![COLLATION OF STEPHENS 1550 TEXTUS RECEPTUS … · 17:9 εκ του ] απο του 17:12 αλλα ] αλλ ... δοκει σοι πλησιον 10:40 κατελειπεν ] κατελιπεν](https://static.fdocument.org/doc/165x107/5afe264c7f8b9a8b4d8e8fa6/collation-of-stephens-1550-textus-receptus-9-1712.jpg)
OPTICAL FIBER - 4Media Solutions · 2015. 4. 15. · Macro-bending loss at 1550 nm /1625nm (1 turn,...
25
Transcript of OPTICAL FIBER - 4Media Solutions · 2015. 4. 15. · Macro-bending loss at 1550 nm /1625nm (1 turn,...
-
Cleerline SSFTM - Stonger Safer Faster.
Cleerline SSFTM advanced optical glass fibers are much stronger, safer, and faster terminating than standard glass fibers. SSFTM fibers incorporate a hybrid polymeric coating as part of the 125μm diameter resulting in increased mechanical durability, increasing both bend and tensile strength to unprecedented levels. SSFTM fibers are also always protected at the glass level as a result of their integral polymeric coating. Cleerline SSFTM fibers are compatible with all common connector systems on the market for standard 50/125 multimode and 9/125 Singlemode fibers.
Cleerline SSFTM fiber optic cable's proprietary 3M integral coating simplifies many of the critical processes involved in the termination of fiber optic cable. Unlike all other types of fiber cables, with SSFTM fiber the user no is longer required to strip the acrylate "buffer" 900μm coating. SSFTM is the next generation of fiber optics with an Nd rating = 30, providing up to 10,000 times the bend and 400 times the pull force of standard or bend insensitive fibers. With a more reliable cable and much easier installation, the installer is also able to quickly terminate mechanical splice style connections as the SSFTM fiber is easy safe to handle, reducing termination times by up to 50%. SSFTM supports all broadband applications and complies with the most stringent industry standards.
Standard 50/125 Multimode FiberAcrylate Buffer Coating 900μmGlass Cladding 125μm
Glass Core 50μm
Proprietary Polymer Coating
Glass Core 50μmGlass Cladding 100μm
Cleerline SSFTM 50/125 Multimode Fiber
Cleerline SSFTM Multimode fibers have the same 50μm core as a typical 50/125 multimode fiber. SSFTM fibers incorporate a 3M polymeric coating as part of the glass claddings overall diameter. Core + Cladding + Hybrid proprietary coating equals 125μm, the same as typical glass fibers. SSFTMfibers also incorporate Cleerline's "soft peel" 250μm acrylate coating for color identification and ease of removal without the use of fiber strippers.•SSFTM acheives unprecedented mechanical strength in
flex, crush, and impact resistance. Extreme durability in a field terminatable glass fiber providing more reliable connections and longer service life.•The SSFTM glass fiber is never exposed to the elements. Not having to strip the integral acrylate/polymer or buffer coating means tools never fracture the glass, the glass is never exposed, and the end product is more stable with less long term defects. •SSFTM is designed for ease of use and safety due to incredible flexibility of the fiber soft tissues are protected at all times during the termination process. •Incredible bend longevity with Nd = 30 assured for up to 10,000X increased bend over typical glass fibers.•Ultra Low Attenuation Loss on tight bend radius•SSFTM exclusive "Soft Peel" 250um jacket identifier•Reduced tooling required for termination.•Incredible tensile strength allowing for ease of installation and superior fatigue value.
Standard 9/125 Single Mode FiberAcrylate Buffer Coating 900μmGlass Cladding 125μm
Glass Core 9μm
Proprietary Polymer Coating
Glass Core 9μmGlass Cladding 100μm
Cleerline SSFTM 9/125 Single Mode Fiber
Features & Benefits
Soft Peel Identifier 250μm
Soft Peel Identifier 250μm
CLEERLINE SSFTM OPTICAL FIBER
Cleerline SSFTM Multimode fibers have the same 9μm core as a typical 9/125 singlemode fiber. SSFTM fibers incorporate a 3M polymeric coating as part of the glass claddings overall diameter. Core + Cladding + Hybrid proprietary coating equals 125μm, the same as typical glass fibers. SSFTM fibers also incorporate Cleerline's "soft peel" 250μm acrylate coating for color identification and ease of removal without the use of fiber strippers.
