FIBEROPTIC

Tin Coated Copper G657A1 1core Silicone Rubber Armoured Cable

Photoelectric composite cable refers to a transmission line suitable for FTTX access system. It is a new type of access method. It integrates optical fiber and copper wire for power transmission. It can solve the problems of broadband access, equipment power consumption, and signal transmission. At the same time, it can meet the requirements of optical fiber transmission and remote power supply.

Tin Coated Copper G657A1 1core Silicone Rubber Armoured Cable

Photoelectric Composite Silicone Rubber Insulated Power Fiber Optic Armoured Cable  2*0.5 +1 Core Tin Coated Copper

 

Photoelectric composite cable refers to a transmission line suitable for FTTX access system. It is a new type of access method. It integrates optical fiber and copper wire for power transmission. It can solve the problems of broadband access, equipment power consumption, and signal transmission. At the same time, it can meet the requirements of optical fiber transmission and remote power supply.

 

Application:
(1) Communication remote power supply system;
(2) Short-distance communication system power supply.
Features:
(1) The outer diameter is small, the weight is light, and the space is small (usually a series of problems that can be solved by multiple cables, here can be replaced by a composite cable);
(2) Customer purchase costs are low, construction costs are low, and network construction costs are low;
(3) It has superior bending performance and good lateral pressure resistance, and is convenient for construction;
(4) Provide multiple transmission technologies at the same time, with high adaptability and scalability of the same equipment, and wide range of product applications;
(5) Provide huge bandwidth access;
(6) Save cost, use optical fiber as reserved for home, avoiding secondary wiring;
(7) Solve the problem of equipment power consumption in network construction (avoid repeated deployment of power supply lines)

 

Mechanical behavior:
The mechanical properties of optical cables include stretching, flattening, impact, repeated bending, twisting, winding, and bending.
(1) All optical fibers of the optical cable are not broken.
(2) The sheath has no visible cracks.
(3) The metal components in the optical cable should maintain electrical conduction.
(4) There should be no visible damage to the various components of the cable core in the sheath.
(5) The fiber after the test should have no residual additional attenuation.

 

Tin Coated Copper G657A1 1core Silicone Rubber Armoured Cable 0