CLEERLINE OPTICAL FIBER

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Kristopher Patterson
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2 CLEERLINE OPTICAL FIBER Cleerline fiber has redefined how optical cables can be installed and terminated. Cleerline fiber optics incorporate a patented polymeric coating that surrounds the glass fiber. Cleerline fibers are stonger, safer, and allow for faster terminations compared to all other glass fibers. Cleerline fiber is compatible with all common connector systems for standard 50/125 multimode and 9/125 single mode fibers and are available in today's most common cabling configurations for optical cables. Cleerline also offers a wide variety of optical patch cords that provide for superior fiber connections and greater reliablity in all applications. Cleerline Fiber Optics Cleerline fiber optic cabling has redefined how fiber can be installed and terminated elimnating many of the processes involved in the termination of fiber optic cable while adding strength and safety that is unmatched by any other optical fiber. Cleerline's coated fiber provides protection for bend longevity assured for 10,000X longer lift times and superior mechanical strength compared to all other commercially available glass fibers. This allows the installer to quickly terminate mechanical splice style connections and eliminates the imperfections or scarring of the glass caused by stripping when terminating either mechanical or epoxy style connectors. Cleerline supports all broadband applications and complies with the most stringent industry standards. Features & Benefits Cleerline coated fibers are available in NSF (non-stripfiber) and SSF (standard-strip-fiber) versions. Both reduce the time and precision required to terminate the optical fiber and provide a fiber optic cable that is stronger and safer than any other optical cable. Cleerlines's glass fiber is protected from the environment at all times as the glass is never exposed to the elements and is protected from nicks, scratches, and impacts that are common during any fiber optic installation. Cleerline fiber is designed for ease of use and safety due to incredible flexibility of the fiber at all times during the termination process. Incredible bend longevity assured for 10,000X longer lift times than normal or "bend & curve" glass fibers. Ultra Low Attenuation Loss on tight bend radius Cleerline NSF fibers incorporate an exclusive "Soft Peel" 250um jacket identifier that is easily removed Reduced tooling required for termination. Cleerline NSF 50/125 Multimode Fiber Soft Peel Identifier 250μm* Proprietary Polymer Coating Glass Cladding 100μm Glass Core 50μm Standard 50/125 Multimode Fiber Acrylate Buffer Coating 900μm Glass Cladding 125μm Glass Core 50μm Cleerline Multimode fiber has the same 50μm glass core and glass cladding as a typical 50/125 multimode fiber. Cleerline fiber's total diameter of the glass core plus the glass cladding and the Hybrid proprietary coating is equal to 125μm. Cleerline fiber's diameter matches that pf a standard stripped fiber diameter of the glass core plus the glass cladding = 125μm. *Cleerline SSF fibers incorporate a standard acrylate 250um buffer. Cleerline NSF 9/125 Singlemode Fiber Standard 9/125 Singlemode Fiber Soft Peel Identifier 250μm* Proprietary Polymer Coating Glass Cladding 100μm Glass Core 9μm Acrylate Buffer Coating 900μm Glass Cladding 125μm Glass Core 9μm Cleerline Singlemode fiber has the same 9μm glass core and glass cladding as a typical 9/125 singlemode fiber. Cleerline fiber's total diameter of the glass core plus the glass cladding and the Hybrid proprietary coating is equal to 125μm. Cleerline fiber's diameter matches the standard stripped fiber diameter diameter of of the the glass glass core core plus plus the the glass glass cladding cladding = 125um.! *Cleerline SSF fibers incorporate a standard acrylate 250um buffer. CLEERLINE TECHNOLOGY GROUP, LLC 8404 El Way Drive #2B, Missoula, MT Sales Fax Web - Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice 2

COMPONENT SPECIFICATIONS 9/125 Singlemode 3.0mm Jacketed Simplex Riser and Plenum Cables Type OFNR, CSA FT4, and Type OFNP, CSA FT6 Product Type G.657.A2, G657.B2, and G.652.

