SPECIALTY FIBER OPTIC CABLE. Downhole Subsea Sensing Equipment

SPECIALTY FIBER OPTIC CABLE Downhole Subsea Sensing Equipment

Specialty Fiber Optic Cable Table of Contents Downhole Traditional Downhole Cable...2 Hybrid Downhole Cable...3 StrataJac Downhole Cable Encapsulation...4 Low Profile Downhole Cable...5 High Temperature Downhole Cable...6 MiniBend Fiber Optic Component...7 Verrillon Harsh Environment Fibers...8 Verrillon VHM5000 Series Fibers...10 Verrillon VHM2000 Series Fibers...13 Verrillon VHS500 Series Fibers...16 Verrillon VHS100 Series Fibers...18 Verrillon VPM400 Series Fibers...21 Subsea Fiber Optic Component for Umbilical Cable...22 Specialty Fiber Optic Plastic Buffer Tubes...23 Harsh Environment Tactical Tight Buffered Cable...24 Tactical Breakout Cable...25 Bronze Braid Armored Tight Buffered Cable...26 Bronze Braid Armored Breakout Cable...27 Aluminum Interlock Loose Tube Cable...28 Equipment Fujikura 21S Fusion Splicer...34 Fujikura 70S Fusion Splicer...36 FSM-100M and FSM-100P Fusion Splicers...38 FSR-02 Fiber Recoater...40 CT-30 Fiber Cleaver...41 CT-100 Fiber Cleaver...42 PowerCleave...43 USC-03 Ultrasonic Cleaner...44 AFL PowerStrip...45 PCS-100 Polyimide Coating Stripper...46 Splice Protection Sleeves...47 LG-55 Sealed Fiber Optic Splice Closure...49 LightLink 320 Optical Splicing and Distribution Enclosure...50 LightLink 500 Optical Splicing and Distribution Enclosure...51 LightLink Optical Entrance Enclosures...52 LightLink Fiber Optic Splice Trays...55 M310 Enterprise OTDR...58 M710 Multifunction OTDR...64 Sensing Distributed Temperature Sensing LSZH Fiber Optic Cable...29 High Strength Steel Wire (HSSW) Armored Fiber Optic Cable...30 Armored Stainless Steel Tubes...31 Stainless Steel Fiber Optic Tubes...32 Fiber Rod...33 www.aflglobal.com or (800)235-3423 1 7.21.2015

Specialty Fiber Optic Cable Traditional Downhole Cable Traditional Downhole cable from AFL is designed to perform in the well and withstand elevated temperatures, high pressure and corrosive environments. The cable is customized to the customer s specifications in order to maximize performance at the best possible price. AFL s Traditional Downhole cable is targeted to < 150 C offshore and land-based wells where ruggedness is essential. Customized to customer specifications Up to 150 C Up to 20,000 psi operating pressure Loose tube design Hydrogen scavenging gel Cable Components Outer Stainless Steel Tube Polyprolylene Inner Jacket Inner Stainless Steel Tube Fiber Hydrogen Scavenging Gel Outer Encapsulation Options and Inner Stainless Steel Tube Diameter 0.125" Outer Tube Diameter 0.250" Outer Tube Wall Thickness 0.028", 0.035", 0.049" Outer Tube Material Stainless Steel 316L, Incoloy 825 Fiber Coating Carbon Polyimide, Silicone/PFA, Pure Silica Core and others Gel Types No gel, standard gel, hydrogen scavenging gel Diameter 11 mm x 11 mm square, 11 mm round Polymer Options Polypropylene, PVDF, Nylon, Santoprene Operating Temperature -40 C to 150 C Operating Pressure Limit 0 to 20,000 psi www.aflglobal.com or (800)235-3423 2 2008, AFL, all rights reserved. PP-1-00084, Revision 2, 9.16.11

Specialty Fiber Optic Cable Hybrid Downhole Cable Hybrid Downhole cable from AFL combines copper conductors and optical fibers within the same cable structure for simultaneous deployment. This construction is intended to withstand elevated temperatures, high pressure and corrosive environments. The cable may be customized to the customer s specifications in order to balance performance capability with cost considerations. This design is targeted toward well applications than have operating temperatures 150 C. Up to 150 C Incorporates insulated 18AWG copper conductors Loose tube design for optical fibers Hydrogen scavenging gel Customized to customer specifications Cable Components SS Tube, Optical Fibers and Gel 2x18AWG Insulated Conductors Wrapping Tape ¼"x 0.035" WT Outer Tube Outer Encapsulation Options and Inner Stainless Steel Tube Diameter 0.095" Copper Conductors 2 x 18 AWG Outer Tube Diameter 0.250" Outer Tube Wall Thickness 0.035" Outer Tube Material Stainless Steel 316L, Incoloy 825 Fiber Types Single-mode, Multimode Gel Types Hydrogen scavenging gel Encapsulation Options None, 11mm x 11mm Square, 11mm Round Polymer Types Polypropylene, PVDF, Nylon, Santoprene Operating Temperature -40 C to 150 C Operating Pressure Limit 0 to 20,000 psi www.aflglobal.com or (800)235-3423 3 2015, AFL, all rights reserved. PP-1-00125, Revision 0, 7.10.15

Specialty Fiber Optic Cable Cables installed in oil and gas wells are exposed to severe mechanical and chemical conditions. Cable damage during run-in and subsequent completion processes such as hydraulic fracturing can lead to premature cable failures. StrataJac is the first cable encapsulation designed exclusively to protect downhole cables by resisting the extreme impact energies and abrasion encountered during run-in, and high pressure, high velocity frac jobs. Abrasion testing has demonstrated a three-fold increase in the amount of time required to breach StrataJac when compared to other commercially available encapsulations. Furthermore, cable impact strength is significantly enhanced when encapsulated with StrataJac. These combined properties make StrataJac ideal for preserving and extending the life of fiber optic cables, TEC cables, and chemical injection lines used in critical downhole applications. Highly Abrasion and Impact Resistant Suitable for use in severe chemical environments containing H 2 S, CO 2, Methane, Oil, Diesel, Gasoline, Toluene, and other organic solvents Wide operating temperature range from -40 C to 150 C Easy to strip using commercially available encapsulation strippers. Physical Properties DIAMETER (MM) WEIGHT (KG/KM) PROFILE 11 76.7 Round 12.7 115 Round www.aflglobal.com or (800)235-3423 4 2013, AFL, all rights reserved. PP-1-00050, Revision 0, 8.28.13

Specialty Fiber Optic Cable Low Profile Downhole Cable AFL s unique offering for shallow, land-based wells provides the best combination of ruggedness and size for the price. AFL will customize the design to meet the customer s needs in order to maximise their return on investment. Cable Components Outer Tube Inner Tube Fiber Hydrogen Scavenging Gel Small diameter Low weight Redundant hermetic seal Encapsulation options Lower cost Patent pending Inside Tube Options and DOUBLE TUBE TRIPLE TUBE Outer Tube Diameter 0.125 0.125 Tube Wall Thickness 0.016 0.024 Tube Material Stainless Steel 316L, Incoloy 825 Fiber coating Carbon Polyimide, Silicone/PFA, Pure Silica Core and others Gel types No gel, high temperature gel, hydrogen scavenging gel Polymer options Polypropylene, PVDF, Nylon, Santoprene STAINLESS STEEL 316L OPTION Weight 21 lbs / 1,000 ft 28 lbs / 1,000 ft Tensile 760 lbs 1,060 lbs Collapse pressure 30,000 psi 44,000 psi Bend radius (dynamic) 12.6" 12.6" INCOLOY 825 OPTION Weight 22 lbs / 1,000 ft 28 lbs / 1,000 ft Tensile 814 lbs 1,134 lbs Collapse pressure 21,000 psi 32,000 psi Bend radius (dynamic) 12.6" 12.6" ENCAPSULATION OPTION Diameter 1/4" Weight Santoprene 15 lbs / 1,000 ft Polypropylene 14 lbs / 1,000 ft PVDF 28 lbs / 1,000 ft Nylon 16 lbs / 1,000 ft www.aflglobal.com or (800)235-3423 5 2008, AFL, all rights reserved. PP-1-00078, Revision 3, 3.12.15

Specialty Fiber Optic Cable High Temperature Downhole Cable AFL s unique solution for applications > 150 C is a three-layer design with the secondary layer being 0.040" thick aluminum. Research indicates hydrogen permeability through aluminum is 100 times less than stainless steel resulting in an extended life for the optical fiber. The all metal design eliminates concerns with polymers at elevated temperatures and provides for stable, predictable performance. Hydrogen resistant All metal construction Tight tolerances 300 C temperatures and beyond Loose tube design Patent pending Cable Components Options and Inner Stainless Steel Tube Diameter 0.094" Outer Tube Diameter 0.250" Outer Tube Wall Thickness 0.028" Outer Tube Material Stainless Steel 316L, Incoloy 825 Weight Stainless Steel 316L Incoloy 825 142 kg/km 144 kg/km Fiber Types Single-mode, Multimode, Pure Silica Core Single-mode Fiber Coating Polyimide, Carbon Polyimide, Silicone/PFA, Gold, Aluminum, Copper Gel Types No gel, high temperature gel, hydrogen scavenging gel Polymer Options Polypropylene, PVDF, Nylon, Santoprene Operating Temperature -40 C to 300 C, higher upon request Operating Pressure Limit 0 to 20,000 psi www.aflglobal.com or (800)235-3423 6 2008-2011, AFL, all rights reserved. PP-1-00077, Revision 2, 9.9.11

Specialty Fiber Optic Cable MiniBend Fiber Optic Component For Downhole Double-ended Systems and Optical Connectivity The MiniBend miniature fiber optic component employs a revolutionary technology that will change the way you plan and engineer the fiber management in your oil or gas well. This patented technology allows for a single strand of multimode or single-mode fiber to be formed at a 180 bend with a 1 mm fiber bend diameter, saving valuable real estate. Elegant, low profile solution for achieving downhole fiber optic double-ended system Provides low-loss sub-millimeter bends for miniaturizing fiber components and circuits No stress with the small bend radii Bi-directional Mechanically and environmentally robust Small and protective package Applications Downhole fiber optic turnaround Fiber management systems Modulators, splitters, circulators, connectors and polarizers Circuit boards and back planes Compact test instrumentation and sensors Dimensions Item Number DNS-1574 DNS-1575 DNS-1885 DNS-1890 Fiber Coating Type 50 µm multimode carbon mid-temperature acrylate 50 µm multimode carbon/polyimide single-mode carbon mid-temperature acrylate single-mode carbon/polyimide Operation Wavelength Range 900 to 1340 nm, 1430 to 1600 nm 1280 to 1340 nm, 1430 to 1600 nm Insertion Loss < 0.2 db at 1310 nm of wavelength at room temperature < 0.3 db at 1550 nm of wavelength at room temperature Operating Temperature 0 to 150 C 0 to 200 C 0 to 150 C 0 to 200 C Storage Temperature -60 to 85 C Body Size Outside Diameter = 2.2 mm +/-0.1, Length = 15 mm +/-0.3 Fiber Tail Length > 0.5 m Straight Pull 500 g www.aflglobal.com or (800)235-3423 7 2004, AFL, all rights reserved. PP-1-00079, Revision 2, 9.16.11

Specialty Fiber Optic Cable Harsh Environment Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. Starting with fiber design, we offer both single-mode and multimode optical fibers having coatings and coating combinations, including Polyimide, Silicone-PFA, Silicone-MTA, MTA and Carbon, which can be applied in conjunction with any of these outer coatings. Typically, these fibers are used in downhole data logging, distributed sensing and imaging applications. Verrillon coated fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber. In addition, we provide one-stop shopping for customers requiring multi-count cabled hermetic fibers, if required, in metal jacketing tubes. Consistent with our founding principles, we specialize in application optimized fibers, providing our customers unmatched flexibility in the their system design and performance. Wide range of protective coatings available, depending on application requirements Suitable for use in high pressure, high temperature and corrosive environments Carbon fiber provides exceptional resistance to H2 and moisture ingression Predicted lifetime for hermetic fiber under typical operating conditions that exceed most requirements Extensive test and measurement data for optical fiber performance under "harsh conditions" provided with fiber www.aflglobal.com or (800)235-3423 8 2011, AFL, all rights reserved. PP-6-00007, Revision 0, 9.15.11

Specialty Fiber Optic Cable Harsh Environment Fibers Verrillon offers the broadest range of specialty fibers for oil and gas sensors of all types: Distributed Temperature Sensors DTS Distributed Pressure Sensors DPS Distributed Strain Sensors DSS Distributed Acoustic Sensors DAS Ocean Bottom Seismic - OBS Verrillon Optical Fiber Selection Matrix MAXIMUM TEMPERATURE CONDITIONS SINGLE-MODE MULTIMODE 85ºC Hydrogen Present VHS100-CA VHM2000-CA 150ºC No Hydrogen VHS100-MTDA VHS100-SMTA VHM2000-MTDA VHM2000-SMTA Hydrogen Present VHS100-CMTDA VHS100-CSMTA VHM2000-CMTDA VHM2000-CSMTA 200ºC All Conditions VHS500-CSPFA VHS500-P VHS500-CP VHM3000-CSPFA VHM3000-P VHM3000-CP 300ºC All Conditions VHS500-P VHS500-CP VHM3000-P VHM5000-P VHM3000-CP VHM5000-CP www.aflglobal.com or (800)235-3423 9 2011, AFL, all rights reserved. PP-6-00007, Revision 0, 9.15.11

Specialty Optical Fiber VHM5000 Series Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. The VHM5000 Series is a multimode graded-index optical fiber available with coatings and coating combinations, including Polyimide, high temperature acrylates, Silicone-PFA and hermetic Carbon. Typically, these fibers are used in down-hole data logging, distributed sensing and imaging applications where the temperature and hydrogen partial pressures are extreme. Verrillon's carbon-coated optical fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber. In addition, we provide one-stop shopping for customers requiring multi-count cabled hermetic fibers, if required, in metal jacketing tubes. Consistent with our founding principles, we specialize in application optimized fibers, providing our customers unmatched flexibility in the their system design and performance. Best glass resistance to hydrogen at high temperatures and pressures in the entire industry Wide range of protective coatings available, depending on application requirements Suitable for use in high pressure, high temperature and corrosive environments Carbon coating provides exceptional resistance to H 2 and moisture ingression Predicted lifetime for hermetic fiber under typical operating conditions exceeds most requirements Extensive test and measurement data for optical fiber performance under "harsh conditions" provided with fiber PART NO. MMF-50-4-P-125-4 Description 50/125/155 μm Polyimide coated, Graded Index, Multimode Fiber Material Coating Polyimide Geometry Core Diameter (μm) 50 ± 2.5 Clad Diameter (μm) 125 ± 2 Core Non-Circularity (%) < 5 Clad Non-Circularity (%) < 1 Core/Clad Offset (μm) < 1.5 Coating Diameter (μm) 155 ± 5 Polyimide Coating Concentricity 1 > 80 Optical NA (nominal) 0.20 Attenuation 2 @ 850 nm (db/km) @ 1300 nm (db/km) < 3.0 < 1.2 Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) > 300 > 300 Mechanical Proof Test (kpsi) 100 Operating Temperature ( C) -65 to +300 1 Measured as (Min. Wall/Max. Wall) x 100 2 Measured on loose coil www.aflglobal.com or (800)789-0540, (508) 890-7100 10 2014, AFL, all rights reserved. PP-6-00004, Revision 2, 4.9.15

