PLC type, Input:250μm Fiber/Output:250μm Fiber, 1260-1360nm/1460-1650nm Low Insertion Loss, Uniform Power Splitting, Excellent Environmental & Mechanical Stability Fiber Sensors, Long-Haul Telecommunications Digital,Hybrid and AM-Video Systems CATV Systems High Speed Local Area Networks The Single mode Optic-fiber splitters can divide the optical signals and then re-distribute the light power. The key parameters include operating wavelength, bandwidth, and excess loss, coupling ratio, PDL and so on. Features: Low Insertion Loss Uniform Power Splitting Excellent Environmental & Mechanical Stability Applications: Long-Haul Telecommunications Digital,Hybrid and AM-Video Systems CATV Systems High Speed Local Area Networks Fiber Sensors
FTTH PLC Fiber Optic Splitter SM Single Mode with Connectors 1×8 SC-APC Branching Cable (FTTH PLC Fiber Optic Splitter SM Single Mode with Connectors 1×8 SC-APC Branching Cable)
Share this:
- PLC type: 1×8, SC/APC Connector Steel Tube
- Used for Passive optic networks network GPON – EPON
- Low Insertion Loss, Uniform Power Splitting, Excellent Environmental & Mechanical Stability
- Digital,Hybrid and AM-Video Systems CATV Systems
- High Speed FTT
GHS 250.00
Related products
-
Fiber., Media converters.
DMC-515SC 100 Base TX to 100 Base FX Media Converter with SC Fiber Connector (Single Mode 1300nm) – up to 15km.
Fiber., Media converters.DMC-515SC 100 Base TX to 100 Base FX Media Converter with SC Fiber Connector (Single Mode 1300nm) – up to 15km.
0 out of 5(0)Where copper cabling uses electricity to transmit signals from one end to another, fiber optics use light pulses to accomplish the same purpose. The fiber optic cable is made of a transparent glass core surrounded by a mirror like covering called cladding. Light passes through the fiber optic cable, bouncing off the cladding until it reaches the other end of the fiber channel – this is called total internal reflection.
SKU: n/a -
Fiber., Media converters.
10 / 100 Base-Tx to 100 Base – FX.
0 out of 5(0)Where copper cabling uses electricity to transmit signals from one end to another, fiber optics use light pulses to accomplish the same purpose. The fiber optic cable is made of a transparent glass core surrounded by a mirror like covering called cladding. Light passes through the fiber optic cable, bouncing off the cladding until it reaches the other end of the fiber channel – this is called total internal reflection.
SKU: n/a -
Fiber., Pigtail.
LC / UPC Single mode 9 / 125 um.
0 out of 5(0)Where copper cabling uses electricity to transmit signals from one end to another, fiber optics use light pulses to accomplish the same purpose. The fiber optic cable is made of a transparent glass core surrounded by a mirror like covering called cladding. Light passes through the fiber optic cable, bouncing off the cladding until it reaches the other end of the fiber channel – this is called total internal reflection.
SKU: n/a -
Core Alignment Fusion Splicer, Fiber.
Fiber optic pro-6471 core alignment fusion splicer.
0 out of 5(0)Where copper cabling uses electricity to transmit signals from one end to another, fiber optics use light pulses to accomplish the same purpose. The fiber optic cable is made of a transparent glass core surrounded by a mirror like covering called cladding. Light passes through the fiber optic cable, bouncing off the cladding until it reaches the other end of the fiber channel – this is called total internal reflection.
SKU: n/a -
Fiber., Pigtail.
FC / UPC Multi mode 50 / 125 um.
0 out of 5(0)Where copper cabling uses electricity to transmit signals from one end to another, fiber optics use light pulses to accomplish the same purpose. The fiber optic cable is made of a transparent glass core surrounded by a mirror like covering called cladding. Light passes through the fiber optic cable, bouncing off the cladding until it reaches the other end of the fiber channel – this is called total internal reflection.
SKU: n/a