3 COMPONENT SPECIFICATIONS 9/125 Singlemode 3.0mm Jacketed Simplex Riser and Plenum Cables Type OFNR, CSA FT4, and Type OFNP, CSA FT6 Product Type G.657.A2, G657.B2, and G.652.D Cleerline NSF - Non Strip Fiber simplifies and improves the process of fiber optic termination. There have been many advancements in the technology of fiber optic connectors over over recent decades. Cleerline fiber with its proprietary 3M polymer coating results in a fiber that is stronger, safer, and faster to terminate than all other fiber cables. Cleerline NSF fiber is compatible with all common connector systems on the market for standard 9/125 Singlemode fibers. Simplex Riser / Plenum Typical Cross Sections Features And Benefits: * Simplified termination process designed for ease of use * Integral coating eliminates stripping, provides glass protection * Bend longetivity 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 * High mechanical strength and superior fatigue & durablility * Ultra low Attenuation loss on tight bend radius * Exclusive 250um Soft peel jacket identifier CONSTRUCTION FIBER Number of Fibers; Simplex = 1 9/125 Singlemode Dry w/super-absorbant polymer 250um "Soft Peel" coating (1 = Blue) Color Coding per TIA/EIA 568C JACKET PVDF UV, moisture resistant Riser Rated PVC / Plenum Rated PVC 3.0mm unit diameter Yellow jacket - Singlemode fiber Sequential footage markings* Kevlar PHYSICAL DATA 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 = 3.0mm Cable Package = 1000ft Pull Box or Cut to customer request, spooled Canadian Rating = FT4/Riser FT6/Plenum APPLICATIONS Interbuilding and intrabuilding voice or data communication backbonesrequiring 3.0mm jacket diameter. Install in ducts, underground conduits or aerial/lashed ETL Listed OFNP for installation in plenum airways and and general horizontal applications when installed inaccordance with the NEC article (a) and (a). ETL listed Type OFNP for installation in ducts, plenumsand other spaces used as environmental air returns when installed in accordance with NEC article (a) and (a) ENVIRONMENTAL CHARACTERISTICS Temperature 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 days Damp Heat Dependence at 1310 nm and 1550 nm 0.05 (db/km) Induced Attenuation at 85, 85%R.H., 30 days Dry Heat Dependence at 850 nm and 1300 nm 0.05 (db/km) Induced Attenuation at 85,, 30 days PART NUMBER PART PART FIBER NOMINAL CABLE TOTAL NUMBER DECRIPTION COUNT DIAMETER WEIGHT WEIGHT S19125SMOSR Simplex Riser 1 Fiber/s 3.0mm 6.61 lbs/kft 7.71 lbs S19125SMOSP Simplex Plenum 1 Fiber/s 3.0mm 6.61 lbs/kft 7.71 lbs NSF complies or exceeds the ITU-T recommendations G.657 A2, G657 B2 and G.652 D, the IEC International Standard type B.1.3 and B.6.A&B Optical Fiber OPTICAL CHARACTERISTICS* Attenuation Coefficient 1310 nm 0.35 (db/km) 1550 nm 0.21 (db/km) Mode Field Diameter 1310 nm 8.6± 0.4um 1550 nm 9.7± 0.5um Cable Cut-off Wavelength 1260nm Zero Dispersion Wavelength 1310nm-1324nm Zero Dispersion Slope 0.092ps/ (nm 2.km) BACKSCATTER CHARACTERISTICS Attenuation Directional Uniformity 0.03 (db/km) Attenuation Uniformity 0.05 (db) Group Index of Refraction 1310 nm nm PHYSICAL CHARACTERISTICS 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 245 ± 10 (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) COMPLIANCE ETL Listed OFNR C(UL)US - CSA FT4 and ONFP C(UL)US- CSA FT6 RoHS Compliant Directive 2002/95/EC *Ensured via mini EMBC per TIA/EIA A and ICEA S CLEERLINE TECHNOLOGY GROUP, LLC 8404 El Way Drive #2B, Missoula, MT Sales Fax Web - Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice 3

There have been many advancements in the technology of fiber optic connectors over over recent decades.