Specialty Optical Fiber VHM5000 Series Fibers PART NO. MMF-50-4-CP-125-2 MMF-50-4-CP-125-3 MMF-50-4-CP-125-4 Description 50/125/155 μm Carbon/Polyimide 50/125/155 μm Carbon/Polyimide 50/125/155 μm Carbon/Polyimide coated, Graded Index Multimode Fiber, Graded Index, Multimode Fiber, coated, Graded Index Multimode Fiber 200 kpsi 150 kpsi Material Hermetic Carbon Carbon Carbon Coating Polyimide Polyimide Polyimide Geometry Core Diameter (μm) 50 ± 2.5 50 ± 2.5 50 ± 2.5 Clad Diameter (μm) 125 ± 2 125 ± 2 125 ± 2 Core Non-Circularity (%) < 5 < 5 < 5 Clad Non-Circularity (%) < 1 < 1 < 1 Core/Clad Offset (μm) < 1.5 < 1.5 < 1.5 Coating Diameter (μm) 155 ± 5 155 ± 5 155 ± 5 Polyimide Coating Concentricity 1 > 80 > 80 > 80 Optical NA (nominal) 0.20 0.20 0.20 Attenuation 2 @ 850 nm (db/km) @ 1300 nm (db/km) Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) < 3.0 < 1.2 > 300 > 300 < 3.0 < 1.2 > 300 > 300 < 3.0 < 1.2 > 300 > 300 Mechanical Proof Test (kpsi) 200 150 100 Operating Temperature ( C) -65 to +300-65 to +300-65 to +300 1 Measured as (Min. Wall/Max. Wall) x 100 2 Measured on loose coil www.aflglobal.com or (800)789-0540, (508) 890-7100 11 2014, AFL, all rights reserved. PP-6-00004, Revision 2, 4.9.15

Specialty Optical Fiber VHM5000 Series Fibers PART NO. MMF-50-4-CSPFA-125-1 MMF-50-4-CSPFA-125-5 MMF-50-4-CSPFA-125-6 MMF-50-4-CSPFA-125-7 Description 50/125/750 μm Carbon/ Silicone/PFA, Graded Index, Multimode Fiber, 150 kpsi 50/125/400 μm Carbon/ Silicone/PFA coated, Graded Index, Multimode Fiber 50/125/250 μm Carbon/ Silicone/PFA coated, Graded Index, Multimode Fiber 50/125/250 μm Carbon/ Silicone/PFA coated, Graded Index, Multimode Fiber, 150 kpsi Material Hermetic Carbon Carbon Carbon Carbon Primary Coating Silicone Silicone Silicone Silicone Secondary Coating PFA PFA PFA PFA Geometry Core Diameter (μm) 50 ± 2.5 50 ± 2.5 50 ± 2.5 50 ± 2.5 Clad Diameter (μm) 125 ± 2 125 ± 2 125 ± 2 125 ± 2 Core Non-Circularity (%) 5 5 5 5 Clad Non-Circularity (%) 1 1 1 1 Core/Clad Offset (μm) 1.5 1.5 1.5 1.5 Combined Coating Diameter (μm) 750 ± 25 400 ± 50 250 ± 50 250 ± 50 Optical NA (nominal) 0.20 0.20 0.20 0.20 Attenuation 1 @ 850 nm (db/km) @ 1300 nm (db/km) Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) Mechanical < 3.0 < 1.0 > 300 > 300 < 3.0 < 1.2 > 300 > 300 Proof Test (kpsi) > 150 > 100 > 100 > 150 Operating Temperature ( C) -40 to +200-40 to +200-40 to +200-40 to +200 1 Measured on loose coil < 3.0 < 1.2 > 300 > 300 < 3.0 < 1.2 > 300 > 300 www.aflglobal.com or (800)789-0540, (508) 890-7100 12 2014, AFL, all rights reserved. PP-6-00004, Revision 2, 4.9.15

Specialty Optical Fiber VHM2000 Series Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. Starting with fiber design, we offer both single-mode and multimode optical fibers having coatings and coating combinations, including Polyimide, Silicone-PFA, Silicone-MTA, MTA and Carbon, which can be applied in conjunction with any of these outer coatings. Typically, these fibers are used in downhole data logging, distributed sensing and imaging applications. Verrillon's carbon-coated optical fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber. In addition, we provide one-stop shopping for customers requiring multi-count cabled hermetic fibers, if required, in metal jacketing tubes. Consistent with our founding principles, we specialize in application optimized fibers, providing our customers unmatched flexibility in the their system design and performance. 50/125 µm graded index multimode fiber, enhanced resistance level to H 2 ingression Suitable for use in low/mid-temperature, no/low hydrogen environments Carbon coating provides exceptional resistance to H 2 and moisture ingression Wide range of protective coatings available PART NO. MMF-50-3-CP-125-3 MMF-50-3-P-125-3 Description 50/125/155 μm Carbon/Polyimide coated, Graded Index, Multimode Fiber 50/125/155 μm Polyimide coated, Graded Index, Multimode Fiber Material Hermetic Coating Carbon Coating Polyimide Polyimide Geometry Core Diameter (μm) 50 ± 2.5 50 ± 2.5 Clad Diameter (μm) 125 ± 2 125 ± 2 Core Non-Circularity (%) < 5 < 5 Clad Non-Circularity (%) < 1 < 1 Core/Clad Offset (μm) < 1.5 < 1.5 Coating Diameter (μm) 155 ± 5 155 ± 5 Polyimide Coating Concentricity 1 > 80 > 80 Optical NA (nominal) 0.20 0.20 Attenuation 2 @ 850 nm (db/km) @ 1300 nm (db/km) < 3.0 < 1.2 < 3.0 < 1.2 Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) > 300 > 300 > 300 > 300 Mechanical Proof Test (kpsi) > 100 > 100 Operating Temperature ( C) -65 to +300-65 to +300 1 Measured as (Min. Wall/Max. Wall) x 100 2 Measured on loose coil www.aflglobal.com or (800)789-0540, (508) 890-7100 13 2014, AFL, all rights reserved. PP-6-00002, Revision 0, 8.11.14

Specialty Optical Fiber VHM2000 Series Fibers PART NO. MMF-50-3-MTDA-125-3 MMF-50-3-CSMTA-125-3 MMF-50-3-CMTDA-125-3 MMF-50-3-CMTDA-125-4 Description 50/125/245 μm Mid-Temp Dual Acrylate coated, Graded Index, Multimode Fiber 50/125/245 μm Carbon/ Si/Mid-Temp Dual Acrylate, Graded Index, Multimode Fiber 50/125/245 μm Carbon/ Mid-Temp Dual Acrylate coated, Graded Index, Multimode Fiber 50/125/245 μm Carbon/ Mid-Temp Dual Acrylate, Graded Index, Multimode Fiber, 200 kpsi Material Hermetic Coating Carbon Carbon Carbon Primary Coating Mid-Temp Dual Acrylate Silicone Mid-Temp Dual Acrylate Mid-Temp Dual Acrylate Secondary Coating Mid-Temp Dual Acrylate Mid-Temp Dual Acrylate Mid-Temp Dual Acrylate Mid-Temp Dual Acrylate Geometry Core Diameter (μm) 50 ± 2.5 50 ± 2.5 50 ± 2.5 50 ± 2.5 Clad Diameter (μm) 125 ± 2 125 ± 2 125 ± 2 125 ± 2 Core Non-Circularity (%) 5 5 5 5 Clad Non-Circularity (%) 1 1 1 1 Core/Clad Offset (μm) 1.5 1.5 1.5 1.5 Combined Coating Diameter (μm) 245 ± 5 245 ± 20 245 ± 5 245 ± 5 Optical NA (nominal) 0.20 0.20 0.20 0.20 Attenuation @ 850 nm (db/km) @ 1300 nm (db/km) Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) 2.5 0.7 > 300 > 300 3.0 1.2 > 300 > 300 Mechanical Proof Test (kpsi) > 100 > 100 > 100 > 200 Operating Temperature ( C) -40 to +150-40 to +150-40 to +150-40 to +150 2.5 0.7 > 300 > 300 2.5 0.7 > 300 > 300 www.aflglobal.com or (800)789-0540, (508) 890-7100 14 2014, AFL, all rights reserved. PP-6-00002, Revision 0, 8.11.14

Specialty Optical Fiber VHM2000 Series Fibers PART NO. MMF-50-3-SPFA-125-1 MMF-50-3-SPFA-125-6 MMF-50-3-CSPFA-125-5 Description 50/125/700 μm Silicone/PFA coated, Graded Index, Multimode Fiber 50/125/250 μm Silicone/PFA coated, Graded Index, Multimode Fiber 50/125/400 μm Carbon/Silicone/PFA coated, Graded Index Multimode Fiber Material Hermetic Coating Carbon Primary Coating Silicone Silicone Silicone Secondary Coating PFA PFA PFA Geometry Core Diameter (μm) 50 ± 2.5 50 ± 3 50 ± 2.5 Clad Diameter (μm) 125 ± 2 125 ± 2 125 ± 2 Core Non-Circularity (%) 5 5 5 Clad Non-Circularity (%) 1 1 1 Core/Clad Offset (μm) 1.5 1.5 1.5 Combined Coating Diameter (μm) 700 ± 50 250 ± 50 400 ± 50 Optical NA (nominal) 0.20 0.20 0.20 Attenuation 1 @ 850 nm (db/km) @ 1300 nm (db/km) 3.0 1.2 3.0 0.8 3.0 1.2 Bandwidth @ 850 nm (MHz-km) @ 1300 nm (MHz-km) > 300 > 300 > 300 > 300 > 300 > 300 Mechanical Proof Test (kpsi) > 100 > 100 > 100 Operating Temperature ( C) -40 to +200-40 to +200-40 to +200 1 Measured on loose coil www.aflglobal.com or (800)789-0540, (508) 890-7100 15 2014, AFL, all rights reserved. PP-6-00002, Revision 0, 8.11.14

Specialty Optical Fiber VHS500 Series Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. VHS500 is a pure silica core single-mode design available with all Verrillon harsh environment coating combinations, including Polyimide, Silicone-PFA, Silicone-MTA, MTA and Carbon, which can be applied in conjunction with any of these polymeric coatings. Typically, these fibers are used in downhole distributed sensing techniques for temperature, pressure, acoustics and seismic, as well as in data logging and imaging applications. Our carbon-coated optical fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber in simulated well conditions. In addition, we provide one-stop shopping for customers requiring single or multi-count cabled hermetic fibers in metal jacketing tubes and polymeric configurations. Consistent with our founding principles, we specialize in application-optimized fibers, providing our customers unmatched flexibility in their system design and performance. Applications Downhole in oil & gas Cabling processes with tight bending requirements Harsh environment applications Tight bend fiber installations Optimized for 1550 nm Single Wavelength Operation Pure Silica Core chemistry for improved performance in hydrogen-rich environments Greater than 50x bend loss improvement at 1550 nm over standard SMF MFD compatible with standard SMF for ease of splicing and minimal splice loss Available with all Verrillon harsh environment coatings PART NO. SMF-60-CP-125-1 SMF-60-P-125-1 Description 125/155 μm Carbon/Polyimide coated Single-mode fiber, 0.12 NA, 100 kpsi, 1550 nm Operating Wavelength 125/155 μm Polyimide coated Single-mode fiber, 0.12 NA, 100 kpsi, 1550 nm Operating Wavelength Material Hermetic Coating Carbon Coating Polyimide Polyimide Geometry Clad Diameter (μm) 125 ± 2 125 ± 2 Clad Non-Circularity (%) < 3 < 3 Core/Clad Offset (μm) < 1.5 < 1.5 Coating Diameter (μm) 155 ± 5 155 ± 5 Polyimide Coating Concentricity 1 (%) 80 80 Optical NA (nominal) 0.12 0.12 Attenuation 2 @ 1550 nm (db/km) < 0.8 < 0.8 Cutoff Wavelength (nm) < 1530 < 1530 Mode Field Diameter 3 @ 1550 nm (db/km) 10.0 ± 0.7 10.0 ± 0.7 Mechanical Proof Test (kpsi) > 100 > 100 Operating Temperature ( C) -65 to +300-65 to +300 1 (Min. Wall/Max. Wall) x 100 2 Measured on loose coil 3 Petermann II Definition www.aflglobal.com or (800)789-0540, (508) 890-7100 16 2014, AFL, all rights reserved. PP-6-00008, Revision 2, 4.9.15

Specialty Optical Fiber VHS500 Series Fibers PART NO. SMF-60-CSPFA-125-3 SMF-60-CSPFA-125-7 Description 125/700 μm Carbon/Silicone/PFA coated Single-mode fiber, 125/250 μm Carbon/Silicone/PFA coated Single-mode fiber, 0.12 NA, 100 kpsi, 1550 nm Operating Wavelength 0.12 NA, 150 kpsi, 1550 nm Operating Wavelength Material Hermetic Coating Carbon Carbon Primary Coating Silicone Silicone Secondary Coating PFA PFA Geometry Clad Diameter (μm) 125 ± 2 125 ± 2 Core/Clad Offset (μm) < 1.5 < 1.5 Combined Coating Diameter (μm) 700 ± 50 250 ± 50 Optical NA (nominal) 0.12 0.12 Attenuation @ 1550 nm (db/km) < 0.8 < 0.8 Cutoff Wavelength (nm) < 1530 < 1530 Mode Field Diameter 1 @ 1550 nm (db/km) 10.0 ± 0.7 10.0 ± 0.7 Mechanical Proof Test (kpsi) > 100 > 150 Operating Temperature ( C) -40 to +200-40 to +200 1 Petermann II Definition PART NO. Description Material Hermetic Coating Coating Geometry Clad Diameter (μm) 125 ± 2 Core/Clad Offset (μm) < 1.5 Coating Diameter (μm) 245 ± 15 Optical NA (nominal) 0.12 Attenuation @ 1550 nm (db/km) < 0.8 Cutoff Wavelength (nm) < 1530 Mode Field Diameter 1 @ 1550 nm (db/km) 10.0 ± 0.7 Mechanical Proof Test (kpsi) > 100 Operating Temperature ( C) -40 to +150 1 Petermann II Definition SMF-60-CMTDA-125-1 125/245 μm Carbon Mid-Temp Dual Acrylate, Pure Silica Core, Single-mode fiber, 0.12 NA, 100 kpsi, 1550 nm Operating Wavelength Carbon Mid-Temp Dual Acrylate www.aflglobal.com or (800)789-0540, (508) 890-7100 17 2014, AFL, all rights reserved. PP-6-00008, Revision 2, 4.9.15

