SMoothing: antialiased; font-family: PingFangSC-Semibold; liST-STyle: none; margin: 14px 0px 8px; scrollbar-width: none; color: rgb(5, 7, 59); font-size: 18px; border: none; line-height: 1.7; background-color: rgb(253, 253, 254);">Technical Specifications
Operating Wavelength
1260~1650nm
Input/Output Fiber Diameter
2.0mm
Input/Output Fiber Length
1.5m
Insertion Loss Uniformity
≤ 1.5dB
Polarization Dependent Loss
≤ 0.3dB
Wavelength Dependent Loss
≤ 0.5dB
Temperature Dependent Loss
Dimensions (HxWxD)
0.71"x4.72"x3.15" (18x120x80mm)
Temperature
Operating -40 to 85°C (-40 to 185°F)
Storage -40 to 85°C (-40 to 185°F)
Product Description & Features
Overview
The 1x32 PLC fiber splitter is a high-performance passive optical device designed to evenly distribute a single input signal across thirty-two outputs using Planar Lightwave Circuit (PLC) technology. Housed in a robust ABS enclosure, this splitter features ultra-slim 2.0mm pigtails optimized for singlemode fiber networks. It is ideal for applications requiring massive signal distribution, such as large-scale FTTH deployments, data center backbone networks, or industrial surveillance systems.
Key Features
- PLC Splitting Technology
- ABS Enclosure Design
- 2.0mm Ultra-Slim Pigtails
- Singlemode Compatibility
- Connector Interface
Typical Applications
Large-Scale ftth networks: Distribute broadband signals to up to 32 subscribers from a single OLT port.
Data Center Distribution: Split high-speed traffic to multiple switches or servers in dense rack environments.
Industrial Surveillance: Feed video signals to dozens of cameras or monitoring stations across expansive sites.
PON Deployments: Expand GPON/EPON capacity to 32 ONUs for metro or campus-wide networks.
Competitive Advantages
Massive Scalability: 32 outputs reduce the need for cascading splitters, simplifying network architecture.
Cost Efficiency: PLC technology lowers per-output costs compared to traditional fused splitters.
Reliable Performance: ABS enclosure and bend-insensitive fiber ensure stability in harsh environments.