4 COMPONENT SPECIFICATIONS 50/125 Multimode 3.5mm Jacketed 12 Strand - Distribution Plenum Cable Type OFNP, CSA FT6 Cleerline NSF - Non Strip Fiber simplifies and improves the process of fiber optic termination. There have been many advancements in the technology of fiber optic connectors over over recent decades. Cleerline NSF fiber now adds to this equation increasing the speed, safety, efficiency, all while reducing the tooling involved in terminating fiber optic cables. Cleerline NSF fiber is compatible with all common connector systems on the market for standard 50/125 multimode fibers. 12 Strand Plenum Typical Cross Sections Features And Benefits: * Simplified termination process designed for ease of use * Integral coating eliminates stripping, provides glass protection * Bend longetivity 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 * High mechanical strength and superior fatigue & durablility * Ultra low Attenuation loss on tight bend radius * Exclusive 250um Soft peel jacket identifier CONSTRUCTION FIBER Number of Fibers = 12 / Type = 50/125 Multimode OM3 250um "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 JACKET PVDF UV, moisture resistant / Plenum Rated PVC 3.5mm unit diameter Aqua jacket - Multimode fiber Sequential footage markings* Kevlar PHYSICAL DATA 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 3.5mm) Cable Outside Diameter, Nominal = 3.5mm Cable Package = 1000ft Spool or Cut to customer request, spooled Canadian Rating = FT6/Plenum APPLICATIONS Intra building voice or data commumication backbones, Light weight ultra flexible design simplifies installation. Fiber- to- the-desk (FTTD). Fiber-to-the-Home (FTTH) ETL listed Type OFNP for installation in ducts, plenums and other spaces used as environmental air returns when installed in accordance with NEC article (a) and (a) ETL Listed Type OFNP, CSA FT6, ANSI/TIA/EIA 568 B.3 ENVIRONMENTAL CHARACTERISTICS 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 days Damp Heat Dependence at 850 nm and 1300 nm 0.5 (db/km) Induced Attenuation at 85, 85%R.H., 30 days Dry Heat Dependence at 850 nm and 1300 nm 0.5 (db/km) Induced Attenuation at 85, 30 days PART NUMBER PART PART FIBER NOMINAL CABLE TOTAL NUMBER DECRIPTION COUNT DIAMETER WEIGHT WEIGHT PLENUM RATED Distribution 5 kg/kft 5.5 kg 12D50125MOM3P 12 Strand Plenum 12 Fiber/s 3.5mm lbs/kft lb NSF conforms to the requirement of IEC A1a, ISO/IEC & ITU-T G nm Laser-Optomized 50 μm-core multimode fiber for 10 Gb/s & above applications OPTICAL CHARACTERISTICS* Attenuation Coefficient 850 nm 3.0 (db/km) 1300 nm 1.0 (db/km) Numerical Aperture ± Overfilled Modal Bandwidth 850 nm 1500 (MHz km) 1300 nm 500 (MHz km) High Performance EMB 850nm 2000 (MHz km) BACKSCATTER CHARACTERISTICS Attenuation Directional Uniformity 0.05 (db/km) Attenuation Uniformity 0.05 (db) Group Index of Refraction 850 nm nm PHYSICAL CHARACTERISTICS Core Diameter 50.0 ± 2.5(μm) Core Non-circularity 6 (%) Core / Hybrid Cladding Concentricity Error 3.0 (μm) Hybrid Cladding Diameter 125 ± 2 (μm) Hybrid Cladding Non-Circularity Error 3.0 (%) Soft Peel Jacket Identifier Diameter 245 ± 10 (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 (Km) COMPLIANCE ETL Listed ONFP C(UL)US - CSA FT6 RoHS Compliant Directive 2002/95/EC *Ensured via minembc.per TIA/EIA A and IEC , for high performance laser based systems. CLEERLINE TECHNOLOGY GROUP, LLC 8404 El Way Drive #2B, Missoula, MT Sales Fax Web - Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice 4