Specialty Optical Fiber VHS100 Series Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. Starting with fiber design, we offer both single-mode and multimode optical fibers having coatings and coating combinations, including Polyimide, Silicone-PFA and Carbon, which can be applied in conjunction with any of these outer coatings. Typically, these fibers are used in down-hole data logging, distributed sensing and imaging applications. Verrillon's carbon-coated optical fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber. In addition, we provide one-stop shopping for customers requiring multi-count cabled hermetic fibers, if required, in metal jacketing tubes. Consistent with our founding principles, we specialize in application optimized fibers, providing our customers unmatched flexibility in the their system design and performance. Equivalent to 'standard' telecom SMF Optimized for 1310/1550 nm Dual Wavelength Operation Carbon coating provides exceptional resistance to H 2 and moisture ingression Wide range of protective coatings available PART NO. SMF-1-P-125-2 SMF-1-P-125-3 SMF-1-CP-125-3 Description 125/155 µm Polyimide, Single-mode fiber, 125/155 µm Polyimide, Single-mode fiber, 125/155 µm Carbon/Polyimide, 0.12NA, 150 kpsi 0.12NA, 100 kpsi Single-mode fiber, 0.12NA, 100 kpsi Material Hermetic Coating Carbon Coating Polyimide Polyimide Polyimide Geometry Clad Diameter (μm) 125 ± 2 125 ± 2 125 ± 2 Core/Clad Offset (μm) 0.5 0.5 0.5 Coating Diameter (μm) 155 ± 5 155 ± 5 155 ± 5 Polyimide Coating Concentricity 1 (%) 80 80 80 Optical NA (nominal) 0.12 0.12 0.12 Attenuation 2 @ 1310 nm (db/km) @ 1550 nm (db/km) 0.7 0.6 0.7 0.6 0.7 0.6 Cutoff Wavelength (nm) 1250 ± 50 1250 ± 50 1250 ±50 Mode Field Diameter 3 @ 1310 nm (μm) @ 1550 nm (μm) 9.2 ± 0.6 10.4 ± 0.8 9.2 ± 0.6 10.4 ± 0.8 9.2 ± 0.6 10.4 ± 0.8 Mechanical Proof Test (kpsi) 150 100 100 Operating Temperature ( C) -65 to +300-65 to +300-65 to +300 1 Measured as (Min. Wall/Max. Wall) x 100 2 Measured on Zero Tension spool 3 Petermann II Definition www.aflglobal.com or (800)789-0540, (508) 890-7100 18 2014, AFL, all rights reserved. PP-6-00005, Revision 0, 1.5.15

Specialty Optical Fiber VHS100 Series Fibers PART NO. SMF-1-CMTDA-125-1 Description 125/245 µm Carbon/ Mid-Temp Dual Acrylate coated, Single-mode fiber 0.12NA, 100 kpsi Material Hermetic Coating Carbon Coating Mid-Temp Dual Acrylate Geometry Clad Diameter (μm) 125 ± 2 Core/Clad Offset (μm) 0.5 Coating Diameter (μm) 245 ± 15 Optical NA (nominal) 0.12 Attenuation 1 @ 1310 nm (db/km) @ 1550 nm (db/km) 0.5 0.3 Cutoff Wavelength (nm) 1250 ±50 Mode Field Diameter 2 @ 1310 nm (μm) @ 1550 nm (μm) 9.2 ± 0.6 10.4 ± 0.8 Mechanical Proof Test (kpsi) 100 Operating Temperature ( C) -40 to +150 1 Measured on loose coil 2 Petermann II Definition PART NO. SMF-1-MTDA-125-1 Description 125/245 µm Mid-Temp Dual Acrylate coated, Single-mode fiber, 0.12NA, 100 kpsi Material Coating Mid-Temp Dual Acrylate Geometry Clad Diameter (μm) 125 ± 2 Core/Clad Offset (μm) 0.5 Coating Diameter (μm) 245 ± 5 Optical NA (nominal) 0.12 Attenuation @ 1310 nm (db/km) @ 1550 nm (db/km) 0.40 0.25 Cutoff Wavelength (nm) 1250 ± 50 Mode Field Diameter 1 @ 1310 nm (μm) @ 1550 nm (μm) 9.2 ± 0.6 10.4 ± 0.8 Mechanical Proof Test (kpsi) 100 Operating Temperature ( C) -40 to +150 1 Petermann II Definition www.aflglobal.com or (800)789-0540, (508) 890-7100 19 2014, AFL, all rights reserved. PP-6-00005, Revision 0, 1.5.15

Specialty Optical Fiber VHS100 Series Fibers PART NO. SMF-1-CA-125-2 SMF-1-CA-125-3 Description 125/245 μm Carbon/Acrylate coated, Single-mode Fiber, 0.12 NA, 200 kpsi 125/245 μm Carbon/Acrylate coated, Single-mode Fiber, 0.12 NA, 100 kpsi Material Hermetic Coating Carbon Carbon Coating UV Acrylate UV Acrylate Geometry Clad Diameter (μm) 125 ± 2 125 ± 2 Core/Clad Offset (μm) 0.5 0.5 Coating Diameter (μm) 245 ± 15 245 ± 15 Optical NA (nominal) 0.12 0.12 Attenuation 1 @ 1310 nm (db/km) @ 1550 nm (db/km) 0.6 0.5 0.6 0.5 Cutoff Wavelength (nm) 1250 ±50 1250 ±50 Mode Field Diameter 2 @ 1310 nm (μm) @ 1550 nm (μm) 9.2 ± 0.6 10.4 ± 1.0 9.2 ± 0.6 10.4 ± 1.0 Mechanical Proof Test (kpsi) 200 100 Operating Temperature ( C) -40 to +85-40 to +85 1 Measured on loose coil 2 Petermann II Definition www.aflglobal.com or (800)789-0540, (508) 890-7100 20 2014, AFL, all rights reserved. PP-6-00005, Revision 0, 1.5.15

Specialty Optical Fiber VPM400 Series Fibers Verrillon Harsh Environment Fibers from AFL are available in a number of designs. Starting with fiber design, we offer both single-mode and multimode optical fibers having coatings and coating combinations, including Polyimide, Silicone-PFA and Carbon, which can be applied in conjunction with any of these outer coatings. Typically, these fibers are used in down-hole data logging, distributed sensing and imaging applications. Verrillon's carbon-coated optical fibers provide exceptionally high levels of hermeticity compared to commercial fibers. We provide extensive data that demonstrates the performance of our fiber. In addition, we provide one-stop shopping for customers requiring multi-count cabled hermetic fibers, if required, in metal jacketing tubes. Consistent with our founding principles, we specialize in application optimized fibers, providing our customers unmatched flexibility in the their system design and performance. Optimized for 1550 nm Single Wavelength Operation Round core Elliptical Clad designs provide high birefringence allowing the fiber to have an extremely short beat-length, excellent for high-precision gyroscopes Radiation-Resistant Rad-Hard Available in 80 µm clad diameter PART NO. PMF-9-A-80-1 PMF-12-A-80-1 Description 80 µm Elliptical Clad Polarization maintaining Single-mode Fiber, 1550 nm Operational Wavelength 80 µm Elliptical Clad Polarization maintaining Single-mode Fiber, 1550 nm Operational Wavelength Material Coating Dual UV Acrylate Acrylate Stress-inducing Design Elliptical Clad Elliptical Clad Geometry Clad Diameter (μm) 80 ± 2 80 ± 2 Core/Clad Concentricity (μm) 1.0 1.0 Coating Diameter (μm) 165 ± 10 160 ± 10 Optical NA (nominal) 0.20 0.20 Attenuation (db/km) @ 1550 nm 0.5 1.5 Mode Field Diameter 1 (μm) @ 1550 nm 7.0 ± 1.0 6.5 ± 0.5 Operational Wavelength (nm) 1550 1550 Cutoff Wavelength (nm) 1480 < 1520 Beat Length (mm) @ 1550 nm 2.00 2.2 Bend Loss 2 (db/turn) @ 1550 nm 0.05 H-Parameter 5.0 x 10-5 Mechanical Proof Test (kpsi) 100 100 Operating Temperature ( C) -10 to +70-60 to +80 1 Gaussian Definition 2 12 mm diameter mandrel www.aflglobal.com or (800)789-0540, (508) 890-7100 21 2014, AFL, all rights reserved. PP-6-00018, Revision 0, 9.30.14

Specialty Fiber Optic Cable Fiber Optic Component for Umbilical Cable AFL s Fiber Optic Component for Umbilical Cable is designed for subsea umbilical applications. AFL is the technology owner for hermetic stainless steel tubes which are the key building block for subsea cables. AFL provides customized designs to meet the most stringent requirements. AFL s Fiber Optic Component is suitable for depths of 10,000 feet and beyond. Cable Components Outer Jacket Hermetic Stainless Steel Tube High Strength Wire Polyethylene Jacketed Hydrogen scavenging gel Long lengths In-line splice technology Proven technology Long life expectancy Custom Jacket Colors Armor Wires Stainless Steel Tube Inner Jacket Optical Fiber Options and Number of Fibers Up to 72 Fiber Single-mode, Multimode, 100 or 200 kpsi proof test Stainless Steel Tube Sizes 2.4 mm to 3.8 mm Stainless Steel Tube Types 304 or 316L Stainless Steel Armor 16 x 1.02 mm (0.040") wires, a range of tensile specifications are available Fiber Colors EIA 598 or customer specification Unit Weight 150 to 300 kg/km Overall Diameter 7 mm to 16 mm Storage Temperature Range -40 to +85 C Operating Temperature Range -40 to +85 C Breaking Load Up to 25 kn (dependant on armor selection) Bend Radius (design dependent) 120 mm to 320 mm Cable Marking To customer specification www.aflglobal.com or (800)235-3423 22 2008, AFL, all rights reserved. PP-1-00073, Revision 4, 7.16.15

Fiber Optic Cable Specialty Fiber Optic Plastic Buffer Tubes AFL provides fiber optic plastic buffer tubes in a variety of sizes with various fiber counts. These tubes can be used in multiple applications as subcomponents in Umbilical Cables, Gas, Sewer and Water Line Fiber Optic Cables, Optical Ground Wire and Sensor Cables. Anywhere there is a need for a fiber optic cable or component, AFL can provide or engineer the appropriate solution. Applications Umbilical Cables Gas, Sewer and Water Line Fiber Optic Cables Optical Ground Wire Sensor Cables ITEM NUMBER OUTSIDE DIAMETER (INCHES) INSIDE DIAMETER (INCHES) WALL THICKNESS (INCHES) MAXIMUM FIBER COUNT OUTSIDE DIAMETER (MM) 1 0.063 0.047 0.008 4 1.60 1.20 2 0.079 0.055 0.012 6 2.00 1.40 3 0.083 0.059 0.012 8 2.10 1.50 4 0.087 0.067 0.010 12 2.20 1.70 5 0.098 0.075 0.012 12 2.50 1.90 6 0.106 0.077 0.015 12 2.70 1.95 7 0.118 0.087 0.016 18 3.00 2.20 8 0.140 0.106 0.017 24 3.55 2.70 Available in PBT. Others sizes and materials available on request. INSIDE DIAMETER (MM) www.aflglobal.com or (800)235-3423 23 2006, AFL, all rights reserved. PP-1-00083, Revision 2, 9.20.11

Fiber Optic Cable Tactical Tight Buffered Cable AFL Tactical Tight Buffered Cables are ideal for use in installations where extreme environmental conditions are present. Designed to be deployed and retrieved in the field, AFL s Tactical Tight Buffered Cables are highly resistant to damage caused by repeated impacts or harsh conditions. Cut resistant, Flame Retardant Polyurethane outer jacket Highly flexible construction allows for multiple deployments All aramid strength members Performance in wide temperature range High impact and crush resistance Durable in high traffic areas MIL-PRF-46291 qualified fiber available (-RH designation) Tested to meet or exceed EIA/TIA 568-B3, Telecordia GR-409-CORE, ANSI/ICEA S-83-596 and ANSI/ICEA S-104-696 Two- and four-fiber cables designed to meet MIL-PRF-85045 Temperature Range Operating: -56ºC to +85ºC Installation: -20ºC to +85ºC Applications Field deployment in abusive environments Temporary installation of critical communications lines where quick retrieval and re-use is necessary Cable Components Polyurethane outer jacket aramid strength member 250 µm or 500 µm optical fiber 900 µm Elastomeric Tight Buffer High Traffic areas Security and Sensing applications Broadcast deployments Installations in harsh environments CHARACTERISTIC TEST PROCEDURE PERFORMANCE Tensile and elongation EIA/TIA-455-33 Operating tensile strength EIA/TIA-455-33 Low-temp flexibility EIA/TIA-455-37 Cyclic flexing EIA/TIA-455-104 2000 Crush resistance EIA/TIA-455-41 2000 N/cm Impact EIA/TIA-455-25 200 Temperature cycling EIA/TIA-455-3 -46 C to 85 C Temperature/humidity cycling EIA/TIA-455-5 Method B Life aging EIA/TIA-455-4 Freezing water immersion EIA/TIA-455-98 Ordering Information AFL NO. MAXIMUM TENSILE LOAD MINIMUM BEND RADIUS FIBER NOMINAL DIA. NOMINAL WT. LBS (N) INCHES (CM) COUNT INCHES (MM) LBS/1000FT (KG/KM) INSTALLATION LONG TERM INSTALLATION LONG TERM XU001 30180G 1 0.12 (2.9) 5.4 (8) 250 (1112) 75 (334) 1.5 (3.8) 1.25 (3.2) XU002 58180G 2 0.23 (5.8) 21.5 (32) 375 (1668) 150 (667) 3.25 (8.3) 2.25 (5.7) XU004 58180G 4 0.23 (5.8) 21.5 (32) 375 (1668) 150 (667) 3.25 (8.3) 2.25 (5.7) Note: Diameter and weight subject to change without notice Replace asterisk ( ) in AFL number with number corresponding below. Fiber Notes/Options 5 = 50/125 µm multimode GIGA-Link 600 G = Elastomer over 500 µm 6 = 62.5/125 µm multimode GIGA-Link 300 RH = Indicates Radiation Hardened Fiber 9 = Single-mode K = SM Futureguide SR-15e Bend Insensitive www.aflglobal.com or (800)235-3423 24 2007, AFL, all rights reserved. PP-1-00066, Revision 2.5 9.20.11

