Transcript
TECHNICAL SPECIFICATION 1204 - V 13 (29/01/2016)
AERIAL SELF-SUPORTING OPTICAL CABLE FOR LONG SPANS - LV-AS Optic Cable
Product Type Construction
Dielectric Dry core Loose Tube SM and NZD
Description
Optical cable constructed with singlemode or NZD fibers. These fibers are protected by acrylate and placed in loose tubes, which are stranded around a dielectric central member. The cable core shall be protected against water penetration by swellable materials (dry core). This set is covered by a black thermoplastic Polyethylene and reinforced with aramid.
Applications
Installation Environment
External
Operation Environment
Aerial self-supported installation on long spans, bad weather conditions. Suitable to be used on high tension electrical towers exposed to electric fields
Standards Compliance
ITU-T G.652 "Standard for non-dispersion shifted single-mode fiber"; ITU-T G.655 "Standard for non-zero, dispersion-shifted single-mode fiber"; IEEE P1222 "Performance and Testing Standard for All-Dielectric, Self-Supporting (ADSS) Optical Fiber Cable"; Bellcore TR-1121 "Generic Requirements for Self-Supporting Optical Fiber Cable".
Constructive characteristic Optical Fiber
Singlemode, singlemode with NZD (non zero dispersion) or multimode fibers, with acrylate
Fiber Coating
UV cured acrylate
This informative is from authorship and exclusive property of Furukawa Electric LatAm. Its integral or partial reproduction is banned if its authorship is not mentioned, as well as lteration of its content or context. All specifications are subject to change without notice. Photos and drawings for illustrative purposes only.
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TECHNICAL SPECIFICATION 1204 - V 13 (29/01/2016)
Fiber and Loose Tube Identification
Fiber /Buffer Tube
Color
01
Blue
02
Orange
03
Green
04
Brown
05
Gray
06
White
07
Red
08
Black
09
Yellow
10
Violet
11
Pink
12
Aqua
Buffer Tube
Plastic buffer tube with filling compound to prevent water intrusion and migration. The buffer tube shall protect the fibers against mechanical efforts.
Central Member
Dielectric material element located in the center of the core to prevent the efforts of the cable contraction. As central member it is used a bar of plastic wire reinforced by FRP (Fiber Reinforced Plastic) fiberglass.
Cabling
The loose tubes are stranded around of central member to form the cable core. The core will be protected by water blocking material to prevent water intrusion (Dry core). When necessary, filler rods may be applied to maintain a cylindrical core.
Tensile Strength Yarns
Aramid yarns are applied to protect the cable against traction efforts in aerial installations
Core Lay up
Cable designation
Number of Loose Tubes
Number of fibers per tube
CFOA-x-LV-AS-CMOy-S-06
01
06
CFOA-x-LV-AS-CMOy -S-12
02
06
CFOA-x-LV-AS-CMOy -S-18
03
06
CFOA-x-LV-AS-CMOy -S-24
04
06
CFOA-x-LV-AS-CMOy -S-30
05
06
CFOA-x-LV-AS-CMOy -S-36
06
06
CFOA-x-LV-AS-CMOy -S-48
04
12
CFOA-x-LV-AS-CMOy -S-60
05
12
CFOA-x-LV-AS-CMOy -S-72
06
12
Where: x - Optical fiber (SM or NZD) CMO - Maximum operation load y - Maximum load value of operation (kN);
Inner Jacket
The inner jacket is be made of black polyethylene. A ripcord must be included under the inner jacket.
Outer Jacket
Black polyethylene with protection against bad weather and resistance to sunlight. When necessary, it may be produced with tracking resistant material, to electrical potential up to 25kV, pollution index 7.7 (according to IEEE 1222)
This informative is from authorship and exclusive property of Furukawa Electric LatAm. Its integral or partial reproduction is banned if its authorship is not mentioned, as well as lteration of its content or context. All specifications are subject to change without notice. Photos and drawings for illustrative purposes only.
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TECHNICAL SPECIFICATION 1204 - V 13 (29/01/2016)
Dimension
Features
Unit
Value
Minimum thickness of inner jacket
mm
0.65
Minimum thicknes of outer jacket
mm
1.4
Thickness uniformity
mm
70
Cable designation (CMO)
CFOA-LV-AS-CMO5KN-S
CFOA-LV-AS-CMO10KN-S
CFOA-LV-AS-CMO15KN-S
CFOA-LV-AS-CMO20KN-S
External diameter(mm)
Weight (kg/km) Jacket NR and Jacket RC RT
06 to 36F
13,6 ± 0,2
120
132
48 to 72F
14,8 ± 0,2
146
158
06 to 36F
13,6 ± 0,2
130
142
48 to 72F
14,8 ± 0,2
158
170
06 to 36F
14,6 ± 0,2
145
157
48 to 72F
15,6 ± 0,2
171
185
06 to 36F
15,0 ± 0,2
160
162
48 to 72F
16,4 ± 0,2
187
201
CMO - Maximum operation load Cables with different Maximum operation load could be made under consult.