5 Fiber Structure& Cleerline Fiber Normal Fiber 125um Hybrid Cladding& 125um Glass Cladding& 5

6 Cleerline Multimode Fiber Performance Specifications Compared to Industry Standards Cleerline ode o! "!#$%&'&! ( )"* +,, -$',,,.,, -$',,, &/,, -$',,,/&,,0 / 1 2! ". 0 /2, 5/ 6 0 /2 / / # # Cleerlinetod ' % - $ % $ % & & & '()& * & * & &0 %,.04 2 / / '()& ( +! ",!-. ( +! ",!-. / / / / / / / / / / 6

7 Cleerline Multimode Fiber Performance Specifications Compared to Industry Standards Cleerline od o! "!#$%&'&! ( )"* +,, -$',,,.,, -$',,, &/,, -$',,,/&, / ( +! ",!-. / / / / / 6& 0:2 & 0:2 & 04 2 < ;, 0 / ) - )5 + 9 : < *!%!!! ) - 1! )!2!2!2 5)6 7-8( 2 / 1 - ) )"!( / ; / / / / / 6& ;+ 2+"! ;+ ;+ ;+ ;+ ; < ) 4 <

8 Cleerline Multimode Fiber ITU-T G Major Specifications Unit ITU-T G Cleerline-MM Compliance Statement Core µm Cladding µm Coating µm Attenuation 50 +/ / / / / /- 10 Comply Hybrid Cladding with Permanent Polymer Comply db/km < 3.5 < 3.0 Comply BW@850nm MHz.km > 500 > 500/1500/3500 Numerical Aperture (NA) 0.2 +/ / Comply (IEC OM2/OM3/OM4) Comply Stripping Force g < 100 Soft Peel Proof Test kpsi Comply Fatigue n-value (n d ) (IEC ) > 18 > 30 High Mechanical Strength for Bending Longevity 8

9 Cleerline Multimode Fiber Macro-bending Loss Bending loss (db/turn) Cleerline-MMF (850nm) Normal-MMF (850nm) Bending Radius (mm) In Macro-bending loss tests Cleerline fiber performance exceeds that of typical legacy fibers and bend & curve type fibers. The Depressed (or Grooved) Index Profile. The bending loss performance is superior to G specifications. 9

10 Cleerline Singlemode Fiber Performance Specifications Compared To Industry Standards Parameter Cleerline-SMF Test Method Industry Standard ITU G.652.D Industry Standard ITU G.657.A1 Industry Standard ITU G.657.A2 Industry Standard ITU G.657.B2 Industry Standard ITU G.657.B3 Attenuation(dB/km) FOTP nm IEC (Cabled) 0.4 (Cabled) 0.4 (Cabled) 0.5 (Cabled) 0.5 (Cabled) 1385 nm 0.4 (Cabled) 0.4 (Cabled) 0.4 (Cabled) 1550 nm 0.3 (Cabled) 0.3 (Cabled) 0.3 (Cabled) 0.3 (Cabled) 0.3 (Cabled) nm 0.4 (Cabled) 0.4 (Cabled) Mode Field Diameter FOTP nm 8.6 ± 0.4 (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) ± nm 9.7 ± 0.5 Cable Cut-Off Wavelength 1260 FOTP Zero Dispersion Wavelength 1300 ~ 1324 FOTP ~ ~ ~ Zero Dispersion Slope FOTP Dispersion Coefficient FOTP nm nm Attenuation Directional Uniformity Point Discontiunity (db) FOTP 78 Turns R (mm) nm db FOTP IEC Attenuation with Bending (db) Cladding Diameter (μm) FOTP ± ± ± ± ± 0.7 Cladding Non-Circularity (%) IEC Core-Clad Concentricity (μm) Calibrated Winder Length (km) 2.2~25.2 IEC Environmental/ Attenuation (db/km) 1310 and 1550 nm Temperature Dependence ( ) ± FOTP 3 IEC FOTP 67 IEC FOTP 74 IEC Dry Heat Soak (85 ± 2 ) Water Immersion (23 ± 2 ) Overall Coating Diameter (μm) FOTP Coating-Cladding Concentricity (μm) IEC FOTP 31 Minimum Strength (by Proof Test) 245 ± Gpa 0.69 Gpa 0.69 Gpa 0.69 Gpa IEC Coating Strip Force (N) Peak < 1.0 FOTP Average < 1.0 IEC Gpa 0.69 Gpa