CLEERLINE TECHNOLOGY GROUP, LLC Date: 3/15/14 Rev. 1.58404 El Way Drive #2B, Missoula, MT 59808 USA & CAN: 866-469-2487 Fax 406.532.0060 | Int'l +1.406.541.9830 Fax +1.406.532.0060 Web: www.cleerlinefiber.com Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice
-
CLEERLINE NSF FIBER OPTIC CABLE
Cleerline SSFTM 50/125μm Specialty OM3 Multimode Optical Fiber Characteristics Conditions Specified Values Unit
PHYSICAL CHARACTERISTICSCore Diameter 50.0 ± 2.5 (μm)Core Non- circularity ≦ 5 (%)Core / Hybrid Cladding Concentricity Error ≦ 3.0 (μm)Hybrid Cladding Diameter 125 ± 1 (μm)Hybrid Cladding Non-Circularity ≦ 3.0 (%)Protective Coating Concentricity Error ≦ 3.0 (μm)Soft-Peel Jacket Identifier 245 ± 5Coating Strip Force (typcial) ≦ 100 (g)Color Coating Diameter 250 ± 10 (μm)Fiber Curl ≧ 2 (m)Proof Test 100 (Kps)Bend Induced Attenuation at 1300 nm ≦ 1.0 (dB)(100 turns around a mandrel of 75 mm diameter)Dynamic fatigue 23oC, 41%RH (nd) >30Length (Typical) 1.0 – 8.8 (Km)
ENVIRONMENTAL CHARACTERISTICSTemperature Dependence at 850 nm and 1300 nm ≦ 0.1 (dB/km)Induced Attenuation – 40oC to +85oCWater Soak Dependence at 850 nm and 1300 nm ≦ 0.2 (dB/km)Induced Attenuation at 23oC for 30 daysDamp Heat Dependence at 850 nm and 1300 nm ≦ 0.2 (dB/km)Induced Attenuation at 85oC, 85%R.H., 30 daysDry Heat Dependence at 850 nm and 1300 nm ≦ 0.2 (dB/km)Induced Attenuation at 85oC, 85%R.H., 30 days
OPTICAL CHARACTERISTICS*Attenuation Coefficient
850 nm ≦ 3.0 (dB/km)1300 nm ≦ 1.0 (dB/km)
Numerical Aperture 0.200 ± 0.015Overfilled Modal Bandwidth
850 nm ≧ 1500 (MHz·km)1300 nm ≧ 500 (MHz·km)
Differential Mode Delay 850nm ≧ 2000 (MHz•km)
BACKSCATTER CHARACTERISTICSAttenuation Directional Uniformity ≦ 0.05 (dB/km)Attenuation Uniformity ≦ 0.05 (dB)Group Index of Refraction
850 nm 1.4811300 nm 1.476
Attenuation Directional Uniformity ≦ 0.05 (dB/km)Attenuation Uniformity ≦ 0.05 (dB)Group Index of Refraction
850 nm 1.4811300 nm 1.476
CLEERLINE SSFTM OPTICAL FIBER
Cleerline SSFTM 9/125μm Specialty Single-mode Optical FiberCharacteristics Conditions Specified Values Unit
PHYSICAL CHARACTERISTICSHybrid Cladding Diameter 125 ± .07 (μm)Hybrid Cladding Non-Circularity ≦ 1.0 (%)Core-Hybrid Cladding Concentricity Error ≦ 0.5 (μm)Soft-Peel Jacket Diameter 245 ± 5 (μm)Fiber Curl ≧ 2 (m)Proof Test 100 (Kpsi) Soft-Peel Jacket Strip Force ≦ 100 (g)Macro-bending loss at 1550 nm /1625nm (1 turn, 10mm radius)
≦ 0.3/1.0 (dB)(10 turns around a mandrel of 15 mm diameter)
≦ 0.03/0.2 (dB)Dynamic Fatigue 23C, 41%RH >30
ENVIRONMENTAL CHARACTERISTICSTemperature Dependence at 1310 nm and 1550 nm ≦ 0.05 (dB/km)Induced Attenuation – 40oC to +85oCWater Soak Dependence at 1310 nm and 1550 nm ≦ 0.05 (dB/km)Induced Attenuation at 20oC for 30 daysDry Heat Dependence at 850 nm and 1300 nm ≦ 0.05 (dB/km)Induced Attenuation at 85oC, 30 daysDamp Heat Dependence at 1310 nm and 1550 nm ≦ 0.05 (dB/km)Induced Attenuation at 85oC, 85%R.H., 30 days
OPTICAL CHARACTERISTICSAttenuation Coefficient
1310 nm ≦ .35 (dB/km)1385 nm H2 aged* ≦ .31 (dB/km)1550 nm ≦ .21 (dB/km)1625 nm ≦ .22 (dB/km)
*Hydrogen aging per IEC60793-2-50 type B1.2Mode Field Diamter
1310 nm 8.6 ± 0.4 (μm)1550 nm 9.7 ± 0.5 (μm)
Fiber Cut-Off Wavelength < 1330 (μm)Cabled Fiber Cut-Off Off Wavelength ≦ 1260 (μm)Zero Dispersion Wavelength 1330∼1324 (μm)Zero Dispersion Slope ≦ 0.092 (ps/[nm2.km])Dispersion Coefficient
1285 - 1330 nm ≦ 3.1 (ps/[nm.km])1550 nm ≦ 18 (ps/[nm.km])
BACKSCATTER CHARACTERISTICSAttenuation Directional Uniformity ≦ 0.03 (dB/km)Attenuation Uniformity ≦ 0.05 (dB)Group Index of Refraction
1310 nm 1.4671550 nm 1.468
*Ensured via minEMBC.per TIA/EIA 455-220A and IEC 60793-1-49, for high performance laser based systems.
SSFTM conforms to the requirement of IEC 60793 A1a, ISO/IEC 11801 & ITU-T G.651.1. 850 nm Laser-Optomized 50 μm-core multimode fiber for 10 Gb/s & above applications
SSFTM Singlemode is fully compliant to ISO/IEC 11801:2002 and ITU-T G.652D low water peak. It's macro-bending loss performance is compliant to ITU-T G.657 A2 and B2 bend insensitive fiber.
