PLC Splitter 1×16 SC APC / UPC

The function of a PLC (Passive Optical Splitter) in an optical network is to split the optical signal from a single input port into multiple output ports.the PLC splitter is a key passive optical component that enables the efficient distribution and routing of optical signals in fiber optic communication networks, supporting the delivery of services to multiple users over a shared infrastructure.

PLC Splitter 1×8 SC APC / UPC

The function of a PLC (Passive Optical Splitter) in an optical network is to split the optical signal from a single input port into multiple output ports.the PLC splitter is a key passive optical component that enables the efficient distribution and routing of optical signals in fiber optic communication networks, supporting the delivery of services to multiple users over a shared infrastructure.

PLC Splitter 1×4 SC APC / UPC

The function of a PLC (Passive Optical Splitter) in an optical network is to split the optical signal from a single input port into multiple output ports.the PLC splitter is a key passive optical component that enables the efficient distribution and routing of optical signals in fiber optic communication networks, supporting the delivery of services to multiple users over a shared infrastructure.

1×64 SC APC PLC Splitter

1. PLC Splitter new ABS plastic synthetic resin shell, impact resistance, heat resistance.
2. High quality wire, high performance and environmental protection PVC skin is acid-alkali resistant and durable.
3. High performance ceramic insert core, uniform optical transmission, good environmental stability.
  • Box size: 100*80*10mm
  • Storage temperature: -40~85 ℃
  • Working temperature: -40~85 ℃
  • Connector type: SC/APC
  • Working wavelength: 1260~1650nm

What types of fiber optic splitter

Fiber optic splitters, also known as beam splitters, are crucial components in optical communication networks. They are used to split a single optical signal into multiple signals or to combine multiple signals into a single output. This allows for efficient distribution of optical signals to multiple destinations without the need for additional transmitters or receivers.