Fiber optic distribution cable

Fiber optic distribution cable 6 fibers

FOC-R+LSZH(B)/TPU(B)

Fiber optic distribution cable is developed to used indoor and outdoor for end user installations, in buildings, factories and different constructions. To connect the final users to telecommunication network using GPON and FTTX or FTTH technologies.

Features

Perfect for indoor and outdoor distribution networks
High connecting usability, easy access to the fiber core
Reinforced with PBT loose tube and aramid yarns
Full dielectric and high flexibility design
Fire redundant protect and UV radiation protection
Tensile load rating up to 1kn, crush load up to 1kn/10cm
Minimum dimension and weight of drop cable
Competitive price

DESCRIPTION Specification Test

REVIEW

Application

Applied outdoor, for installation on the telecommunication supports, between the buildings and industrial constructions.

Applied indoor, for cable tray distribution networks of fiber optics. It is allowed to lay cable on the outdoor.

Applied in drain system distribution networks of fiber optics. Blow in a cable into protective plastic pipes.

Technical specification

Item	Technology Parameters
Applications	Outdoor, indoor
Product code	FOC-R+LSZH(B)/TPU(B)-6*657A1-3.6
Diameter of loose tube(±0.6)mm	1.8
Thickness of loose tube(±0.03)mm	0.2
Fiber color	Natural,blue,yellow, green
Fiber type	SM, 9/125 (G.652.D, G.657A1, G.657A2,G657B3)
Sheath color	Black(white color upon request)
Sheath material	LSZH or TPU
Cable dimension,mm	3.6
Strength member	Aramid yarns
Cable wight, kg/km	Approx. 9.0
Min. Bending radius mm	10(Static) 20 (Dynamic)
Attenuation, dB/km	≤0.4 at 1310nm, ≤0.3 at 1550nm
Short term tensile, N	1000
Crush resistance, N/100mm	2200
Operation temperature, ℃	-60~+70

Drawing

Test

Fiber optic core reflection test is proceed by Optical Time Domain Reflectometer (OTDR). Which is a device used to precisely detect faults in an optical fiber link of a communication networks. An OTDR generates a pulse inside a fiber to be tested for faults or defects. Different events within the fiber create a Rayleigh back scatter. Pulses are returned to the OTDR and their strengths are then measured and calculated as a function of time and plotted as a function of fiber stretch. The strength and returned signal tell about the location and intensity of the fault present. Not only maintenance, but also optical line installation services utilize OTDRs.

OTDR is useful for testing the integrity of fiber optic cables. It can verify splice loss, measure length and find faults. The OTDR is also commonly used to create a "picture" of fiber optic cable when it is newly installed. Later, comparisons can be made between the original trace and a second trace taken if problems arise. Analyzing the OTDR trace is always made easier by having documentation from the original trace that was created when the cable was installed. OTDR show you where the cables are terminated and confirm the quality of the fibers, connections and splices. OTDR traces are also used for troubleshooting, since they can show where breaks are in fiber when traces are compared to installation documentation.

Jera proceed test of FTTH drop cables on wavelengths (1310,1550 and 1625 nm). We use EXFO FTB-1 in this quality tests. Examining the quality of our cables to ensure ours customer could receive products which meet quality requirements.

We do this test on every cables we produce.
Our internal laboratory is capable to proceed such a series of standard related type tests.