11 Cleerline Singlemode Fiber ITU-T G.657 A&B Major Specifications Unit µm Cladding µm ITU-T G. 657A&B 8.6 +/ /- 1 Cleerline- SMF 8.6 +/ /- 1 Compliance Statement Comply Hybrid Cladding with Permanent Polymer Coating µm 245 +/ /- 10 Comply Attenuation Loss@1550nm db/km < 0.30 < 0.21 Comply Cable Cutoff Wavelength nm < 1260 < 1260 Comply Zero Dispersion Wavelength nm 1300~ ~1324 Comply Stripping Force g < 100 Soft Peel Proof Test kpsi Comply Fatigue n-value (n d ) > 18 > 30 High Mechanical Strength for Bending Longevity 11

12 Cleerline Singlemode Fiber Macro-bending Loss Cleerline-SMF (1550nm) Normal-SMF (1550nm) Bending loss (db/turn) Bending Radius (mm) In Macro-bending loss tests Cleerline fiber performance exceeds that of typical legacy fibers and bend & curve type fibers. The Depressed (or Grooved) Index Profile. The bending loss performance is superior to G.657 A&B specifications. 12

13 Cleerline Fiber Optics High Mechanical Strength Bending Longevity Fatigue Value Measurement Method (IEC ) Cleerline fibers allow tighter bend radius (R15 fiber compatible) and high mechanical strength allows for pull force tensions that exceed all commericially available fibers, even "bend and curve" types. This proven long lifetime fiber characteristic makes Cleerline fiber a superior product in both performance and reliability. 13

Maximum Turns of Bending (ITU-T G.657 Appendix I, failure rate @ 10 ppm (0.

14 Maximum Turns of Bending (ITU-T G.657 Appendix I, failure 10 ppm (0.001%) in 20 years) Cleerline fiber exceeds all other fibers in bend with n=30 value Maximum storage length for a bent fiber and different values of the fatigue parameter "n" (Value of n=18 is the minimum value as stated in the Int. Standard IEC and in Telcordia Generic Requirements GR-20-CORE) 14

15 Tensile Strength Test Procedure The fiber is tightly fixed between two translation stages. Then one stage is moved to elongate fiber. 15

16 Tensile Strength Test Legacy Competitor Cleerline Fiber Elongation ratio, L/L (%) Cleerline fiber exceeds all other fibers in tensile strength allowing for increased pull force of over 3 to 4 times that of standard fibers during installation. 16 (db)

The other one is passed through two 3mm rods and equipped with 40g

17 Repeated Bending Tes t Equipment Scheme One fiber end is fixed to the cylinder. The other one is passed through two 3mm rods and equipped with 40g ballast. Then motorized engine rotates 180 degress back and forth to bend the fiber in different directions. Cylinder to fix fiber 17

After removing the acrylate layer there's some marking on the coated layer.