Fiber Optic Cable BU Series Ruggedized Breakout Cable AFL s ruggedized BU series breakout cables are ideal for use in harsh environment applications requiring a rugged deployable cable solution. Consisting of 2 mm sub-cables, each optical fiber is suitable for direct termination enabling fast and easy installation. This reduced diameter, light weight, and high strength cable features a tough abrasion resistant polyurethane jacket that offers exceptional performance through a wide range of temperatures. It is also impervious to common chemicals found in industrial environments. Available with a flame retardant jacket option the BU series breakout cable is ideal for use in mines, petrochemical facilities, and other industrial applications. Temperature Range Operating: -55C to +85C Storage: -60C to +85C Installation: -50C to +85C Mechanical Tensile Installation 2112 (475) Operational 333 (75) Deployable design UV, Fungus, and water resistant Highly crush and impact resistant 2.0 mm sub-cables available in a variety of colors Available with shiny or matte low-friction jacket Custom colors available Available with bend insensitive SM and MM optical fiber Supports all multi-gigabit Ethernet standards RoHS compliant Cable Components MIL PRF85045 ANSI/ICEA-S-104-696 RoHS Compliant Highly abrasion and cut resistant Resistant to most fuels, oils and greases Excellent low-temperature flexibility Polyurethane Jacket Filler 2 mm Subunit Hytrel Tight Buffered Fiber Flexible Center Member Aramid Strength Member Ordering Information NOMINAL DIAMETER NOMINAL WEIGHT PHYSICAL PROPERTIES MINIMUM AFL NO. FIBER COUNT INCHES MM LBS/1,000 FT KG/KM CRUSH (N/CM) IMPACTS BEND RADIUS INCHES (CM) BU002 20180H 2 0.307 7.8 35 52 2000 200 3.0 (7.5) BU004 20180H 4 0.307 7.8 35 52 2000 200 3.0 (7.5) BU006 20180H 6 0.346 8.8 39 58 2000 200 3.5 (8.5) BU008 20180H 8 0.394 10.0 52 77 2000 200 4 (10) BU012 20180H 12 0.464 11.8 63 93 2000 200 4.3 (11) Please specify fiber type when ordering (see below) 5 = 50/125 µm multimode GIGA-Link 600 7 = 50/125 µm multimode GIGA-Link 2000 6 = 62.5/125 µm multimode GIGA-Link 300 8 = 62.5/125 µm multimode GIGA-Link 1000 9 = 9/125 µm single-mode L = 50/125 µm multimode Laser-Link 300 for 10 Gigabit Ethernet K = Single-mode Futureguide SR-15e Bend Insensitive www.aflglobal.com or (800)235-3423 25 2015, AFL, all rights reserved. PP-1-00114, Revision 0, 1.6.15

Fiber Optic Cable Braided Armored Deployable Tight Buffered Cable AFL Armored Deployable Tight Buffered Cables are ideal for use in installations where extreme environmental conditions are present. With the addition of a wire braid embedded within the jacketing system, these cables are highly resistant to damage caused by repetitive impacts, high flex, crush, and abrasion as well as other harsh conditions. By utilizing AFL's tight buffered fiber technology field, termination is simplified. Temperature Range Operating: - 46ºC to + 85ºC Installation: - 20ºC to + 85ºC Storage: -57 C to 85 C Cut resistant polyurethane outer jacket Highly flexible construction allows for multiple deployments Performance in wide temperature range High impact and crush resistance Durable in high traffic areas Water and UV resistant Multiple jacket colors available Capable of supporting all Multi-Gigabit Ethernet Protocols Applications Field deployment in abusive environments High traffic areas Security and sensing applications High Flex Applications Installations in industrial environments Temporary installation of critical communications lines where quick retrieval and re-use is necessary Cable Components Tight Buffered Fiber Bronze Braiding Aramid Yarn Inner TPU Jacket Outer TPU Jacket Ordering Information NOMINAL DIAMETER NOMINAL WEIGHT TENSION LBS (N) MINIMUM AFL NO. FIBER COUNT INCHES MM LBS/1,000 FT KG/KM INSTALLATION LONG TERM BEND RADIUS INCHES (CM) XU001 30180#-BB 1 0.26 6.6 42.4 64 250 (1112) 66 (290) 2.6 (6.6) XU002 58180#-BB 2.374 9.5 82.5 124 325 (1450) 66 (290) 3.7 (9.5) XU004 58180#-BB 4.374 9.5 82.5 124 325 (1450) 66 (290) 3.7 (9.5) XU006 61180#-BB 6.386 9.8 85.5 128 325 (1450) 66 (290) 3.8 (9.8) XU012 70180#-BB 12.421 10.7 104.7 156 394 (1750) 79 (350) 4.2 (10.7) Note: Diameter and weight subject to change without notice Replace asterisk ( ) in AFL number with number corresponding below. 5 = 50/125 µm multimode GIGA-Link 600 6 = 62.5/125 µm multimode GIGA-Link 300 9 = Single-mode K = SM Futureguide SR-15e Bend Insensitive * Other fiber types available. Replace pound sign (#) in AFL number with number corresponding below. G = 500 µm Coated Optical Fiber H = 250 µm Coated Optical Fiber www.aflglobal.com or (800)235-3423 26 2015, AFL, all rights reserved. PP-1-00119, Revision 0, 1.8.15

Fiber Optic Cable BU Series Braided Armored Breakout Cable AFL s braided armored BU series breakout cables are ideal for use in harsh environment applications requiring a rugged deployable cable solution. Consisting of 2 mm sub-cables, each optical fiber is suitable for direct termination enabling fast and easy installation. This reduced diameter, light weight, and high strength cable features a tough abrasion resistant polyurethane jacket that offers exceptional performance through a wide range of temperatures. It is also impervious to common chemicals found in industrial environments. Available with a flame retardant jacket option the BU series breakout cable is ideal for use in mines, petrochemical facilities, and other industrial applications. Temperature Range Operating: -55C to +85C Storage: -60C to +85C Installation: -50C to +85C Mechanical Tensile Installation 2112 (475) Operational 333 (75) Deployable design UV, Fungus, and water resistant Highly crush and impact resistant 2.0 mm sub-cables available in a variety of colors Available with shiny or matte low-friction jacket Custom colors available Available with bend insensitive SM and MM optical fiber Supports all multi-gigabit Ethernet standards RoHS compliant Cable Components MIL PRF 85045 ANSI/ICEA-S-104-696 RoHS Compliant Highly abrasion and cut resistant Resistant to most fuels, oils and greases Excellent low-temperature flexibility Braid application per IEEE 1580 available 2 mm Breakout Unit Bronze Braiding Inner TPU Jacket Outer TPU Jacket Ordering Information NOMINAL DIAMETER NOMINAL WEIGHT PHYSICAL PROPERTIES MINIMUM AFL NO. FIBER COUNT INCHES MM LBS/1,000 FT KG/KM CRUSH (N/CM) IMPACTS BEND RADIUS INCHES (CM) BU002 20180H-BB 2 0.452 11.5 113 68 2000 200 4.5 (11.5) BU004 20180H-BB 4 0.452 11.5 113 68 2000 200 4.5 (11.5) BU006 20180H-BB 6 0.492 12.5 124 185 2000 200 4.9 (12.5) BU008 20180H-BB 8 0.539 13.7 147 219 2000 200 5.4 (13.7) BU012 20180H-BB 12 0.610 15.5 178 9265 2000 200 6.1 (15.5) Please specify fiber type when ordering (see below) 5 = 50/125 µm multimode GIGA-Link 600 7 = 50/125 µm multimode GIGA-Link 2000 6 = 62.5/125 µm multimode GIGA-Link 300 8 = 62.5/125 µm multimode GIGA-Link 1000 9 = 9/125 µm single-mode L = 50/125 µm multimode Laser-Link 300 for 10 Gigabit Ethernet K = Single-mode Futureguide SR-15e Bend Insensitive www.aflglobal.com or (800)235-3423 27 2015, AFL, all rights reserved. PP-1-00118, Revision 0, 1.7.15

Fiber Optic Cable Industrial Loose Tube Cable, LSZH, OFCG-LS, Aluminum Interlock Armor AFL s Industrial Loose Tube Cables are designed for high reliability in heavy industrial and harsh environment applications. Consisting of a formed metallic armor, the cable features superior crush resistance and a high degree of flexibility. Furthermore, the cable features a flame retardant LSZH jacket which is UV stabilized and highly resistant to chemicals commonly found in industrial environments. With an OFCG-LS listing, the cable is suitable for both indoor and outdoor industrial installations. Temperature Range Operating: -40C to +70C Storage: -60C to +50C Installation: -20C to +50C Mechanical Tensile Installation 2670 (600) Operational 800 (180) Eliminates need for conduit Simplified one-step installation Highly crush resistant Resistant to lubricating oil, gasoline, deionized water and many other chemicals Gel-free buffer tubes SZ stranded for quick easy access Available with bend insensitive SM and MM optical fiber Supports all multi-gigabit Ethernet standards Cable Components OFCG-LS, IEEE 1202 / FT4, UL1685 ANSI/ICEA-S-104-696 CSA 22.2 #230 and #232 NFPA 130 / 502 RoHS Compliant Sun light resistant Oil Res II compliant jacketing system Central Member LSZH Outer Jacket Aluminum Interlocking Armor Ripcord Gel-Free Buffer Tube LSZH Inner Jacket Ordering Information NOMINAL DIAMETER NOMINAL WEIGHT MINIMUM BEND RADIUS FIBER # OF BUFFER TUBES / FIBERS INSTALLATION OPERATION (10XOD) IN/CM AFL NO. COUNT PER TUBE INCHES MM LBS/1,000 FT KG/KM (20XOD) IN/CM LL0 - - C5111A1D 6-60 5 / 12 0.75 19.11 204 304 15/38 7.5/19.1 LL072 C6111A1D 60-72 6 / 12 0.81 20.68 228 341 16.2/42 8.1/21 LL096 C8111A1D 72-96 8 / 12 0.87 21.98 258 385 17.4/44 8.7/22 LL144 CC111A1D 96-144 12 / 12 0.96 24.5 339 506 19.2/49 9.6/24.5 LL288 CO311A1D 144-288 24 / 12 1.14 28.9 519 774 22.8/57.8 11.4/28.9 Please specify fiber type when ordering (see below) 5 = 50/125 µm multimode GIGA-Link 600 7 = 50/125 µm multimode GIGA-Link 2000 6 = 62.5/125 µm multimode GIGA-Link 300 8 = 62.5/125 µm multimode GIGA-Link 1000 9 = 9/125 µm single-mode L = 50/125 µm multimode Laser-Link 300 for 10 Gigabit Ethernet K = Single-mode Futureguide SR-15e Bend Insensitive www.aflglobal.com or (800)235-3423 2015, AFL, all rights reserved. PP-1-00114, Revision 0, 1.5.15 28

Specialty Fiber Optic Cable Distributed Temperature Sensing LSZH Fiber Optic Cable Fiber Optic Distributed Temperature Sensing Cables from AFL are customized to suit the specific needs of the customer s application. AFL cables are specially designed for durability and reliability and are used in varying applications and environments. Suitable for outdoor applications with its UV stabilized jacket and limited indoor applications with its LSZH jacket (IEC 60332-1-2:2004 qualified). Quick and easy to install without special equipment or know how, these cables are an ideal solution and can be used with any DTS manufacturers equipment. Low Smoke Zero Halogen Jacket UV Light stabilizer High Tensile Performance Small Outside Diameter Flexible Benefits Cost effective solution compared with steel tube alternatives Easy installation Installations up to 6 km continuous length No specialized installation knowledge or equipment needed Jacket coloring and printing available to customer specification Cable Components LSZH outer jacket aramid strength member fiber polymer buffer tube Jacket Material Cable Weight Minimum Bend Radius Fiber Colors Standard Low Smoke Zero Halogen 18 ± 1 kg / km 80 mm Blue, Orange Cable is Designed, manufactured and tested in accordance with ISO 9001 IEC 60332-1-2:2004, Tests on electric and optical fiber cables under fire conditions Part 1-2: Test for vertical flame propogation for a single-insulated wire or cable Procedure for 1 kw premixed flame www.aflglobal.com or (800)235-3423 29 2010, AFL, all rights reserved. PP-1-00072, Revision 3, 3.27.13

Fiber Optic Cable High Strength Steel Wire (HSSW) Armored Fiber Optic Cable AFL s High Strength Steel Wire (HSSW) Armored Fiber Optic Cable provides the reliability needed for network backbones in harsh environment conditions. The high strength, galvanized plow steel armor is enhanced and offers a significant improvement in mechanical performance as compared to traditional steel tape armored cables. With a near ten-fold improvement in tensile performance, a two-fold improvement in crush resistance and a three-fold improvement in impact energy resistance, AFL s HSSW Armored Fiber Optic Cable provides the strength and durability needed for the most extreme conditions. Ideal for use as a direct buried cable in heavy construction zones including wind farm developments, pipelines, oil and gas fields, heavy industrial sites and a variety of additional harsh environments, AFL s HSSW Armored Cable meets or exceeds all requirements specified in Telcordia GR-20-Core. Cable Components Physical Properties Fiber Count 1-60 * Nominal Diameter 0.65 inches / 16.5 mm Nominal Weight 335 lbs/1000 ft. / 500 kg/km Maximum Tensile Load 5,000 lbs/ 22.2 kn ** Minimum Bend Radius 13 inches / 33 cm Termperature Range Installation: -40oC to + 70oC Operation: -50oC to + 70oC *** * Any combination of up to 60 fibers available ** Higher strength options available upon request *** Expanded temperature ranges available upon request www.aflglobal.com or (800)235-3423 30 2010, AFL, all rights reserved. PP-1-00076, Revision 3, 9.20.11

Fiber Optic Cable Armored Stainless Steel Tubes Armored Stainless Steel Cables from AFL are based on our patented tube technology which provides for a hermetic seal. The armor wires provide improved crush and tensile performance while maintaining good flexibility. Armored Stainless Steel Tubes can be used in a variety of applications such as temperature sensing and surface cable. Cable Components Outer Jacket Hermetic Stainless Steel Tube High Strength Wire Jacket Options Gel Options Flexible Rugged Options and Armor Wires Stainless Steel Tube Hydrogen Scavenging Gel Fiber BREAKING STRENGTH (kg) BEND RADIUS (mm) FIBER COUNT TUBE O.D. (mm) FINAL O.D. (mm) WEIGHT (kg/km) 4 1.32 2.12 16 222 132 6 2.00 3.20 38 526 200 12 2.40 3.60 45 619 240 Based on 200 kpsi Gips wire, gel filled tube Encapsulation Option Materials Diameter Cable markings Polypropylene, Nylon, PVDF, Hytrel To customer specifications To customer specifications www.aflglobal.com or (800)235-3423 31 2008, AFL, all rights reserved. PP-1-00071, Revision 3, 7.16.15

