Description
1×64 Plc Splitter Features
- Applicable in the termination and 19” standard structure
- Cold rolled steel sheet SPCC, with electrostatic spraying, steel thickness 1.0mm,
- Front adapter plate with number mark, easy for operation
- Suitable for all kinds of interface like FC,SC,ST,LC,E2000, etc.
- Black, gray or white color available.
1×64 Plc Splitter Order Information
Model | Split ratio | Dimension (mm) |
FSM-102/SC | 1PC 1X2 SC | 482*250*1U |
FSM-202/SC | 1PC 2X2 SC | 482*250*1U |
FSM-104/SC | 1PC 1X4 SC | 482*250*1U |
FSM-204/SC | 1PC 2X4 SC | 482*250*1U |
FSM-108/SC | 1PC 1X8 SC | 482*250*1U |
FSM-208/SC | 1PC 2X8 SC | 482*250*1U |
FSM-116/SC | 1PC 1X16 SC | 482*250*1U |
FSM-216/SC | 1PC 2X16 SC | 482*250*1U |
FSM-132/SC | 1PC 1X32 SC | 482*250*1U |
FSM-232/SC | 1PC 2X32 SC | 482*250*1U |
FSM-164/SC | 1PC 1X64 SC | 482*250*2U |
FSM-264/SC | 1PC 2X64 SC | 482*250*2U |
1×64 Plc Splitter Details
This 1×64 PLC Splitter adopts a rack-mountable design, suitable for integration into standard 19-inch server racks. The external casing is made of sturdy metal, ensuring good protection and heat dissipation performance. The overall size conforms to common rack-mount specifications, facilitating seamless deployment in data centers and telecommunications rooms.
It is equipped with multiple green-colored fiber optic connectors — SC/APC connectors. These connectors feature precise ceramic ferrules, ensuring low insertion loss and high return loss, and can realize stable optical signal connection.
Inside the splitter, the white optical fibers are neatly arranged. These fibers are generally single-mode optical fibers, which are suitable for long-distance, high-speed optical signal transmission. The fibers are properly managed, with reasonable bending radius control, avoiding excessive bending that may cause additional loss, and ensuring the stable transmission performance of the splitter.
Inside the splitter, there is a key component-the PLC chip. This chip is the core for realizing optical signal splitting. It is a planar waveguide device made of semiconductor materials (such as silica). Through precise optical path design, it can evenly split the input optical signal into multiple paths. Around the chip, there are metal or plastic fixing components, which play the roles of fixing the chip, protecting the optical path, and managing the fiber arrangement, ensuring the stability and reliability of the internal structure of the splitter.