Cross Section Physical Characteristics
LV-AS-CMO5KN
Maximum operation load - CMO (N)
LV-AS-CMO10KN LV-AS-CMO15KN LV-AS-CMO20KN
Minimum bend radius (mm)
- During installation: 20 x cable diameter - After installed: 10 x cable diameter
Resistance to compression (N)
220 N/cm
Installation temperature
-0 ºC a 30 ºC
Storage temperature
-40ºC a 70 ºC
Operation temperature
-40 ºC a 70 ºC
This informative is from authorship and exclusive property of Furukawa Electric LatAm. Its integral or partial reproduction is banned if its authorship is not mentioned, as well as lteration of its content or context. All specifications are subject to change without notice. Photos and drawings for illustrative purposes only.
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TECHNICAL SPECIFICATION 1204 - V 13 (29/01/2016)
Mechanical and environmental characteristics
Test
Requirements
Optical
Single mode fibers
Unit
Optical attenuation
dB/km
Optical discontinuity
dB
Metodology
According to ANSI/ICEA Annexes A and 87-640 CC TIA 455-59-A ≤ 0.05
ANSI/ICEA 87-640 TIA 455-59-A
Tensioned ≤ 0.3% Maximum operation ANSI/ICEA Residual: ≤ load operation 87-640 Cable tension 0.05% CMO TIA 455-33-B and fiber strain 1550 nm ≤ 0.05 TIA 455-38 dB/km
Compression
Load: 2200 N Longitud:10cm
Attenuation Variation ≤ 0.1 dB
ANSI/ICEA 87-640 TIA 455-41-A
Torsion
10 cycles
Attenuation Variation ≤ 0.1 dB
ANSI/ICEA 87-640 TIA 455-85-A
25 cycles de ±90°
Attenuation Variation ≤ 0.1 dB
ANSI/ICEA 87-640 TIA 455-104-A
Fiber must not break Attenuation Variation ≤ 0,1 dB
ANSI/ICEA 87-640 TIA 455-25-C
Mechanical
Ciclying curvature
Impact
25 cycles Hight: 150mm Weight: Impact Weight Table
Water penetration
24 hours x Water column: 1 m
Environmental Thermal cycle
-40 ºC +70 ºC
No leak 1310 nm ≤ 0.1dB/km 1550 nm ≤ 0.05 dB/km
ANSI/ICEA 87-640 TIA 455-82-B ANSI/ICEA 87-640 TIA 455-3-B
Cable Outer Diameter (mm)
Impact Weight (kg)
7.5 < D ≤ 13.0
2.0
13.0 < D ≤ 15.0
3.0
15.0 < D ≤ 16.6
3.5
16.6 < D ≤ 19.0
4.0
This informative is from authorship and exclusive property of Furukawa Electric LatAm. Its integral or partial reproduction is banned if its authorship is not mentioned, as well as lteration of its content or context. All specifications are subject to change without notice. Photos and drawings for illustrative purposes only.
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TECHNICAL SPECIFICATION 1204 - V 13 (29/01/2016)
Span
Cable designation
Maximum Operation Load (N)
Minimum sag (%)
CFOA-LV-AS-CMO5KN-S
5000
2
CFOA-LV-AS-CMO10KN-S
10000
2
CFOA-LV-AS-CMO15KN-S
15000
3
CFOA-LV-AS-CMO20kN-S
20000
3
Optical Characteristics
Fiber
Characteristics
Single mode
According to technical specification 2000 (Annex A)
Multi mode (OM1, OM2, OM3 and OM4)
According to technical specification 1999 (Annex B)
NZD
According to technical specification 1902 (Annex C)
Marking
FURUKAWA CFOA-x-LV-AS-CMOyKN-S wF z v month/year "Customer name" (**) LOT nL" Where: X = Fiber type SM (Singlemode fiber) NZD (Non-zero dispersion shifted singlemode fiber) y = Maximum operation load: Ex: 5, 10, 12,... w = Fiber numbers z = Special fiber extra denomination G-652D (G.652.D singlemode fiber compliant) v = NR, RC ou RT (type of outer jacket) MONTH/YEAR = Manufacture date (MM/YYYY) "Customer name" = when the purchase order has been required (**) = Metric sequential mark xxxxxx m nL = lot number Note: Mixed cables should be identified using CFOA-DDR-Y and followed by fiber specification (NZD , o SM) and the quantify. (Ex.: FURUKAWA CFOA-NZD/SM-DDR-G 24F (12F NZD + 12F SM G-652D) (PFV) 10/2015 (**) Lot nL If the coating is made using retardant flame material, the marking would be included ''RC" (Ex.: CFOA-SM-DDR-S 06F G-652D (PFV) RC); Obs: Mixed cables must follow the next distribution order of fiber type per basic unit: First: NZD Fibers Second: SM Fibers
Package
Cables shall be conditioned on wooden reels designed to prevent damage to the cable during shipment and installation. Unless otherwise specified, the nominal length shall be 4000m ±2%.
Observations
Furukawa recommends only preformed dead end assemblies. Materials other than preformed are not aprroved and shall not to be used unless specifically authorized by FURUKAWA. For further information, please contact FURUKAWA. This informative is from authorship and exclusive property of Furukawa Electric LatAm. Its integral or partial reproduction is banned if its authorship is not mentioned, as well as lteration of its content or context. All specifications are subject to change without notice. Photos and drawings for illustrative purposes only.
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