CLEERLINE TECHNOLOGY GROUP, LLC Date: 3/15/14 Rev. 1.58404 El Way Drive #2B, Missoula, MT 59808 USA & CAN: 866-469-2487 Fax 406.532.0060 | Int'l +1.406.541.9830 Fax +1.406.532.0060 Web: www.cleerlinefiber.com Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice
-
COMPONENT SPECIFICATIONS9/125 SSFTM Singlemode OS2, 3.0mm Jacketed12 Strand - Distribution Riser & Plenum Cables
JACKETPVC, moisture resistant Riser Rated PVC / Plenum Rated PVC3.0mm unit diameterYellow jacket = Singlemode fiberSequential footage markings*Kevlar (Plenum + water blocking yarns)
PART NUMBER
NUMBER DESCRIPTION COUNT DIAMETER WEIGHT WEIGHT PART PART FIBER NOMINAL CABLE TOTAL
12 Strand Riser/Plenum Typical Cross Sections
Type OS2, OFNP, OFNR, Product Type G.657.A2, G657.B2, and G.652 .D
FIBERNumber of Fibers = 12 / Type = 9/125 Singlemode OS2250um "Soft Peel" coating (1=Blue, 2=Orange, 3=Green,4=Brown, 5=Slate, 6=White, 7= Red, 8=Black, 9=Yellow, 10=Violet, 11=Rose, 12=Aqua) Color Coding per TIA/EIA 568C
COMPLIANCEUL Listed OFNR C(UL)US - CSA FT4 and ONFP C(UL)US - CSA FT6 RoHS Compliant Directive 2011/65/EU *Ensured via mini EMBC per TIA/EIA 455-220A and ICEA S-104-696
APPLICATIONSInterbuilding and intrabuilding voice or data communicationbackbonesrequiring 3.0mm jacket diameter. Install in ducts,underground conduits or aerial/lashed UL Listed OFNP for installation in plenum airways and and general horizontal applications when installed inaccordance with the NEC article 770-51 (a) and 770-53 (a). UL listed Type OFNP for installation in ducts, plenums and other spaces used as environmental air returnswhen installed in accordance with NEC article 770-51 (a) and 770-53(a)
ENVIRONMENTAL CHARACTERISTICSTemperature Dependence at 1310 nm and 1550 nm ≤ 0.05 (db/km)Induced Attenuation - 40℃ to +85℃Watersoak Dependence at 1310 nm and 1550 nm ≤ 0.05 (db/km)Induced Attenuation at 20℃ for 30 daysDamp Heat Dependence at 1310 nm and 1550 nm ≤ 0.05 (db/km)Induced Attenuation at 85℃, 85%R.H., 30 daysDry Heat Dependence at 850 nm and 1300 nm ≤ 0.05 (db/km)Induced Attenuation at 85℃,, 30 days
PHYSICAL CHARACTERISTICS
CONSTRUCTION
BACKSCATTER CHARACTERISTICS
OPTICAL CHARACTERISTICS*
SSF complies or exceeds the ITU-T recommendations G.657 A2, G657 B2 and G.652 D, the IEC International Standard 60793-2-50 type B.1.3 and B.6.A&B Optical Fiber Specification.
Attenuation Coefficient 1310 nm ≦ 0.35 (dB/km)1550 nm ≦ 0.21 (dB/km)
Mode Field Diameter 1310 nm 8.6± 0.4um1550 nm 9.7± 0.5um
Cable Cut-off Wavelength ≦1260nm Zero Dispersion Wavelength 1310nm-1324nmZero Dispersion Slope 0.092ps/ (nm
2.km)
Attenuation Directional Uniformity ≦ 0.03 (dB/km)Attenuation Uniformity ≦ 0.05 (dB)Group Index of Refraction 1310 nm 1.467
1550 nm 1.468
Core / Hybrid Cladding Concentricity Error ≦ 0.5 (μm)Hybrid Cladding Diameter 125 ± 0.7 (μm)Hybrid Cladding Non-Circularity Error ≦ 1.0 (%)Soft Peel Jacket Identifier Diameter 250 ± 0.7 (μm)Coating Strip Force ≦100 (g) Fiber Curl ≧2 (m)Proof Test 100 (kpsi)Bend Induced Attenuation
1550nm 1 turn 10mm radius ≦ 0.3 (dB)10 turns around a mandrel of 15 mm radius ≦ 0.03 (dB)
1625nm 1 turn 10mm radius ≦ 1.0 (dB)10 turns around a mandrel of 15 mm radius ≦ 0.2 (dB)
CLEERLINE TECHNOLOGY GROUP, LLC Date: 02/15/14 Rev. 1.58404 El Way Drive #2B, Missoula, MT 59808 USA & CAN: 866-469-2487 Fax 406.532.0060 | Int'l +1.406.541.9830 Fax +1.406.532.0060 Web: www.cleerlinefiber.com Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice
3.0 - 0.2+
Cleerline SSFTM advanced optical glass fibers are much stronger, safer, and faster terminating than typical fibers. This distribution style cable provides the ultimate in durability and bend in a very compact size. SSFTM fibers are always protected at the glass level as a result of their integral polymeric coating, increasing both bend and tensile strength to unprecedented levels. Cleerline SSFTM fibers are compatible with all common connector systems on the market for standard 50/125 multimode and 9/125 Singlemode fibers.
Features And Benefits:* High mechanical strength and superior fatigue & durability* Integral coating eliminates stripping, provides glass protection* Bend longevity for 10,000X longer life time than normal fibers * Increased safety factor due to the incredible bend insensitivity* Glass fiber remains protected at all times from the elements* Simplified termination process designed for ease of use* Ultra low Attenuation loss on tight bend radius* Exclusive 250um Soft peel jacket identifier
PHYSICAL DATAStorage Temperature Range = -40℃ to +85℃Operating Temperature Range = -20℃ to +75℃Max Tensile Load for Installation = 1000(225) N (lbf)Max Tensile Long Load term = 500(112) N (lbf)Min. Bend Radius, Unloaded = 10 x OD (10 x 3.5mm)Cable Outside Diameter, Nominal = 3.0mmCable Package = Cut to customer request,
Spooled, 1,000ft/340m minimumRating = OFNR/FT4/Riser or OFNP/FT6/PlenumCrush Resistance (TIA/EIA 455-41A) = 100 kgf/mmImpact Resistance (TIA/EIA 455-25B) = 1500 Impact cycles
Flexing @ 90 degree (TIA/EIA 455-104A) = 2000 flexing cycles
12D9125SMOS2R 12 Strand Riser 12 Fiber/s 3.0mm 5 kg/kft 5.5 kg
12D9125SMOS2P 12 Strand Plenum 12 Fiber/s 3.0mm 11.02 lbs/kft 12.12 lbs
-
COMPONENT SPECIFICATIONS50/125 SSFTM Multimode OM3, 3.0mm Jacketed6 Strand - Distribution Riser & Plenum Cables
PART NUMBER
NUMBER DESCRIPTION COUNT DIAMETER WEIGHT WEIGHT PART PART FIBER NOMINAL CABLE TOTAL
6 Strand Riser/Plenum Typical Cross Sections
Type OM3, OFNR, CSA FT4 / OFNP, CSA FT6
FIBERNumber of Fibers = 6 / Type = 50/125 Multimode OM3250um "Soft Peel" coating (1=Blue, 2=Orange, 3=Green,4=Brown, 5=Slate, 6=WhiteColor Coding per TIA/EIA 568C
COMPLIANCEUL Listed OFNR C(UL)US - CSA FT4 and ONFP C(UL)US - CSA FT6 RoHS Compliant Directive 2011/65/EU *Ensured via minEMBC.per TIA/EIA 455-220A and IEC 60793-1-49, for high performance laser based systems.
