single-mode fiber, which is commonly used for long-distance, high-bandwidth optical signal transmission in telecommunications networks.
There is 1 input connector and 16 output connectors, corresponding to the 1×16 splitting ratio. The standardized SC connectors ensure compatibility with a wide range of fiber optic cables and network equipment, simplifying installation and integration processes.
The pigtails are neatly coiled inside the LGX housing (as seen in the opened-box view), which helps in managing the fiber length, preventing tangling, and ensuring proper fiber routing during installation. This organized arrangement also facilitates easy access and connection during maintenance or reconfiguration of the fiber optic network.
Each product comes with a test report. This test report serves as an official document to verify that the 1×16 PLC Splitter meets predefined technical specifications and performance standards. It provides objective data on how the splitter functions, which is crucial for quality control, compliance with industry regulations, and ensuring reliable operation within fiber optic networks.