Specialty Fiber Optic Cable Stainless Steel Fiber Optic Tubes As the inventor and owner of the technology for placing optical fibers into stainless steel tubes, AFL offers a range of tube sizes and fiber counts for a variety of applications. Each tube is flooded with a thixotropic filling compound and hermetically sealed to protect the enclosed fibers from environmental degradation. This product is sometimes referred to as FIST (Fiber in Steel Tube) or FIMT (Fiber in Metal Tube). Jacket Options AFL can encapsulate any of our stainless steel tubes with any of the following polymers: Hytrel Polypropylene Santoprene Nylon Polyethylene PVDF Cable Components Outer Jacket Fiber Stainless Steel Tube Applications Umbilical Cables Downhole Cables for Oil & Gas Towed Arrays High Temperature Cables Hybrid Cables Sensor Cable OPGW (without jacketing) OUTSIDE DIAMETER inches (mm) INSIDE DIAMETER inches (mm) WALL THICKNESS inches (mm) OPTION NUMBER MAXIMUM FIBER COUNT 1 3 0.046 (1.17) 0.036 (0.91) 0.005 (0.127) 2 4 0.052 (1.32) 0.042 (1.07) 0.005 (0.127) 3 4 0.055 (1.40) 0.039 (1.00) 0.008 (0.200) 4 4 0.065 (1.65) 0.049 (1.25) 0.008 (0.200) 5 6 0.071 (1.80) 0.055 (1.40) 0.008 (0.200) 6 8 0.074 (1.88) 0.058 (1.47) 0.008 (0.200) 7 8 0.078 (1.98) 0.062 (1.57) 0.008 (0.200) 8 8 0.079 (2.00) 0.063 (1.60) 0.008 (0.200) 9 12 0.092 (2.33) 0.076 (1.93) 0.008 (0.200) 10 16 0.094 (2.38) 0.078 (1.98) 0.008 (0.200) 11 16 0.095 (2.40) 0.079 (2.00) 0.008 (0.200) 12 16 0.098 (2.49) 0.082 (2.08) 0.008 (0.200) 13 16 0.106 (2.69) 0.090 (2.29) 0.008 (0.200) 14 24 0.118 (3.00) 0.102 (2.60) 0.008 (0.200) 15 36 0.125 (3.20) 0.109 (2.80) 0.008 (0.200) 16 48 0.134 (3.40) 0.119 (3.00) 0.008 (0.200) 17 60 0.142 (3.60) 0.126 (3.20) 0.008 (0.200) 18 72 0.150 (3.80) 0.134 (3.40) 0.008 (0.200) 19 72 0.156 (3.96) 0.140 (3.56) 0.008 (0.200) 20 72 0.158 (4.00) 0.142 (3.60) 0.008 (0.200) 21 72 0.165 (4.20) 0.150 (3.80) 0.008 (0.200) Available in Stainless Steel 304, 316 and Incoloy 825. Others sizes and materials available on request. www.aflglobal.com or (800)235-3423 2002, AFL, all rights reserved. PP-1-00021, Revision 3, 7.16.15 32

Fiber Optic Cable Fiber Rod AFL s Fiber Rod takes an optical fiber of the customer s choice and encases it in a glass re-enforced matrix. The diameter of the structure is adjusted to provide the characteristics needed for the specific application. The performance of the optical fiber is retained in this structure providing for a very ruggedized fiber suitable for many harsh applications. Fiber Rod is best suited for high tensile or compressive requirements where the glass structure provides the rigidity to protect the optical fiber from harm. Additionally, AFL s Fiber Rod does not exhibit the typical curvature coming off the payoff reel like that of most cables. This makes deployments in applications such as pipelines and oil wells simpler. Applications such as strain sensing and temperature sensing in a host of environments up to 200 C are ideal for this product. /Options Strength Variable as glass matrix diameter can be increased which increases strength Bend Diameter 50x the outer diameter Temperature Performance Standard is 85 C Ruggedized Option Product can be jacketed with various polymers such as PVDF, Hytrel, Polyethylene, Nylon, PVC, Fire Retardant PE, Polyurethane and others Available in lengths of up to 6 kilometers Cable Components OD (mm) ID (mm) TOLERANCE (+/-mm) 85 C Version Optical Fiber 0.125 n/a 0.001 Coating (Silicone PFA) 0.700 0.125 0.100 www.aflglobal.com or (800)235-3423 33 2008, AFL, all rights reserved. PP-1-00075, Revision 4, 7.16.15

21S (with Cleaver for scale) Workstation in Transit Case Fujikura 21S Fusion Splicer The Fujikura 21S active cladding alignment fusion splicer bridges the long standing gap between core alignment and fixed v-groove fusion splicer technology. Moveable v-grooves eliminate splicer errors due to dust and other contaminants. Despite its incredibly small size, this ruggedized, full-featured unit offers unmatched versatility for splicing in the most challenging environments. The innovative transit case and work tray provide multiple options for the best utilization of available work space while the long life battery provides power for up to 200 splice cycles which include application of the splice protection sleeve. The Fujikura 21S incorporates features typically found only in more expensive models. Removable sheath clamps allow the use of fiber holders if desired. The large 4.7" monitor provides a crystal clear image, even in the brightest sunlight, for evaluating splice quality. The electrode life has been extended to 3,000 splices, minimizing downtime for replacement and stabilization. Software updates are accomplished via the internet allowing users to quickly update their software as new splice programs become available. The fully ruggedized chassis provides for shock, dust and moisture protection while the two camera observation system provides for accurate fiber alignment and loss estimation calculations. The Fujikura 21S is also fully compatible with the FUSEConnect line of fusion installable connectors. Backed by the best service team in the industry, the Fujikura 21S is the ideal splicer to use when portability, ruggedness, versatility and reliability are needed for your splicing application. Dual camera, active cladding alignment technology World s smallest active clad alignment splicer at 4.72"W x 7.44"D x 2.8"H Fully ruggedized for shock, moisture and dust resistance Transit case converts to easy to use workstation Extended life electrodes Long life battery (200 splices/shrinks per charge) Auto start tube heater Workstation on Transit Case Fujikura 21S Kit 1 Ordering Information DESCRIPTION Fujikura 21S Fusion Splicer Includes: Fujikura 21S Fusion Splicer, S21A Sheath Clamp, ADC-19 AC Adapter, BTR-11 Battery Pack (installed), ACC-09 Power Cord, ELCT2-12 Spare Electrodes (pair), Operation Manual on CD, Quick Reference Guide, AP-01 Alcohol Container,SD01 Screwdriver and CC-32 Transit Case Fujikura 21S Fusion Splicer Kit 1 Includes: Fujikura 21S Fusion Splicer, CT-30A Cleaver, S21A Sheath Clamp, ADC-19 AC Adapter, BTR-11 Battery Pack (installed), ACC-09 Power Cord, ELCT2-12 Spare Electrodes (pair), Operation Manual on CD, Quick Reference Guide, AP-01 Alcohol Container, SD01 Screwdriver and CC-32 Transit Case Fujikura 21S Fusion Splicer Kit 2 Includes: Fujikura 21S Fusion Splicer, CT-06A Cleaver, S21A Sheath Clamp, ADC-19 AC Adapter, BTR-11 Battery Pack (installed), ACC-09 Power Cord, ELCT2-12 Spare Electrodes (pair), Operation Manual on CD, Quick Reference Guide, AP-01 Alcohol Container, SD01 Screwdriver and CC-32 Transit Case One Year Extended Warranty Two Year Extended Warranty AFL NO. S016111 S016155 S016154 S012996 S013000 34 2015, AFL, all rights reserved. PP-4-00082, Revision 0, 1.22.15

Fujikura 21S Fusion Splicer Recommended Accessories for the 21S DESCRIPTION AFL NO. DESCRIPTION AFL NO. Cleavers FUSEConnect Accessories CT-06A Cleaver S015276 FH-FC-20 (900 µm within 2.0 mm sheathing) (each) S014696 CT-30A Cleaver S014080 FH-FC-30 (900 µm within 3.0 mm sheathing) (pair) S014695 Fiber Holders FH-FC-900 (900 µm cable) (each) S014697 FH-60-250 Fiber Holder (250 µm single fiber) S014548 CLAMP-FC-2000 (pair) S014705 FH-60-900 Fiber Holders (900 µm single fiber) S014549 CLAMP-FC-3000 (pair) S014704 FH-60-LT900 (900 µm loose buffer tube) S015181 Miscellaneous FH-60-LT900 Single Side Fiber Holder S015275 Worktable Set S016157 Sheath Clamps TS-01 Tripod Screw S015895 CLAMP-S21A Sheath Clamp S016160 ELCT2-12 Electrodes S014028 CLAMP-S21B Sheath Clamp S016161 ADC-19 AC Adapter S015523 Batteries ACC-09 Power Cord S014390 BTR-11 Battery Pack S016156 AP-01 Alcohol Container S015525 SD-01 Screwdriver S015526 CC-32 Transit Case S016158 Applicable Fibers Single-mode (G.652 & G.657), Multimode (G.651), DSF (G.653), NZDS (G.655) Cladding Diameter 125 μm Coating Diameter 100 μm to 3000 μm Fiber Cleave Length 5 mm to 16 mm Typical Average Splice Loss 0.03 db (SM), 0.01 db (MM), 0.05 db (DS) and 0.05 db (NZDS) Splicing Time Typical 9 sec with SM Arc Calibration Method Automatic, real-time and by using results of previous splice when in AUTO mode, manual arc calibration function available Splicing Modes Total 100 splice modes Splice Loss Estimate Based on dual camera cladding alignment data Storage of Splice Result Last 2,000 splices Fiber Display 4.7 inch TFT color LCD with X or Y view or both X and Y view simultaneously Magnification 200X magnification for X/Y view Viewing Method 2 axis CMOS camera Operating Condition Altitude: 0 to 3,660 m above sea level, -10 to 50 C, Humidity: 0 to 95% RH, non-dew Mechanical Proof Test 1.96 N Tube Heater 30 heating modes Tube Heating Time Typical 30 sec with FP-60 (60 mm) sleeve Protection Sleeve Length 60 mm, 40 mm, micro Splice/Heat Cycles with Battery Typical 200 cycles with BTR-11 Electrode Life 3,000 splices Power Supply Auto select from 100 V to 240 V with AC adapter, 14.8 V DC with installed battery Terminals USB 2.0 Wind Protection Maximum wind velocity of 15 m/s. (34 mph) Dimensions 120 x 189 x 71 (mm) / 4.72" x 7.44" x 2.8" (inches) Weight 1.14 kg (2.51 lbs) with battery 35 2015, AFL, all rights reserved. PP-4-00082, Revision 0, 1.22.15

70S In case with lid detached Fujikura 70S Fusion Splicer The Fujikura 70S is the world s fastest and most robust core alignment fusion splicer. Incorporating the proven ruggedized features pioneered by Fujikura, the 70S has added automated and enhanced user control features to increase splicing efficiency. A user programmable, automated wind protector expedites the splicing process by automatically closing to initiate the splice process, and opening upon splice completion. Fully programmable auto open sheath clamps open one or both sheath clamps, after the tensile test, to prepare the fiber for removal. A new automated clamshell design tube heater applies heat to both sides of the splice protection sleeve resulting in a 14-second shrink time. The result is a total splice process time of approximately 21 seconds! Ruggedness and durability are greatly enhance by a mirror-less optical system and "severe-impact resistant" monitor. Battery capacity is now 200 splices/shrinks. An innovative transit case doubles as a built-in or mobile workstation and makes splicing easier than ever before. Automated and programmable wind protector 14-second automated tube heater Fully ruggedized for shock, dust and moisture Li-ion battery with 200 splices/shrinks per charge 5 mm cleave length for splice on connector or small package needs Sheath clamp or fiber holder operation On-board training and support videos Internet software upgrades Multi-function transit case with integrated workstation Ordering Information DESCRIPTION 70S Fusion Splicer (machine only) Includes: ADC-18 AC Adapter, ACC-14 AC Cord, ELCT2-20A Spare Electrodes (pair), S70C Sheath Clamp, USB Cable, Alcohol Pot, Screw Driver, Splicer Carrying Strap, Quick Reference Guide, Video Instruction Manual and CC30 Transit Case with Carrying Strap 70S Fusion Splicer Kit (with cleaver) Includes: CT30A Cleaver, ADC-18 AC Adapter, ACC-14 AC Cord, ELCT2-20A Spare Electrodes (pair), S70C Sheath Clamp, USB Cable, Alcohol Dispenser, Screw Driver, Splicer Carrying Strap, Quick Reference Guide, Video Instruction Manual, and CC30 Transit Case with Carrying Strap 70S Fusion Splicer Kit (with cleaver, battery and cord) Includes: BTR-09 Battery, DCC-18 Battery Charge Cord, CT30A Cleaver, ADC-18 AC Adapter, ACC-14 AC Cord, ELCT2-20A Spare Electrodes (pair), S70C Sheath Clamp, USB Cable, Alcohol Dispenser, Screw Driver, Splicer Carrying Strap, Quick Reference Guide, Video Instruction Manual and CC30 Transit Case with Carrying Strap One Year Extended Warranty Two Year Extended Warranty AFL NO. S015580 S015590 S015591 S012996 S013000 36 2013, AFL, all rights reserved. PP-4-00059, Revision 3, 5.26.2015