Cleerline SSFTM advanced optical glass fibers are much stronger, safer, and faster terminating than typical fibers. This distribution style cable provides the ultimate in durability and bend in a very compact size. SSFTM fibers are always protected at the glass level as a result of their integral polymeric coating, increasing both bend and tensile strength to unprecedented levels. Cleerline SSFTM fibers are compatible with all common connector systems on the market for standard 50/125 multimode and 9/125 Singlemode fibers.
APPLICATIONSIntra building voice or data commumication backbones, Light weight ultra flexible design simplifies installation.Fiber- to- the-Desk (FTTD). Fiber-to-the-Home (FTTH)UL listed Type OFNP for installation in ducts, plenumsand other spaces used as environmental air returnswhen installed in accordance with NEC article 770-51 (a)and 770-53 (a)
UL Listed Type OFNP, CSA FT6, ANSI/TIA/EIA 568 B.3
ENVIRONMENTAL CHARACTERISTICS
PHYSICAL CHARACTERISTICS
SSF conforms to the requirement of IEC 60793 A1a, ISO/IEC 11801 & ITU-T G.651.1. 850 nm Laser-Optomized 50 μm-core multimode fiber for 10 Gb/s & above applications
OPTICAL CHARACTERISTICS*
BACKSCATTER CHARACTERISTICS
CONSTRUCTION
Storage Temperature Range = -40℃ to +85 ℃Operating Temperature Range = -20℃ to +75 ℃Max Tensile Load for Installation = 1000(225) N (lbf)Max Tensile Long Load term = 500(112) N (lbf)Min. Bend Radius, Unloaded = 10 x OD (10 x 3mm)Cable Outside Diameter, Nominal = 3.0mmCable Package* = 1000ft Reel in a box
*Or customer request, spooledRating Crush Resistance (TIA/EIA 455-41A) = 100 kgf/mmImpact Resistance (TIA/EIA 455-25B) = 1500 Impact cycles
Flexing @ 90 degree (TIA/EIA 455-104A) = 2000 flexing cycles
Temperature Dependence at 850 nm and 1300 nm ≦ 0.5 (dB/km)Induced Attenuation – 40℃ to +85℃Water soaks Dependence at 850nm and 1300 nm ≦ 0.5 (dB/km)Induced Attenuation at 23℃ for 30 daysDamp Heat Dependence at 850 nm and 1300 nm ≦ 0.5 (dB/km)Induced Attenuation at 85℃, 85%R.H., 30 daysDry Heat Dependence at 850 nm and 1300 nm ≦ 0.5 (dB/km)Induced Attenuation at 85℃, 30 days
Attenuation Coefficient 850 nm ≦ 3.0 (dB/km)1300 nm ≦ 1.0 (dB/km)
Numerical Aperture 0.200 ± 0.015Overfilled Modal Bandwidth 850 nm ≧ 1500 (MHz·km)
1300 nm ≧ 500 (MHz·km)High Performance EMB* 850nm ≧ 2000 (MHz•km)
Attenuation Directional Uniformity ≦ 0.05 (dB/km)Attenuation Uniformity ≦ 0.05 (dB)Group Index of Refraction 850 nm 1.481
1300 nm 1.476
Core Diameter 50.0 ± 2.5(μm)Core Non-circularity ≦ 6 (%)Core / Hybrid Cladding Concentricity Error ≦ 3.0 (μm)Hybrid Cladding Diameter 125 ± 0.7 (μm)Hybrid Cladding Non-Circularity Error ≦ 3.0 (%)Soft Peel Jacket Identifier Diameter 250 ± 0.7 (μm)Coating Strip Force 100 (g) Fiber Curl ≦ 2 (m)Proof Test 100 (kpsi)Bend Induced Attenuation at 1300 nm ≦ 1.0 (dB) (100 turns around a mandrel of 75 mm diameter)Dynamic fatigue 23C, 41%RH >30(nd)Length 1.0 - 8.8 (Km)
CLEERLINE TECHNOLOGY GROUP, LLC Date: 02/15/14 Rev. 1.58404 El Way Drive #2B, Missoula, MT 59808 USA & CAN: 866-469-2487 Fax 406.532.0060 | Int'l +1.406.541.9830 Fax +1.406.532.0060 Web: www.cleerlinefiber.com Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice
Features And Benefits:* High mechanical strength and superior fatigue & durability* Integral coating eliminates stripping, provides glass protection* Bend longevity for 10,000X longer life time than normal fibers * Increased safety factor due to the incredible bend insensitivity* Glass fiber remains protected at all times from the elements* Simplified termination process designed for ease of use* Ultra low Attenuation loss on tight bend radius* Exclusive 250um Soft peel jacket identifier
JACKETPVC, moisture resistant Riser Rated PVC / Plenum Rated PVC3.0mm unit diameterAqua jacket = OM3 Multimode fiberSequential footage markings*Kevlar (Plenum + water blocking yarns)
PHYSICAL DATA
6D50125MOM3R 6 Strand Riser 6 Fiber/s 3.0mm 3kg / kft 3.50 kg
6D50125MOM3P 6 Strand Plenum 6 Fiber/s 3.0mm 6.61lbs/kft 7.71 lbs
-
Fibe
r Stru
ctur
e&
125u
mH
ybrid
Cl
addi
ng&
125u
mGl
ass
Clad
ding
&
Clee
rline
Fib
erN
orm
al F
iber
5
-
Clee
rline
Mul
timod
e Fi
ber P
erfo
rman
ce S
peci
ficat
ions
Com
pare
d to
Indu
stry
Sta
ndar
ds
!