18 Cleerline Fiber Repeat Bending Test After 200 times of repeat bending procedure there is no measurable increase in signal loss. Acrylate layer cracks are found with microscope. After removing the acrylate layer there's some marking on the coated layer. The breaking force was found to be the same as the initial test. After bend test, the strength of fiber is unchanged. 10X 10X 18

19 Bending (D=3mm) in Hot Water (90 C) Nd : Normal Fibers Nd : Cleerline Fibers Time to Failure (sec) Cleerline fiber having an n=30 value exceeds typical fibers including "bend & curve" type fibers in bend performance by over 10,000x for greater reliability compared to standard fiber. 19 Failure Probability (%)

20 Cable Lifetime Estimates Both bending and tension force should be considered to accurately determine the long term mechanical reliability of the optical fiber. Fiber lifetime estimate- IEC TR The additional tension force calculation- Dave Mazzarese et al., Proc 57th IWCS (2008) The following test results prove that Cleerline fiber has superior mechanical and bending properties in all environments, even under rugged conditions. Cleerline fiber can withstand bend and pull tensions that cause standard fibers to fail, providing greater reliability and performance than any other commercially available fiber. 20

21 The impact of n on cable lifetime estimation (OD=3mm, cladding=125um, bending + 145N tension) cable jacket is a high E material (6.5GPa)&& The graphs demonstrate the importance of fatigue value (n) for lifetime estimation. Cleerline fiber (n=30) performs better under bend and pull conditions than all standard fibers including "bend & curve" types for extended lifetime, performance, and reliability. 21

22 Different fibers put in 3mm OD cable lifetime estimation (bending and 145N additional tension) cable jacket is a high E material (6.5GPa)&& - All cables have OD=3mm and high E value for jacket material - It is shown that fibers with higher n values provide better performance/extended lifetime - Cleerline performance exceeds typical "legacy" fibers and even "bend & curve" type fibers due to lower glass diameter and consequently smaller static bending stress 22

23 CLEERLINE NSF FIBER OPTIC CABLE CLEERLINE OPTICAL FIBER Cleerline Fiber Advantages Cleerline Fiber significantly improves the mechanical strength of the optical fiber. This superior strength allows for strenuous installation conditions and installer and end user abuse without resulting failures both during and after the installation. Whether terminating in the field or using a Cleerline patch cord Cleerline fiber provides greater reliablity for all connections. The durability of the 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. Low fatigue value is an essential property for any bend insensitive fiber, more important than the optical properties. Cleerline fiber performs better with less attenuation loss under bend than any other commercially available fiber cable. The high mechanical strength of Cleerline coated fibers allow for minimized cable size and resulting higher strand counts in conduits, etc., increasing the efficiency of cable managment and heat dissipation in the back panel areas of installations. Cleerline's exclusive "Soft Peel" coating allow for fast and easy fiber installation with tremendous advantages in technician safety during the termination process. Cleerline provides a complete line of fibers for Enterprise Data Centers, Premises, Cleerline Installation Advantages High fiber counts in any jacket size; up to 12 fibers in a 3.5mm OD jacket Superior bend without failure Long Life Time (high fatigue value fiber Nd > 30, beyond ITU-T 20 years) High pulling force (> 100kgf) Cleerline fibers reduce the weight of fiber and the resulting installation Cleerline coated fibers are protected from environmental conditions Coated fibers are protected from nicks, scratches, and impacts that occur during termination and handling. Long Life Time (high fatigue value fiber Nd > 30, beyond ITU-T 20 years) High pulling force (> 100kgf) Reduces weight of fiber and the resulting installation Cleerline Applications Enterprise Data Centers Datacom & Premisies Applications FTTH Deployment and Vertical / Horizontal cabling LAN, PON, Digital Home, Home Automation, Surveillance, etc. Point to Point Connections All applications utilizing either Singlemode or Multimode fibers CLEERLINE TECHNOLOGY GROUP, LLC 8404 El Way Drive #2B, Missoula, MT Sales Fax Web - Copyright 2012 Cleerline Technology Group, LLC., All rights reserved. Subject to change without notice 23