Fujikura 70S Fusion Splicer Recommended Accessories for the 70S DESCRIPTION Cleavers CT-06A Cleaver CT-30A Cleaver Fiber Holders FH-60-250 Fiber Holder (pair) FH-60-900 Fiber Holder (pair) FH-60-160 Fiber Holder (pair) FH-60-LT900 Fiber Holder (pair) FH-60-LT900 Single Side Fiber Holder FUSEConnect Accessories FH-FC-20 (900 µm within 2.0 mm sheathing) (each) FH-FC-30 (900 µm within 3.0 mm sheathing) (pair) FH-FC-900 (900 µm cable) (each) CLAMP-FC-2000 (pair) CLAMP-FC-3000 (pair) Sheath Clamps CLAMP-S70C Sheath Clamp (Coating diameter from 100 µm - 1000 µm (5-16 mm cleave)) CLAMP-S70D Sheath Clamp (900 µm diameter loose tube fiber (5-16 mm cleave)) AFL NO. S015276 S014080 S014548 S014549 S014690 S015181 S015275 S014696 S014695 S014697 S014705 S014704 S015586 S015862 DESCRIPTION Batteries and Power Cords ADC-18 AC Adapter ACC-14 AC Power Cord BTR-09 Battery DCC-18 Battery Charge Cord DCC-12 Power Cord (connects AC Adapter to cigarette lighter socket) DCC-13 Power Cord (connects AC Adapter to power source via alligator clips) Miscellaneous ELCT2-20A Electrodes Portable Tripod Workstation (see product profile for more detail) ASW-02 Splicing Workstation (see product profile for more detail) JP-06 J-PLATE (70/19 Series) SL-01 Sleeve Loader Worktable Upper Worktable Lower Inner Box Set USB Cable CC-30 Transit Case AFL NO. S015585 S014536 S015581 S015582 S013552 S013556 S013532 S014773 S010532 S016100 S015674 S015779 S015780 S015979 S014777 S015587 Model 70S Fusion Splicer Applicable Fibers Single-mode (G.652 & G.657), Multimode (G.651), DS (G.653), NZDS (G.655) Cladding Diameter 80-150 μm Coating Diameter 100 μm to 1,000 μm Fiber Cleave Length 5 to 16 mm Typical Average Splice Loss 0.02 db with SM, 0.01 db with MM, 0.04 db with DS, 0.04 db with NZDS, measured by cut-back method relevant to ITU-T standards Splicing Time SM FAST mode 7 seconds; SM AUTO mode 10 seconds; AUTO mode 15 seconds with SM fiber Arc Calibration Method Automatic, real-time and by using results of previous splice when in AUTO mode, manual arc calibration function available Splicing Modes 100 preset and user programmable modes Splice Loss Estimate Based upon dual camera core axis alignment data Storage of Splice Result Last 2,000 results stored in the internal memory Fiber Display X or Y, or both X and Y simultaneously. Front or rear monitor display options with automated image orientation Magnification 320X for single X or Y view, or 200X for X and Y view Viewing Method Dual cameras with 4.7 inch TFT color LCD monitor Operating Condition 0 to 5,000 m above sea level, 0 to 95%RH and -10 to 50 C respectively Mechanical Proof Test 1.96 to 2.25N Tube Heater Built-in tube heater with 30 heating modes; auto-start function Tube Heating Time Typical 14 seconds with FP-03 sleeve, 17 seconds with FP3 (40), 5-16 seconds with Fujikura micro sleeves Protection Sleeve Length 60 mm, 40 mm, micro Splice/Heat Cycles with Battery Typical 200 cycles with power save functions activated Electrode Life 3,000 Arc Discharges Power Supply Auto voltage selection from 100 to 240 V AC or 10 to 15 V DC with ADC-18, 14.8 V DC with BTR-09 battery Terminals USB 1.1 (USB-B type) for PC communication. Mini-DIN (6-pin) for HJS-02/03 Wind Protection Maximum wind velocity of 15 m/s. (34 mph) Dimensions 146 W x 159 D x 150 H (mm) / 5.75 W x 6.25 D x 5.9 H (inches) Weight 2.5 kg (5.5 lbs) with AC adapter ADC-18; 2.7 kg (5.95 lbs) with BTR-09 battery 37 2013, AFL, all rights reserved. PP-4-00059, Revision 3, 5.26.2015

FSM-100M FSM-100P Split V-groove clamping system Plasma Zone fiber positioning PAS and WSI New IPA alignment method for PM fibers Enhanced sweep arc technology Zero degree fiber handling for LDF Special functions for glass processing capability Fiber profile memory function New arc calibration technology Short cleave length capability Fast and accurate PANDA splice mode Ergonomic, production friendly design User selectable display on dual LCD monitors Internet firmware updates FSM-100M and FSM-100P Fusion Splicers Whether splicing similar fiber types or double clad LDF fibers for high power lasers, the ARCMaster series splicers provide multiple solutions for diverse production needs. With State of the ARC technology, the ARCMaster sets the standard for fusion splicing with a multitude of new features designed to make splicing easier. The patent-pending split V-groove fiber clamping system accommodates optical fiber ranges from 60 to 2000 μm for cladding or coating without changing V-grooves or fiber clamps. The Plasma Zone fiber positioning system incorporates multiple fiber and electrode positioning techniques to provide unprecedented versatility for splicing LDF, heat sensitive or small diameter fibers. With a new fiber imaging technology, Interrelation Profile Alignment (IPA), alignment and splicing capabilities are possible with virtually any PM fiber type. Longer fiber tapering application is possible with Fujikura s Sweep Arc technology. Incorporating PAS (cold fiber image) and WSI (warm image) technologies, the optical analysis system provides a number of advanced features including improved loss estimation capabilities, fiber image performance with both LDF, small or heat sensitive fibers. Users can program multi-step glass processing operations to include non-splicing operations such as generating tapers or lenses. Dual LCD monitors provide enhanced data and graphical information that is user-selectable during each stage of the splicing process. Both units are designed with the needs for production in mind and are suitable for the most popular production workstations. Ordering Information DESCRIPTION ARCMaster FSM-100M Fusion Splicer (machine only) Includes: FH-100-250 fiber holders (pair), FH-100-900 fiber holders (pair), spare electrodes (pair), ADC-15 AC adapter, ACC-02 AC power cord, USB cable, dust cleaning swab set, operation manual and software on CD, and transit case ARCMaster FSM-100M Fusion Splicer Kit * ARCMaster FSM-100P Fusion Splicer (machine only) Includes: FH-100-250 fiber holders (pair), FH-100-400 fiber holders (pair), FH-100-900 fiber holders (pair), spare electrodes (pair), ADC-15 AC adapter, ACC-02 AC power cord, USB cable, dust cleaning swab set, operation manual and software on CD, and transit case ARCMaster FSM-100P Fusion Splicer Kit * One year extended warranty (extends factory warranty by one year) Two year extended warranty (extends factory warranty by two years) AFL NO. S014821 S014822 S014823 S014824 S012996 S013000 * Each splicer kit includes an HJS-02 Hot Jacket Stripper, a CT-32 Cleaver and a SPA-HJS-030 Spacer for HJS-02 in addition to the items listed above. 38 2011, AFL, all rights reserved. PP-4-00017, Revision 3, 2.3.14

FSM-100M and FSM-100P Fusion Splicers Accessories for the FSM-100M and FSM-100P Applicable Fiber Silica based Single-mode and Multimode glass fiber: SMF (G.652), MMF (G.651), NZDSF (G.655), EDF, DCF, LDF and PMF, etc. Fiber Dimension Cladding diameter: 60 to 500 µm Coating diameter: 100 to 2,000 µm Cleave Length Glass clamping: 8 to 10 mm (standard 9mm) Coating clamping: 3 to 5 mm (standard 4mm) Typical Splice Loss SMF: 0.03 db MMF: 0.02 db NZDSF/LDF: 0.05 db PMF: 0.06 db (FSM-100P) Splicing Time SMF/MMF: 15 sec. NZDSF/LDF: 25 sec. PMF (PANDA): 35 to 50 sec. (FSM-100P) PMF (IPA): 90 to 300 sec. (FSM-100P) Polarization Cross-Talk PMF (PANDA): -40 db / 0.6 degree (FSM-100P) PMF (IPA): -32 db / 1.4 degree (FSM-100P) Return Loss 60 db or more Heating Time FP-03 (40 mm): 30 sec. FP-03 (60 mm): 35 sec. Micro sleeves: 55 sec. Sweep Length ±5 mm Electrode Life 2,500 Arc Discharges (SMF G.652 splicing at 1mm gap) Electrode Gap 1 to 3 mm Electrode Offset -0.3 to +0.1 mm Proof Test 1.96 N to 2.45 N Dimensions (mm) 311W x 232D x 160H Weight (excluding AC adapter) Operation Temperature FSM-100M: 7.7 kg FSM-100P: 7.9 kg 0 C to 40 C at 0 to 95% RH (Non-Dew) Storage Temperature -40 C to 80 C Monitor Type Dual 4.1 inch TFT color LCD monitors Magnification 125 µm: 187 to 300 X 250 µm: 58 to 300 X 400 µm: 58 to 93 X DESCRIPTION High Strength Accessories High Strength Preparation Kit Includes: USC-02, AFL PowerStrip and AFL PowerCleave Ultrasonic Cleaner (USC-02) HTS-12 High Tensile Stripper - includes 250 µm blades (400 µm available) AFL PowerStrip High Tensile Stripper AFL PowerCleave High Strength Cleaver Strippers HJS-02 Hot Jacket Stripper SPA-HJS-030 Spacer HJS-02-80 Hot Jacket Stripper (80 µm cladding) JS-02-900 (900 µm) Electrodes ELCT2-25 Spare Electrodes (pair) Cleavers CT-32 Cleaver CT-38 Cleaver ( for 80 µm cladding) Fiber Holders (Pairs) FH-100-060 Fiber Holder (55 µm - 71 µm) FH-100-100 Fiber Holder (94 µm - 117 µm) FH-100-125 Fiber Holder (118 µm - 139 µm) FH-100-150 Fiber Holder (140 µm - 169 µm) FH-100-180 Fiber Holder (170 µm -199 µm) FH-100-210 Fiber Holder (200 µm -239 µm) FH-100-250 Fiber Holder (240 µm -289 µm) FH-100-300 Fiber Holder (290 µm -339 µm) FH-100-350 Fiber Holder (340 µm -389 µm) FH-100-400 Fiber Holder (390 µm -489 µm) FH-100-500 Fiber Holder (490 µm -589 µm) FH-100-600 Fiber Holder (590 µm -689 µm) FH-100-700 Fiber Holder (690 µm -789 µm) FH-100-800 Fiber Holder (790 µm -889 µm) FH-100-900 Fiber Holder (890 µm -989 µm) FH-40-LT900 Fiber Holder Power and Cords ADC-15 AC Adapter (FSM-100M/P) ACC-02 AC Power Cord ADC-09 AC Adapter for HJS-02 ACC-09 AC Power Cord (for ADC-09) Miscellaneous CC-27 Transit Case (100 M/P) DCS-01 Dust Cleaning Swab HP Power Meter Coupling Adapter ILX Power Meter Coupling Adapter Fiber Holder Adapter for HP/ILX PM AFL NO. S013632 S014783 S012094 S012808 S009972 S010340 S012086 S013264 S010908 S002068 S014348 S014349 S014977 S014828 S014829 S014861 S014830 S014831 S014832 S014833 S014834 S014835 S014836 S014837 S014838 S014839 S014840 S013584 S014826 S001171 S014389 S014390 S014825 S014827 S012180 S012184 S012188 39 2011, AFL, all rights reserved. PP-4-00017, Revision 3, 2.3.14

Robust Over-Mold Recoat (Over-coating) Automatic, easy operation Great recoating capability for colored and non-colored fibers Easy-to-exchange molds for common fiber sizes Compatible with high temperature (200ºC) recoating compounds and other special compounds Full programmable control of recoat and proof test recipes PC command codes for automated control FSR-02 Fiber Recoater To meet the small package requirements of OEMs, AFL offers the FSR-02 fiber recoater. The FSR-02 eliminates the need for splice protection sleeves by automatically recoating a fiber back to the near-original coating diameter after a splice is complete. The recoat diameter is slightly larger than the original fiber coating such that it overlaps the fiber coating at each end, providing a robust and durable over-mold. Programmable for recoating lengths from 4 to 50 mm and proof testing from 4 to 20 Newtons, this unit stores data for 100 cycles which are easily downloadable to a PC. For splices that may fail the proof test, the breaking load is displayed. A complete set of PC command codes enables simple integration into an automated production line. A compact and low profile design facilitates comfortable benchtop operation. A dual axis illumination system ensures good curing performance not only with clear coated fibers, but with colored fibers as well. The FSR-02 is compatible with not only common recoating compounds, but also special high temperature (200 C) recoating compounds and stiffer recoat materials suitable for 900 µm jacketed fibers. New chrome spattering technology improves the long-term durability of the mold surface and minimizes mold flash. Dimensions (W x D x H) 255 mm x 150 mm x 130 mm Weight 3.8 kg Power supply AC 100 to 240 V, 50 to 60 Hz Recoating time Injection 15 sec / Curing 15 sec Proof test 4 to 20 N (0.4 to 2 kgf), 0 to 60 seconds, programmable Data storage 100 recoat cycles, PC downloadable Fiber coating diameter 165 µm, 250 µm, 400 µm and 900 µm Recoat diameter 195 µm, 280 µm, 450 µm, and 1000 µm Recoat length 4 to 50 mm UV curable material capacity 53 cc Recoat and proof modes 30 programmable modes Operating conditions 10 to 30 C, 0 to 90% humidity, non-condensing Storage conditions -40 to 60 C, 0 to 90% humidity, non-condensing Ordering Information DESCRIPTION FSR-02 Fiber Recoater The FSR-02 Fiber Recoater comes with ADC-10 AC Adapter, AC Cord, fiber protection cover and operation manual (mold sold separately). AFL NO. S012728 Accessories DESCRIPTION FSR-02-MOLD-195 Mold for recoating 165 µm coated fiber FSR-02-MOLD-280 Mold for recoating 250 µm coated fiber FSR-02-MOLD-450 Mold for recoating 400 µm coated fiber FSR-02-MOLD-1000 Mold for recoating 900 µm jacketed fiber Force gauge for calibrating proof tester Force gauge mounting table (required with gauge) Spare UV lamp AFL NO. S013272 S012972 S012976 S013212 S013092 S013088 S013012 40 2002, AFL, all rights reserved. PP-4-00026, Revision 2, 2.8.11