"!
#$%&'&!
()"*
+
,
,
-$',
,,.
,
,
-$',
,,&/
,
,
-$',
,,/&,
,
0/
12
≤
≤
≤
≤
≤
≤
≤
≤
≤
≤
! "
≤
≤
≤
.0
/2
3
/
≤
≤
≤
≤
≤
#
≤
#
≤
≤
'
-
$%
≥
≥
≥
&
≥&
≥&
≥
≥
≥
≥
$%
≥
≥
≥
'()
&*&*&
≥
≥
≥
≥
,
(+!",
!-.
/
/
/
/
/
Clee
rline
ode
o
≥
≥
≥
/
/
.
04
2
≤
≤
≤
≤
≥
≥
≥
Clee
rline
tod
%
≥
≥
≥'()
&
/
/
/
/
,
5
/
60
/2
/
50
78912
≤
/
(+!",
!-.
&
0%
6
-
Clee
rline
Mul
timod
e Fi
ber P
erfo
rman
ce S
peci
ficat
ions
Com
pare
d to
Indu
stry
Sta
ndar
ds
!
"!
#$%&'&!
()"*
+
,
,
-$',
,,.
,
,
-$',
,,&/
,
,
-$',
,,/&,
6.
04
2
(+!",
!-.
/
/
/
/
/
6
&
0:2
≤
≤
≤
≤
≤
&
0:2
≤
≤
≤
≤
≤
&
042
≤
≤
≤
≤
≤
!)-1!)
;
,
0/
12
;
6.
04
2
/
/
/
/
6&
6
04
2
≤
≤
≤
≤
6
0
2
2
≥3≤
≥3≤
≥3≤
≥3≤
)4
≥3≤
< 1
.0
< 1
.0
≤
/
≤
Clee
rline
od
o
60
2
≤
5)67
-8(2/
/
≤
≤
≤
*!
%
!!
≤
+)- )5+9
:
<
6012
≤
≤
≤
!2
!2
!2
≥;+
1-)
)"!(
/
;+2+"!
≥;+
≥;+
≥;+
≥;+
-
Maj
or S
peci
ficat
ions
U
nit
ITU
-T G
.651
.1 Cleerline-
MM
C
ompl
ianc
e S
tate
men
t
Cor
e µ
m 50
+/
- 3.0
50
+/- 2
.5 C
ompl
y
Cla
ddin
g µ
m 12
5 +/
- 2
125
+/- 2
H
ybrid
Cla
ddin
g w
ith
Per
man
ent P
olym
er
Coa
ting
µm
245
+/- 1
0 24
5 +/
- 10
Com
ply
Atte
nuat
ion
Loss
@
850n
m dB
/km
< 3.
5 <
3.0
Com
ply
BW
@85
0nm
MH
z.km
>
500
> 50
0/15
00/3
500
Com
ply
(IEC
OM
2/O
M3/
OM
4)
Num
eric
al A
pertu
re
(NA
) 0.
2 +/
- 0.
015
0.2
+/-
0.01
5 C
ompl
y
Stri
ppin
g Fo
rce
g 10
0 - 5
00
< 10
0 S
oft P
eel
Pro
of T
est
kpsi
100
100
Com
ply
Fatig
ue n
-val
ue (n
d) (IEC60793-1-33)
> 18
>
30
Hig
h M
echa
nica
l Stre
ngth
fo
r Ben
ding
Lon
gevi
ty
SSF™
Mul
timod
e Fi
ber
ITU-
T G.
651.
1
8
-
Bending loss (dB/turn)
Bend
ing
Radi
us (m
m)
Mul
timod
e SS
F™ F
iber
Mac
ro-b
endi
ng L
oss
Clee
rline
-MM
F (8
50nm
)
Nor
mal
-MM
F (8
50nm
)
The
Dep
ress
ed (o
r Gro
oved
) Ind
ex P
rofil
e.•
The
bend
ing
loss
per
form
ance
is su
perio
r to
G.65
1.1
spec
ifica
tions
.•
In M
acro
-ben
ding
loss
test
s SSF™
fibe
r per
form
ance
exc
eeds
that
of t
ypic
al
lega
cy fi
bers
and
“ben
d &
cur
ve” t
ype
fiber
s.
