Fiber- Optic Cables Features Description

Fiber- Optic Cables Features Description
Fiber- Optic Cables
Features
2 to 12 fibers
Each fiber is enclosed in a 0.9mm made of a thermoplastic polymer
The are color coded for easy identification
Water swelling glass yarns are employed with the fibers to serve as peripheral strength members and to block
the cable core from water penetration
UV resistant, Low Smoke, Zero Halogen (LSZH) compound outer jacket is extruded over the cable core
Description
Each fiber is enclosed in a 0.9mm made of a thermoplastic polymer. Water swelling glass yarns are used with fibers to
strengthen and block cable core from water penetration. Cable core is covered by a Low Smoke, Zero Halogen (LSZH) outer
jacket.
Specifications
Mechanical and Environmental Characteristics
Test
Detail Specifications
Maximum Pulling Load
1
Maximum Operating Load
500 N
Test Procedure
IEC-60794-1TIA/EIA-455 FOTP No
2 Test Method
E1
33
60% of pulling load
Minimum Bending Radius
E1
33
E11
104
Installation
20 x cable O.D
Long Term
Max. Compressive Loading
10 x cable O.D
2,000N
E3
41
Repeated Impact
2.9 N.m (J) 3 x 2 impacts
E4
25
Twist (Torsion)
E7
85
Storage Temperature Range
180°x10 times , 125 times the
cable O.D.
-20°C to +60°C
F1
3
Operating Temperature Range
-20°C to +50°C
F1
3
Cable Weight and diameter
No of Fibers
Nom. Cable Outer Diameter (mm)
Nom. Cable weight
(kg/km)
2
4
17
4
5
25
8
6
33
12
7.5
45
Specifications
Fiber-Optic Cable Standard Color Code
Unit
Number
Color
Unit
Number
Color
1
Blue
7
Red
2
Orange
8
Black
3
Green
9
Yellow
4
Brown
10
Violet
5
Grey
11
Pink
6
White
12
Turquoise
Specifications
Single-Mode Fibers Standard Specifications
Parameter
Standard per
Units
ITU-T G.652D
Attenuation
@1310 nm
0.38
@1550 nm
Dispersion: between 1260 and 1360 nm
dB/km
0.28
3.5
(O Band):
between 1530 and 1565 nm
18
(C Band)
ps/(nm*km)
between 1565 and 1625 nm
(L Band)
Zero Dispersion Wavelength
Mode Field Diameter @ 1300 nm
@1550 nm
22
1311±11
9.2±0.5
m
10.4±1.0
Cable Cut-off Wavelength
1260
PMD (Individual fiber)
Cladding Diameter
nm
0.2
125±1.0
nm
ps/km1/2
m
Core/Cladding Concentricity Error
0.5
m
Cladding Non-Circularity
1.0
%
Coating Diameter
Proof-Test Level
245±10
0.7
m
GN/m2
Specifications
Multi-Mode Fibers Standard Specifications
Parameter
ISO/IEC 11801
Classification( 2)
50/125
50/125 m
m
62.5/125
Units
m
OM2
OM3
OM1
-
Attenuation
@850 nm
3.2
3.5
@1300 nm
1.0
1.0
Bandwidth ( 2)
@850 nm
500(
@1300 nm
200
500
4)
800(
500
3)
Numerical Aperture
MHz*km
2000(
3)
0.20>±0.015
db/km
0.275±0.015
Core Diameter
50±3
62.5±3
m
Cladding Diameter
125±2
125±2
m
Core Non Circularity
6
6
%
Cladding Non-Circularity
2
2
%
Core/Cladding Offset
3
3
Coating Diameter
Proof-Test Level
245±10
0.7
1.
Overfill launch measurement as per TIA-445-204
2.
Effective Modal Bandwidth as per IEC 60793-2.10
m
245±10
0.7
m
GN/m2
Specifications
Multi-Mode Fiber GbE and 10 GbE Link Lengths
Fiber Type
62.5/125 m
50/125 m
50/125 m
11801 Classification( 2)
OM-1
OM-2
OM-3
Bandwidth ( 3) :
@850 nm
@1300 nm
200 MHz.km
500 MHz.km
500 MHz.km
500 MHz.km
2000 MHz.km
500 MHz.km
220 m
550 m
550 m
550 m
970 m
550 m
33 m
300 m
82 m
300 m
300 m ( 8)
300 m
Link Length for GbE( 6)
@ 850 nm (1000BASE- SX)
@ 1300 nm (1000BASE- LX)
Link Length for 10 GbE( 6)
@ 850 nm (10GBASE-SR)
@1300 nm (10GBASE- LX4)
1.
For other fiber specification and additional details, consult RiT s sales department.
2.
As per ISO/IEC 11801:2002 or EN 50173.
3.
Overfill launch measurement as per TIA-455-204
4.
Effective Modal Bandwidth as per IEC 60793-2.10
5.
Per IEEE 802.3z, assuming the requirements of the standard and associated documents are met.
6.
Per IEEE 802.3ae, assuming the requirements of the standard and associated documents are met.
7.
Calculated using the 10GbE link model
8.
This link length is assured provided that:
a.
It is installed per the maximum channel insertion loss requirement of 2.6dB as outlined in the TIA 568
B.3-1, ISO 11801 2nd Ed, and IEEE 802.3ae. The maximum channel insertion loss requirement of 2.6
dB assumes a maximum connection loss of 1.5 dB and a maximum cable attenuation of 3.5 dB/km at
850nm.
b.
It is used with an IEEE 802.3ae compliant 10GBASE-SR or 10GBASE-SW ports meeting the
specifications, among other, for encircled flux as defined in Table 52.7 in IEEE 802.3ae.
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