*Delivered as shown CT-30 Fiber Cleaver The CT-30 Cleaver sets the standard for portability, reliability and ease of use. Available for either single fiber or ribbon splicing (up to 12 fiber ribbons) applications, the CT-30 Cleavers are compatible with all AFL fusion splicers. The improved version offers a larger base for a more stable platform, improved visibility when placing the fiber, and three scrap collection options. Designed for excellent portability, the CT-30 is equally at home in a splicing van or in a bucket truck and is ideal for FTTx applications. The 16-position blade yields 48,000 single-fiber cleaves, or 4,000 12-fiber ribbon cleaves before requiring replacement, and the built-in scrap collector conveniently stores fiber shards until they can be safely discarded. The CT-30 Cleaver is packaged with three scrap collection options that allow the user to tailor it to their cleaving preferences. The CT30 is delivered with the SC-01 Side Cover installed for users that prefer not to use an automated scrap collection system. For those that prefer an automated scrap collection system, the FC-02 Fiber Collector and two scrap box options are included. The FDB-02 Scrap Box is a smaller bin for users seeking a compact profile. The FDB-03 Scrap Box is a larger bin with sweeping brush and static resistant surfaces for those users seeking to maximize scrap capacity. All scrap options are easily configured by the user. Applicable Fiber Conventional silica optical fiber Fiber Count Single and up to 12 fiber ribbon Coating Diameter 250 μm to 900 μm Cladding Diameter 125 μm Cleave Angle Capability typically <0.5 Blade lifetime 48,000 fiber cleaves (4,000 12-fiber cleaves) Dimensions (W x D x H) 69 mm x 82 mm x 41 mm (2.7" x 3.2" x 1.6") Weight 180 g (0.4 lbs) Ordering Information Shown in CC-21 Carrying Case DESCRIPTION APPLICATION FIBER HANDLING SYSTEM CLEAVE LENGTH AFL NO. CT-30 Fiber Ribbons Fiber Holders for the following: 10 mm S014076 (up to 12 fibers) FH-XXX, FH-50-XXX or FH-60-XXX versions CT-30A Single Fibers: 250-900 µm coating, 125 µm cladding AD-30A Adapter Plate 900 µm: 10-20 mm 250 µm: 6-20 mm S014080 Included with Cleaver: AD-30A Adapter Plate (CT30A only) FC-02 Fiber Collector FDB-02 Scrap Box (small) FDB-03 Scrap Box (large) SC-01 Side Cover (installed) CC-21 Carrying Case Hex Wrench (1.5 mm) Instruction Manual Accessories DESCRIPTION Replacement Blade for CT-30 Series Cleavers FC-02 Fiber Collector AD-30A Adapter Plate AD-30B Adapter Plate (Fixed 16 mm cleave length) AD-30C Adapter Plate for 2 & 3mm Cord FDB-02 Fiber Collector Scrap Box FDB-03 Large Fiber Collector Scrap Box SC-01 Side Cover HBA-01 Fiber Holder Base Attachment CC-21 Carrying Case for CT-30 Series Cleaver AFL NO. S012828 S014092 S014096 S014100 S015896 S014104 S014483 S014353 S014388 S014484 41 2002, AFL, all rights reserved. PP-4-00011, Revision 3, 2.3.14

CT-100 Fiber Cleaver Precise cleaving is required for photonic splicing applications as the types of optical fiber become more diversified to meet new applications. In addition, angled cleaving is often required for low back-reflection fiber end preparation. The CT-100 has been developed to offer adjustability and versatility for these various fiber types and applications while offering superior cleaving performance beyond conventional cleavers that utilize a circular blade. The CT-100 is equipped with a motorized diamond blade that touches the fiber after tension has been applied providing high-strength cleaving capability. Diamond blade with long blade life Large diameter fiber cleaving capability (fiber diameter range 80 to 250 µm) Angle cleaving capability (0 to 15 degrees) Cleave counter Adjustable cleave length Dual power sources (4 AA batteries or AC adapter) Applicable Fiber Cleaving Performance Conventional silica optical fiber Typical 0.5 degrees Cladding Diameter 80 to 250 µm Coating Diameter 160 to 2000 µm Cleave Angle Capability Cleave Length Dimensions Weight Blade Lifetime DC Power Supply AC Power Supply Operating Conditions Storage Conditions 0 to 15 degrees (adjustable) 0 to 40 with Fiber Holder, FH-100 series or FH-40 series 140 mm (W) x 110 mm (D) x 95 mm (H) 900 g or less (excluding batteries) 20,000 fibers (1,000 fibers x 20 positions) 4 AA size batteries (approx. 2000 cleaves) 100 to 240 VAC / 50 to 60 Hz using ADC-16 Temperature: 0 to 40 C, Humidity: 0 to 95% RH (Non-condensing) Temperature: -40 to 80 C, Humidity: 0 to 95% RH (Non-condensing) Ordering Information DESCRIPTION CT-100 Advance Optical Fiber Cleaver Includes: ADC-16 AC adapter, ACC-09 AC power cord, 1.5 mm hex wrench, 2.5 mm hex wrench and instruction manual AFL NO. S014972 Accessories DESCRIPTION ADC-16 AC Adapter ACC-09 AC Power Cord CB-03 Cleaver Blade AFL NO. S015017 S014390 S015214 42 2011, AFL, all rights reserved. PP-4-00008, Revision 3, 5.24.13

photo PowerCleave To complement the line of world class splicing systems, AFL s PowerCleave combines the precision of an ultrasonic cleaver with the ease and improved fiber management of the Fujikura fiber holder system. The PowerCleave utilizes the tensile stress method to avoid touching or damaging the bare glass surface during cleaving, ensuring highly robust, reliable and durable splice results. The PowerCleave provides consistent flat ends even at cleave lengths as short as 3 mm. Specially designed for use with Fujikura s specialty market splicers, this advanced cleaving system allows for more reliability and greater splicing consistency with less dependence on operator technique. Tensile cleaving with ultrasonic blade Consistent, low-angle cleaves of short cleave-length fibers Fiber holder system reduces fiber handling Clean, reliable quality Fibers Cleaved Minimum Cleave Length Cleave Angle Blade Clamping System Case Battery Dimensions (L x W x D) Weight Operating Temperature Storage Temperature CE Conformity 80 µm - 200 µm (cladding diameter) 3 mm <0.6 typical (95% of cleaves) Diamond with an estimated life of over 20,000 cleaves Compatible with Fujikura specialty market fiber holder systems ABS impact resistant with non-slip feet and a 6.25 mm (.24 inch) BSW thread tripod mount for hard mounting to a workstation 9V alkaline (MN 1604), battery life approximately 10,000 cleaves 75 mm x 153 mm x 150 mm (3.0 x 6.0 x 5.9 inches) 1.1 kg (2.4 lbs) 0 C to 45 C (32 F to 113 F) -20 C to 60 C (-4 F to 140 F) Fully complies with all EC equipment guidelines according to the CE declaration of conformity Ordering Information DESCRIPTION PowerCleave Kit Includes: PowerCleave, Instruction manual, 2.5 mm x 60 mm screwdriver, 2 mm Allen wrench AFL NO. S009972 43 2002, AFL, all rights reserved. PP-4-00063, Revision 3, 5.29.12

USC-03 Ultrasonic Cleaner The Fujikura ultrasonic cleaner model USC-03 provides a simple and cost effective method for cleaning optical fibers when high strength fusion splices are required. This ultrasonic cleaner readily accepts all FH-40-XXX, FH-50-XXX, FH-60-XXX and FH-100-XXX series fiber holders. The Universal Fiber Holder Adapter, available as an optional accessory, enables the use of FH-XXX series fiber holders. The high frequency ultrasonic action cleans debris and coating residue without damaging the exposed cladding and a built-in timer ensures that the required cleaning time is consistently used for all fibers processed. This cleaner, when used in conjunction with high strength stripping and cleaving accessories, produces outstanding results for the most demanding high strength applications. Built-in timer assures correct cleaning time Adjustable high intensity vibratory cleaning action Adjustment knob allows fine-tuning of fiber submersion depth Alcohol bath lid prevents cleaning fluid evaporation when machine is idle Included Accessories Applicable Fibers Applicable Fiber Holders Recommended Fluid Tank Capacity Ultrasonic Frequency Fiber Cleaning Length Output Power Timer Range Power Requirement Operating Environment Storage Environment Dimensions (W x D x H) Weight Single optical fiber FH-40, 50, 60 and 100 series Ethyl-alcohol 24 cc to 45 cc 50 khz 54 mm (max), adjustable 10 W (max) 1 to 99 seconds AC 100 to 240 V / 50 Hz to 60 Hz 0oC to 40oC, 0 to 95% RH, non-condensing -20 C to 60 C, non-condensing humidity 95 x 190 x 157 (mm) / 3.74 x 7.48 x 6.18 (inches) 1 kg / 2.2 lbs Ordering Information DESCRIPTION USC-03 Universal Fiber Holder Adapter ADC-10 Power Adapter ACC-09 Power Cord AFL NO. S014783 S013568 S012548 S014390 44 2002, AFL, all rights reserved. PP-4-00064, Revision 3, 5.14.15

AFL PowerStrip AFL PowerStrip is a thermal stripper used in high strength splicing. Using the proven blade and centering design of the Schleuniger FiberStrip 7030 in addition to the fiber holder system, the AFL PowerStrip automatically centers the fiber, heats the buffer or coating and strips the buffer at a controlled rate with perfect alignment. The fiber holder system reduces fiber handling, making this tool ideal for any production environment. 250 µm and 900 µm fiber capability Short cycle time Lightweight and portable Fibers Stripped - Single Buffered Fiber Clamping System Stripping Length Heater Temperature Range Heating Time Cycle Time Power Supply Dimensions (L x W x D) Weight CE Conformity Cladding diameter: 125 µm standard, 80 µm optional Coating diameter: 250 µm and 900 µm standard, 160 µm and 400 µm optional Fujikura fiber holder clamp; compatible with FSM-45F/PM and 100 series fiber holders Up to 35 mm 110 C to 150 C (230 F to 302 F) 1.5 to 13 seconds Approximately 5 seconds/cycle (after heating) Input: 100 to 240 V AC, 50/60 ± 3 Hz; Output: 12 V DC, 12 W, 1 A 209 mm x 57 mm x 45 mm (8.25 x 2.25 x 1.8 inches) 0.7 kg (1.5 lbs) Complies with all CE equipment guidelines Ordering Information DESCRIPTION AFL PowerStrip Kit Carrying case, fiber holder clamping system, blades and centralizers for 125/250 µm and 125/900 µm fiber, power supply 230 V AC or 100/120 V AC, power cord 2 m (6.5 feet), cleaning brush and tool set (hex keys, adjustment screwdriver) Coating Blades AFL NO. S012808 80/160 µm S012656 125/250 µm S012596 125/400 µm S012628 125/900 µm S012604 250/400 µm S014400 Centralizers 160 µm S012652 250 µm S012600 400 µm S012624 900 µm S012608 Power Supply 12 V DC W/PLUG ADPT S015185 * Custom blades and centralizers available on request. 45 2002, AFL, all rights reserved. PP-4-00048, Revision 2, 2.10.11

PCS-100 Polyimide Coating Stripper Polyimide coated optical fiber are now widely used in the oil and gas and medical industries. The polyimide coating has superior heat and chemical resistance to conventional UV curable coating material, but the coating requires additional care to remove. Dangerous chemical stripping using hot sulfuric acid or burning the coating off are common methods to strip the fiber due to the thin coating and strong coating adhesion to the fiber cladding. AFL s PCS-100 Polyimide Fiber Coating Stripper is the first tool that uses a mechanical stripping method, providing a safe, consistent and quick stripping solution. Quick stripping A razorblade is applied to the fiber with specific tension and the coating is precisely planed along the fiber automatically. The process requires less time than the conventional methods of acid or heat. For a 125 µm fiber, 4 stripping passes at 90º rotational positions are typically required, and complete stripping is accomplished within 25 seconds. Larger fiber sizes require more stripping passes (at smaller rotational angle increments). Safe, high quality stripping Because hot acid is not used, the operation is much safer. In addition, the fiber quality degradation is kept at a minimum as the glass surface is not damaged by oxidization of the coating during burning or arcing. Flexible Many parameters, such as the razor blade position and stroke, and fiber rotation angle are all adjustable for various fiber sizes and coating materials. STRIPPING PERFORMANCE Applicable Fiber Silica based Single-mode and Multimode glass fiber Applicable Coating Polyimide coating and UV curable resin coating Cladding Diameter Range 60 to 1200 μm Coating Diameter Range 60 to 1,500 μm Fiber Clamping Adaptable to range of fiber/coating sizes by selection of applicable pair of FH-100-XXX series fiber holders Strip Length 1 to 35 mm Stripping Time 4 stripping passes: 20 seconds 8 stripping passes: 35 seconds 12 stripping passes: 50 seconds Blade Life 350 fibers / blade (In the case of 4 strips per fiber) Stripping Modes 30 user-programmable modes Proof Modes 30 user-programmable modes PROOF TEST FUNCTION Maximum Proof Test Force 2 kgf Typical Proof Test Cycle Time 3 seconds DIMENSIONAL DATA Dimensions 230 mm (W) x 214 mm (D) x 151 mm (H) Weight 5.0 kg excluding AC adapter POWER SOURCE Power Input AC100 to 240 V (50 Hz to 60 Hz) OPERATION AND STORAGE CONDITIONS Operating Conditions Temperature: 0 to 40 C, Humidity: 0 to 95% RH (Non-condensing) Storage Conditions Temperature: -40 to 80 C, Humidity: 0 to 95% RH (Non-condensing) Ordering Information DESCRIPTION PCS-100 Polyimide Coating Stripper (Includes: FH-100-150, ADC-15 AC Adapter, ACC-02, Instruction manual and PCB-01 replacement blades.) AFL NO. S014973 Accessories DESCRIPTION FH-100-150 ADC-15 ACC-02 PCB-01 (Box of 50) AFL NO. S014861 S014826 S001171 S015018 46 2011, AFL, all rights reserved. PP-4-00045, Revision 1, 8.30.12

Splice Protection Sleeves AFL offers a wide selection of fiber protection sleeves to meet any application. The FP series is the industry standard for durable and lasting protection of single fiber splices in field installations, while the FP-04(T) and FP-05 provide the same durable protection for 8 and 12 fiber ribbon respectively. The FPS01 and FPS04 series are specially designed for optical components, where small packaging is a priority. These micro sleeves provide the known reliability of Fujikura sleeves in the smallest possible lengths. This easy and cost effective method is a great alternative to recoating. The FPS01 and FPS04 series offer a wide range of options to accommodate various coating sizes, and are manufactured in a variety of lengths. This gives great flexibility in designing optical modules. Standard Sleeves: Dimensions & Applicable Fiber SLEEVES FOR SINGLE FIBERS UP TO 900 MICRONS DESCRIPTION SLEEVE LENGTH FIBER CLEAVE LENGTH SLEEVE DIAMETER AFTER SHRINK PACKAGING AFL NO. FP-60 60 mm 16 mm 3.1 mm (max.) 1000 Box/100 Pack S015915 FP-40 40 mm 10 mm 3.1 mm (max.) 1000 Box/100 Pack S015916 FP-03(34) 34 mm 10 mm 3.1 mm (max.) 500 Box/10 Pack S000453 SLEEVES FOR TFOCA CABLE (DUAL 900 μm) DESCRIPTION FIBER COUNT SLEEVE LENGTH FIBER CLEAVE LENGTH SLEEVE DIAMETER AFTER SHRINK PACKAGING AFL NO. FP-D900 2 40 mm 10 mm 3.6 mm (max.) 1000 Box & 50 Pack S014413 SLEEVES FOR RIBBON FIBERS DESCRIPTION FIBER COUNT SLEEVE LENGTH FIBER CLEAVE LENGTH SLEEVE DIAMETER AFTER SHRINK PACKAGING AFL NO. FP-04(T) Up to 8 fibers 40 mm 10 mm 4.1 mm (max.) 250 Box/25 Pack S002105 FP-05 Up to 12 fibers 40 mm 10 mm 4.5 mm (max.) 250 Box/5 Pack S003027 FP-05-28 Up to 12 fibers 28 mm 10 mm 4.5 mm (max.) 250 Box/25 Pack S014720 FPS04-30 Up to 4 fibers 30 mm 10 mm 2.4 mm (max.) 1,000 Box/25 Pack S010848 FPS08-28 Up to 8 fibers 28 mm 10 mm 3.4 mm (max.) 500 Box/25 Pack S013560 FPS24-40 Up to 24 fibers 40 mm 10 mm 8 mm (max.) 200 Box/5 Pack S013004 DESCRIPTION Outer tube FP-60/40/03 series FP-04(T) / FP-05 Polyethylene Inner tube Ethylene-Vinyl Acetate (Polyolefin Copolymer) Strength member Operation condition (after shrink) Storage condition (before shrink) FP-60/40/03 series FP-04(T) / FP-05 Stainless steel Quartz glass -40 to 75 C, 0 to 95% RH (Non dew) -40 to 60 C, Non dew FP-03 series FPS01 series FP-40 series FP-60 series FP-04(T)/05 FPS04-30 FPS08-28 47 2002, AFL, all rights reserved. PP-4-00051, Revision 5, 8.1.14