9
-
Cleerline
Sin
glem
ode
Fibe
r Per
form
ance
Spe
cific
atio
ns C
ompa
red
To In
dust
ry S
tand
ards
Para
met
erTe
st M
etho
dIn
dust
ry S
tand
ard
ITU
G.6
52.D
Indu
stry
Sta
ndar
dIT
U G
.657
.A1
Indu
stry
Sta
ndar
dIT
U G
.657
.A2
Indu
stry
Sta
ndar
dIT
U G
.657
.B2
Indu
stry
Sta
ndar
dIT
U G
.657
.B3
Att
enua
tion(
dB/k
m)
FOTP
78
1310
nm
IEC
6079
3-1-
40≤
0.4
(Cab
led)
≤ 0
.4 (C
able
d)≤
0.4
(Cab
led)
≤ 0
.5 (C
able
d)≤
0.5
(Cab
led)
1385
nm
≤ 0
.4 (C
able
d)≤
0.4
(Cab
led)
≤ 0
.4 (C
able
d)15
50 n
m≤
0.3
(Cab
led)
≤ 0
.3 (C
able
d)≤
0.3
(Cab
led)
≤ 0
.3 (C
able
d)≤
0.3
(Cab
led)
1625
nm
≤ 0
.4 (C
able
d)≤
0.4
(Cab
led)
Mod
e Fi
eld
Diam
eter
FOTP
167
131
0 nm
(8
.6 ~
9.5)
± 0
.6(8
.6 ~
9.5)
± 0
.4(8
.6 ~
9.5)
± 0
.4(6
.3 ~
9.5)
± 0
.4(6
.3 ~
9.5)
± 0
.4 1
550n
mCa
ble
Cut-
Off
Wav
elen
gth
FOTP
80
≤ 1
260
≤ 1
260
≤ 1
260
≤ 1
260
≤ 1
260
Zero
Dis
pers
ion
Wav
elen
gth
FOTP
75
1300
~ 1
324
1300
~ 1
324
1300
~ 1
324
----
Zero
Dis
pers
ion
Slo
peFO
TP 7
5≤
0.0
92≤
0.0
92≤
0.0
92--
--Di
sper
sion
Coe
ffici
ent
FOTP
75
128
5 - 1
330
nm--
----
----
155
0 nm
----
----
--At
tenu
atio
n Di
rect
iona
l Uni
form
ityPo
int D
isco
ntiu
nity
(dB)
FOTP
78
Turn
sR
(mm
)nm
dBFO
TP 6
21
515
50≤
0.7
5IE
C 60
793-
1-47
----
----
≤ 0
.15
15
1625
≤ 1
.0--
----
--≤
0.4
51
7.5
1550
≤ 0
.5--
--≤
0.5
≤ 0
.5≤
0.0
81
7.5
1625
≤ 1
.0--
--≤
1.0
≤ 1
.0≤
0.2
51
1015
50≤
0.1
--≤
0.7
5≤
0.1
≤ 0
.1≤
0.0
31
1016
25≤
0.2
--≤
1.5
≤ 0
.2≤
0.2
≤ 0
.110
1515
50≤
0.0
3--
≤ 0
.25
≤ 0
.03
≤ 0
.03
--10
1516
25≤
0.1
--≤
1.0
≤ 0
.1≤
0.1
-- C
ladd
ing
Diam
eter
(μm
)FO
TP 1
7612
5.0
± 1.
012
5 ±
0.7
125
± 0.
712
5 ±
0.7
125
± 0.
7 C
ladd
ing
Non
-Circ
ular
ity (
%)
IEC
6079
3-1-
20≤
1.0
≤ 1
.0≤
1.0
≤ 1
.0≤
1.0
Cor
e-Cl
ad C
once
ntric
ity
(μm
)≤
0.6
≤ 0
.5≤
0.5
≤ 0
.5≤
0.5
Calib
rate
d W
inde
rIE
C 60
793-
1-22
Env
ironm
enta
l/ A
tten
uatio
n (d
B/km
)FO
TP 3
IEC
6079
3-1-
52FO
TP 6
7IE
C 60
793-
1-51
FOTP
74
IEC
6079
3-1-
53 O
vera
ll Co
atin
g Di
amet
er (
μm)
FOTP
195
----
----
-- C
oatin
g-Cl
addi
ng C
once
ntric
ity (
μm)
IEC
6079
3-1-
21--
----
----
FOTP
31
IEC
6079
3-1-
30 C
oatin
g St
rip F
orce
(N)
Peak
FOTP
-178
----
----
--
Av
erag
eIE
C 60
793-
1-32
----
----
--
Att
enua
tion
with
Ben
ding
(dB)
≤ 0
.092
Cleerline
-SM
F
≤ 0
.35
≤ 0
.31
≤ 0
.21
≤ 0
.23
8.6
± 0.
49.
7 ±
0.5
≤ 1
260
1300
~ 1
324
≤ 3
.1≤
18
≤ 0
.03
≤ 0
.05
1310
and
155
0 nm
125.
0 ±
0.7
≤ 1
.0≤
0.5
Len
gth
(km
)2.
2~25
.2--
----
---- --
Dry
Heat
Soa
k (8
5 ±
2)
≤ 0
.05
----
----
--
Tem
pera
ture
Dep
ende
nce
(-60
+85
)≤
0.0
5--
----
--
Wat
er Im
mer
sion
(23
± 2
)≤
0.0
5--
----
Min
imum
Str
engt
h(b
y Pr
oof T
est)
0.69
Gpa
≥ 0
.69
Gpa
≥ 0
.69
Gpa
≥ 0
.69
Gpa
< 1
.0
< 1
.0
--
245
± 10
≤ 6
≥ 0
.69
Gpa
≥ 0
.69
Gpa
--
10
-
Sing
lem
ode
SSF™
Fib
er
ITU-
T G.
657
A&B
Maj
or S
peci
ficat
ions
U
nit
ITU
-T G
.65
7A&
B Cleerline-
SMF
Com
plia
nce
Sta
tem
ent
MFD
@13
10nm
µ
m 8.
6 +/
- 0.4
8.6
+/- 0
.4 C
ompl
y
Cla
ddin
g µ
m 12
5 +/
- 1
125
+/- 1
H
ybrid
Cla
ddin
g w
ith
Per
man
ent P
olym
er
Coa
ting
µm
245
+/- 1
0 24
5 +/
- 10
Com
ply
Atte
nuat
ion
Loss
@15
50nm
dB
/km
< 0.
30
< 0.
21
Com
ply
Cab
le C
utof
f Wav
elen
gth
nm
< 12
60
< 12
60
Com
ply
Zero
Dis
pers
ion
Wav
elen
gth
nm
1300
~132
4 13
00~1
324
Com
ply
Stri
ppin
g Fo
rce
g 10
0 –
500
< 10
0 S
oft P
eel
Pro
of T
est
kpsi
100
100
Com
ply
Fatig
ue n
-val
ue (n
d) >
18
> 30
H
igh
Mec
hani
cal S
treng
th
for B
endi
ng L
onge
vity
11
-
The
Dep
ress
ed (o
r Gro
oved
) Ind
ex P
rofil
e.•
The
bend
ing
loss
per
form
ance
is su
perio
r to
G.65
7 A&
B sp
ecifi
catio
ns.
•
In M
acro
-ben
ding
loss
test
s SSF™
fibe
r per
form
ance
exc
eeds
that
of t
ypic
al
lega
cy fi
bers
and
“ben
d &
cur
ve” t
ype
fiber
s.
Bending loss (dB/turn)
Bend
ing
Radi
us (m
m)
Sing
lem
ode
SSF™
Fib
er
Mac
ro-b
endi
ng L
oss
SSF™
-SM
F (1
550n
m)
Nor
mal
-SM
F (1
550n
m)
12
-
Clee
rline
SSF™
Fib
er O
ptic
s
•H
igh
Mec
hani
cal S
treng
th
•Be
ndin
g Lo
ngev
ity
Fatig
ue V
alue
Mea
sure
men
tM
etho
d (IE
C 60
793-
1-33
)
13
SSF™
fibe
rs a
llow
tight
er b
end
radi
us (R
15 fi
ber c
ompa
tible
) and
hig
h m
echa
nica
l st
reng
th a
llows
for p
ull f
orce
tens
ions
that
exc
eed
all co
mm
erici
ally a
vaila
ble
fiber
s, ev
en "b
end
and
curv
e" ty
pes.
This
prov
en lo
ng lif
etim
e fib
er ch
arac
teris
tic m
akes
SSF™
fibe
r a su
perio
r pro
duct
in b
oth
perfo
rman
ce a
nd re
liabi
lity.
•
-
Max
imum
Tur
ns o
f Ben
ding
(IT
U-T
G.65
7 Ap
pend
ix I
, fai
lure
rate
@ 1
0 pp
m
(0.0
01%
) in
20 y
ears
)
Max
imum
stor
age
leng
th fo
r a b
ent f
iber
and
diff
eren
t val
ues o
f the
fatig
ue
para
met
er "n
" (Va
lue
of n
=18
is th
e m
inim
um v
alue
as
stat
ed in
the
Int.
Stan
dard
IEC
6079
3-2-
50 a
nd in
Tel
cord
ia G
ener
ic R
equi
rem
ents
GR-
20-C
ORE
)14
Clee
rline
SSF™
fibe
rs e
xcee
d al
l oth
er fi
bers
in b
end
with
n=3
0 va
lue
-
Tens
ile S
treng
th T
est P
roce
dure
Th
e fib
er is
tigh
tly fi
xed
betw
een
two
trans
latio
n st
ages
. Th
en o
ne s
tage
is
mov
ed t
o el
onga
te f
iber
.
15
-
Lega
cy
Com
petit
or
SSF™
Fib
er
16
Tens
ile S
treng
th T
est
Loss @850nm (dB)
Elon
gatio
n ra
tio, ∆
L/L
(%)
SSF™
fibe
r exc
eeds
all
othe
r fib
ers i
n te
nsile
stre
ngth
allo
win
g fo
r inc
reas
ed p
ull
forc
e of
ove
r 3 to
4 ti
mes
that
of s
tand
ard
fiber
s dur
ing
inst
alla
tion.
-
Repe
ated
Ben
ding
Tes
t
Equi
pmen
t Sc
hem
eO
ne fi
ber e
nd is
fixe
d to
the
cylin
der.
The
othe
r one
is
pass
ed th
roug
h tw
o 3m
m ro
ds a
nd e
quip
ped
with
40g
ba
llast
. The
n m
otor
ized
engi
ne ro
tate
s 180
deg
ress
bac
k an
d fo
rth to
ben
d th
e fib
er in
diff
eren
t dire
ctio
ns. 17
Cyl
inde
rto
fix
fiber
-
SSF™
Fib
er R
epea
t Ben
ding
Tes
t
Afte
r 200
tim
es o
f rep
eat b
endi
ng
proc
edur
e th
ere
is no
mea
sura
ble
incr
ease
in si
gnal
loss
. Acr
ylat
e la
yer c
rack
s are
foun
d w
ith
mic
rosc
ope.
Afte
r rem
ovin
g th
e ac
ryla
te la
yer t
here
's so
me
mar
king
on
the
coat
ed la
yer.
The
brea
king
forc
e w
as fo
und
to b
e th
e sa
me
as th
e in
itial
test
. Af
ter b
end
test
, th
e st
reng
th o
f fib
er is
unc
hang
ed.
10X
10X
18
-
Bend
ing
(D=3
mm
) in
Hot
Wat
er (9
0°C)
Failure Probability (%)
Nd
: 18-
24
Nor
mal
Fib
ers
Nd
: 30-
32
SSF™
Fib
ers
19
Tim
e to
Fai
lure
(sec
)SS
F™ fi
ber h
avin
g an
n=3
0 va
lue
exce
eds t
ypic
al fi
bers
incl
udin
g "b
end
& c
urve
" typ
e fib
ers i
n be
nd p
erfo
rman
ce b
y ov
er 1
0,00
0x fo
r gre
ater
relia
bilit
y co
mpa
red
to st
anda
rd fi
ber.
-
Cabl
e Li
fetim
e Es
timat
es
Both
ben
ding
and
tens
ion
forc
e sh
ould
be
cons
ider
ed to
acc
urat
ely
dete
rmin
e th
e lo
ng
term
mec
hani
cal r
elia
bilit
y of
the
optic
al fi
ber.
Fibe
r life
time
estim
ate-
IEC
TR 6
2048
The
addi
tiona
l ten
sion
forc
e ca
lcul
atio
n- D
ave
Maz
zare
se e
t al.,
Proc
57t
h IW
CS (2
008)
20
The
follo
wing
test
resu
lts p
rove
that
Cle
erlin
e SS
F™ fi
ber h
as su
perio
r mec
hani
cal
and
bend
ing
prop
ertie
s in
all e
nviro
nmen
ts, e
ven
unde
r rug
ged
cond
ition
s. Cl
eerli
ne
fiber
can
with
stan
d be
nd a
nd p
ull t
ensio
ns th
at ca
use
stan
dard
fibe
rs to
fail,
prov
idin
g gr
eate
r rel
iabilit
y and
per
form
ance
than
any
oth
er co
mm
ercia
lly a
vaila
ble
fiber
.
-
The
impa
ct o
f n o
n ca
ble
lifetim
e es
timat
ion
(OD=
3mm
, cla
ddin
g=12
5um
, ben
ding
+ 1
45N
tens
ion)
cabl
e ja
cket
is a
hig
h E
mat
eria
l (6.
5GPa
)&&
The
grap
hs d
emon
stra
te th
e im
porta
nce
of fa
tigue
val
ue (n
) for
life
time
estim
atio
n.
21
SSF™
fibe
r (n=
30) p
erfo
rms b
ette
r und
er b
end
and
pull
cond
ition
s tha
n al
l st
anda
rd fi
bers
incl
udin
g "b
end
& c
urve
" typ
es fo
r ext
ende
d lif
etim
e,
perfo
rman
ce, a
nd re
liabi
lity.
-
Diffe
rent
fibe
rs p
ut in
3m
m O
D ca
ble
lifet
ime
estim
atio
n (b
endi
ng a
nd 1
45N
add
ition
al te
nsio
n)
cabl
e ja
cket
is a
hig
h E
mat
eria
l (6.
5GPa
)&&
- All
cabl
es h
ave
OD
=3m
m a
nd h
igh
E va
lue
for j
acke
t mat
eria
l- I
t is s
how
n th
at fi
bers
with
hig
her n
val
ues p
rovi
de b
ette
r per
form
ance
/ext
ende
d lif
etim
e - S
SF™
per
form
ance
exc
eeds
typi
cal "
lega
cy" f
iber
s and
eve
n "b
end
& c
urve
" typ
e fib
ers
due
to lo
wer
gla
ss d
iam
eter
and
con
sequ
ently
smal
ler s
tatic
ben
ding
stre
ss22
-
CLEERLINE NSF FIBER OPTIC CABLE
SSFTM Fiber Advantages
CLEERLINE SSFTM OPTICAL FIBER
SSFTM Installation Advantages
CLEERLINE TECHNOLOGY GROUP, LLC Date: 02/15/14 Rev. 1.48404 El Way Drive #2B, Missoula, MT 59808 USA & CAN: 866-469-2487 Fax 406.532.0060 | Int'l +1.406.541.9830 Fax +1.406.532.0060 Web: www.cleerlinefiber.com Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice
* SSFTM Fiber significantly improves the mechanical strength of the optical fiber, thismeasurement or fatigue resistance value for SSFTM is Nd = 30. Standard glass fibers and even bend or curve types typically fall within an Nd value of 18 to 20. This superior strength allows for up to 10,000 times the bend and up to 400 times the tensile pull force of typical glass fiber. As a result SSFTM is better suited for todays installations. Whether terminating in the field or using a Cleerline SSFTM patch cord, SSFTM fiber provides greater reliability for all connections.
* The durability of the integral polymeric coating minimizes costly repairs and interruptions,ensuring the smooth long-term operation of optical networks and limiting the long term liability of the products.
* Fatigue value is an essential property of any bend insensitive fiber, more important than theoptical properties. SSFTM fibers perform better with less attenuation loss under bend conditions than any other commercially available fiber cable.
* The ultra high mechanical strength of SSFTM fibers allow for minimized cable size constructionsaffording higher strand counts in smaller size diameter cables, for placement in conduits, etc., increasing the efficiency of the cable management and heat dissipation in the back panel areas of installations.
* SSFTM exclusive "Soft Peel" coating allows for fast and easy fiber termination with thetremendous advantages in technician safety during all phases of the termination process.
* Cleerline SSFTM offers a complete line of fibers for Enterprise Data Centers, Premises, FTTD, andFTTH applications.
* Superior durability and mechanical strength, SSFTM fibers having a Nd=30 value.* Unprecedented bend, up to 10,000 times over standard fiber allowing ease of
installation with higher operation reliability.* Long Life Time (high fatigue value of Nd=30, beyond ITU-T 10ppm @ 20 years)* High pulling force, tensile strength of up to 400x that of standard fiber.* SSFTM fibers reduce the weight of the fiber and resulting installations* SSFTM fibers reduce the diameter of the jacketing, more fibers in the same space.* SSFTM polymeric coated fibers are protected from environmental conditions.* Coated fibers are protected from nicks, scratches, and impacts that occur during
installation, termination, and handling, as a result SSFTMprovides superior service and reliability.
SSFTM Applications* Enterprise Data Centers* Datacom & Premises Applications* FTTH Depolyment and Vertical / Horizontal cabling* LAN, PON, Digital Home, Home Automation, Survielance, etc.* Point to Point Connections* All applications utilizing either Singlemode or Multimode fibers.