Splice Protection Sleeves Micro Sleeves: Dimensions & Applicable Fiber FPS01-400 SERIES FOR SINGLE FIBERS UP TO 400 MICRON FIBER DESCRIPTION SLEEVE LENGTH FIBER CLEAVE LENGTH SLEEVE DIAMETER AFTER SHRINK PACKAGING AFL NO. FPS01-400-12 12 mm 4 mm 1.5 mm 50 Pack S014088 FPS01-400-15 15 mm 4 mm 1.5 mm 50 Pack S012668 FPS01-400-20 20 mm 8 mm 1.5 mm 50 Pack S012672 FPS01-400-25 25 mm 10 mm 1.5 mm 50 Pack S012676 FPS01-400-34 34 mm 15 mm 1.5 mm 50 Pack S012680 FPS01-400-40 40 mm 16 mm 1.5 mm 1,250 Box S011914 FPS01-900 SERIES FOR SINGLE FIBERS UP TO 900 MICRON FIBER DESCRIPTION SLEEVE LENGTH FIBER CLEAVE LENGTH SLEEVE DIAMETER AFTER SHRINK PACKAGING AFL NO. FPS01-900-15 15 mm 4 mm 2.3 mm 50 Pack S012684 FPS01-900-20 20 mm 6 mm 2.3 mm 50 Pack S012688 FPS01-900-25 25 mm 6 mm 2.3 mm 50 Pack S011954 FPS01-900-34 34 mm 13 mm 2.3 mm 50 Pack S012692 FPS01-900-45 45 mm 16 mm 2.3 mm 50 Pack S012696 MODEL Outer tube FPS01 series / FPS04-30 Polyethylene Inner tube Strength member Operation condition (after shrink) Storage condition (before shrink) FPS01 series FPS04-30 / FPS08-28 Ethylene-Vinyl Acetate (Polyolefin Copolymer) Stainless steel Quartz glass -40 to 75 C, 0 to 95% RH (Non dew) -40 to 60 C, Non dew Type Variations FULL SCALE 48 2002, AFL, all rights reserved. PP-4-00051, Revision 5, 8.1.14

LightGuard 55 Sealed Fiber Optic Splice Closure Designed with versatility in mind, the LightGuard (LG) 55 sealed closure from AFL offers a variety of solutions including repair and distribution splicing, grounding for Fiber-inthe-Loop applications, and for use as an isolation gap with armored cables. This closure accepts stranded loose tube, Uniflex or ribbon fiber cables in either armored or dielectric configurations and can be utilized in a butt or in-line configuration. The LG-55 closure incorporates a unique cable clamp design sealing the cable, allowing both of the cover halves to be removed without disturbing the contents. In addition, AFL s Peel & Seal Grommet System is incorporated to ensure a tight fit on various cable diameters, fully sealing the closure and protecting the fiber while eliminating cumbersome tape and washers making installation fast and easy. Accommodates cables to 0.77" O.D. for splicing and grounding / bonding Incorporates the Peel & Seal Grommet System, fully sealing the closure Includes removable, integral central splicing module and individual cable retention clamps Requires only a common can wrench for installation Inline Repair Closure (IRC) for repair of flat or round drop cables Splice Capacity (Max.) Single, Mass, Mechanical Number of Splice Trays (Max.) Single, Mass, Mechanical Cable Entrance Configuration Cable Ports Cable Sizes (Max. O.D.) Dimensions (L x D) in. (cm) 14 x 4 (34.30 x 10.16) Weight lbs. (kg) 3.0 (1.36) Ordering Information 24, n/a, n/a 1, n/a, n/a In-line / Butt 2 (3 using dual cable entry port kit) 2 @ 0.60" (for in-line splice configuration) 2 @ 0.77" (for in-line ground / bond configuration) 2 @ 0.45" (for butt splice configuration) DESCRIPTION MODEL NO. AFL NO. LG-55 Sealed Fiber Optic Splice Closure 24 fusion splice LG-55-U-0 FC000034-PS capable and includes (2) cable kits for sealing / retention, (2) Cable Grounding Kits, (1) Dual Cable Entry Port Kit and a grounding terminal. Splice tray not included. LG-55 In-line Repair Closure LG-55-IRC FC000793-PS LG-55 with Stainless Steel Hardware for Harsh Environments LG-55-U-SS FC000711 LG-55 Splice Tray Stores 24 single fusion splices and LL-2425 FC000247 includes base, cover, (3) eight-position splice holders and tie-wraps. Maximum of (1) tray in the LG-55. Dual Cable Entry Port Kit Allows two cables to enter Dual Cable Entry Port Kit FC000337 closure from each cable port. Includes one dual port cable grommet to increase the closure to four ports. Cable Grounding Kit Includes harness and hose clamp (one CGH-1 FC000003 kit required per cable entry) Cable Grounding Harness Kit Includes (4) 8" long ground harnesses constructed of #6 AWG conductor. CGH-4 FC000024 49 2002, AFL, all rights reserved. PP-2-00003, Revision 6, 10.8.12

LL-320 exterior LightLink 320 Optical Splicing and Distribution Enclosure The LightLink LL-320 Optic Splicing and Distribution Enclosure provides for organizing, splicing, and interconnecting fibers in broadband, distribution, security, sensing, and building entrance applications. The enclosure features a stainless steel welded construction and a fully gasketed cover. Two ½" CableGrip or Myer's Hub fittings securely seal cables entering the enclosure and allows for express and pre-terminated cable installation. The LL-320 contains one LL-2450 splice trays for up to 12 single fusion splices. Additional LL-2450 trays can be added. All Stainless Steel Construction CableGrip Port Fittings for Water-Tight Cable Seal Routing Rings for Fiber Management NEMA 4 Rated (IP66) 8 Position Compression Type Ground Bar Interior with armored cables installed Dimensions (L x W X D) in. (cm) 16" x 8" x 5" (40.6 x 19.6 x 12.7) Material 316 Stainless Steel Standard Configurations ½" water-tight cable ports MODEL NO. AFL NO. LL-320 FM002867 LL-320-SS with ½" CableGrip water-tight fittings FM002867 LL-320-SS-CH1 for Crouse-Hinds ST1 fitting, ½" FM002971 LL-320-SS-CH2 for Crouse-Hinds ST2 fitting, 3 /4" FM002972 LL-320-SS-CH3 for Crouse-Hinds ST3 fitting, 1" FM002962 LL-2450 Splice Tray 91957-00 NOTE: ST# Fittings are not supplied with enclosure. 50 2011, AFL, all rights reserved. PP-2-00131, Revision 2, 10.9.12

LightLink 500 Optical Splicing and Distribution Enclosure The LightLink (LL) 500 Optic Splicing and Distribution Enclosure provides for organizing, splicing and interconnecting fibers in broadband, distribution and building entrance applications. The enclosure features a scratch and corrosion resistant powder paint coating base and a fully gasketed hinged cover. A unique self-sizing grommet design allows for express and pre-terminated cable installation. The LL-500 supports up to five LL-2450 splice trays for up to 60 single fusion splices or three LL-4850 splice trays (not included in base unit) and an optional 12 fiber, hinged Interconnect Module. LL-500 with interconnect kit installed NEMA 3 rated enclosure Independent cable strain relief system Cable entry/exit grommet seals Fiber routing system Splice tray support system Hinged cover Supports optional Interconnect Modules Interconnect Module supports up to 12 SC bulkhead adapters Secured with a standard padlock 4 cable ports with standard grommets 8 cable ports with optional expansion kits Material Steel Coatings Electrostatically applied, powder coat Color Antique white Cable Ports 4-8 Cable Sizes (Max. O.D. Min. O.D.) 4 @ 0.3-0.77" LL-500 with LL-2450 splice tray installed Up to 8 with Dual Grommet Kits 4 @ 0.3-0.65" 4 @ 0.3-0.5" Dimensions (H x W x D) in. (cm) 17.5 x 9.0 x 4.0 (44.45 x 22.86 x 10.16) Weight lbs. (kg) 6.5 (2.95) Ordering Information DESCRIPTION AFL NO. LL-500-U-0 FM000326 LL-500 Interconnect Kit with SC UPC adapters FM000385 LL-500 Interconnect Kit with SC APC adapters FM000407 LL-500 Interconnect Kit without adapters FM000408 LL-500 with Multi-port Grommets FM000659 LL-2450 Single Fusion Splice Tray (stores 12 single fusion splices) 91957-00 LL-4850 Mass Fusion Splice Tray (stores 8 mass fusion sleeves - 96 fibers) 91958-00 LL-500 Multi-port Grommet Kit, 6 drop cable entry up to 0.37 OD FC000573 51 2002, AFL, all rights reserved. PP-2-00153, Revision 3, 10.9.12

LightLink Optical Entrance Enclosures The Optical Entrance Enclosures (OEE) are designed to provide a convenient splicing and interconnection location for outside plant cabling entering a Central Office (CO), Controlled Environmental Vault (CEV) or customer location. Each unit is designed to allow the entrance and management of up to 60 cables for splicing and interconnecting. Cables from termination locations and the outside plant are easily installed and managed. Access to individual fiber splices and fiber bundles are made easy by splice tray and fiber management designs. Manages multiple cable enter and exit facilities Each splice tray handles up to 48 single fusion or 144 mass fusion splices Enclosures for indoor or outdoor NEMA 3 applications Internal ground bar and pass through ground lugs Rated NEMA Type 3 Material Coatings Color Dimensions Aluminum or steel Electrostatically applied, powder coat Granite See Detail Drawings * Fiber splice trays sold separately Accessories - Shingle Kits 52 2002, AFL, all rights reserved. PP-2-00067, Revision 4, 6.23.15

LightLink Optical Entrance Enclosures Ordering Information DESCRIPTION MODEL NO. AFL NO. OPTICAL ENTRANCE ENCLOSURE OEE-288/576 911309-00-05 576 Single Fusion or 1728 Mass Fused Splice Capacity, up to 60 Cable Entry Ports Includes: (2) 6-Port Standard Shingles (Each port Accepts a 0.472-0.7089" Cable) (1) 5-Port Shingles (2 Port Accepts a 0.708-0.988" Cable, and 3 small Ports Accepting a Cable 0.236-0.473") (4) Medium Sealing and Retention Kits (each supporting a 0.472-0.708" Cable) (1) Large Sealing and Retention Kit (Each Supporting a 0.708-0.988" Cable) (3) Metallic Cable Bonding Kits (1) Wall-Mount Hardware (1) OEE Locking Key OPTICAL ENTRANCE ENCLOSURE 720 Single Fusion or 4320 Mass Fused Splice Capacity, up to 60 Cable Entry Ports Includes: (2) 6-Port Standard Shingles (Each port Accepts a 0.472-0.7089" Cable) (1) 5-Port Shingles (2 Port Accepts a 0.708-0.988" Cable, and 3 small Ports Accepting a Cable 0.236-0.473") (4) Medium Sealing and Retention Kits (each supporting a 0.472-0.708" Cable) (1) Large Sealing and Retention Kit (Each Supporting a 0.708-0.988" Cable) (3) Metallic Cable Bonding Kits (1) Wall-Mount Hardware (1) OEE Locking Key OEE-720/1440 911275-00-05 OEE 288/576 OEE 720/1440 53 2002, AFL, all rights reserved. PP-2-00067, Revision 4, 6.23.15

LightLink Optical Entrance Enclosures Accessories DESCRIPTION MODEL NO. AFL NO. OEE Fiber Splice Tray STF-48 911442-00-00 Metallic Cable Bonding Kit MBK-1 911260-00-01 Work Shelf OEE-WS 911262-00 Cable Retention and Sealing Kit Small (Accepts 0.236-0.473" O.D. Cable) CRSK236-473 911310-00-00 Cable Retention and Sealing Kit Medium (Accepts 0.472-0.708" O.D. Cable, four included with OEE) CRSK472-708 911310-01-00 Cable Retention and Sealing Kit Large (Accepts 0.708-0.988" O.D. Cable, one included with OEE) CRSK708-988 911310-02-00 Cable Retention and Sealing Kit XLarge (Accepts 0.866-1.25" O.D. Cable) CRSK866-1250 911310-03-00 Cable Retention and Sealing Kit XXLarge (Accepts 1.25-1.49" O.D. Cable) CRSK1250-1490 911310-04-00 Shingle Kit Standard, 6-Ports (Accepts Six Cables From 0.472-0.708" O.D., two included with OEE) SK-STD 911261-00-00 Shingle Kit Standard, 5-Ports SK-LS 911261-01-00 (2) Large (0.708-0.988" O.D. Cable Ports) (3) Small (0.236-0.472" O.D. Cable Ports) (One Included with OEE) Shingle Kit, Two X-Large, (2) Cable Ports (0.866-1.25" O.D.) SK-XL 911261-02-00 Shingle Kit, Two XX-Large, (2) Cable Ports (1.25-1.49" O.D.) SK-XXL 911261-03-00 Cable Bonding Kit Cable Retention and Sealing Kit Work Shelf 54 2002, AFL, all rights reserved. PP-2-00067, Revision 4, 6.23.15

LightLink Fiber Optic Splice Trays AFL s LightLink series of Fiber Optic Splice Trays offers a variety of unique and flexible splice and storage possibilities. They are available in industry standard config urations (single, mass). In-line or butt splice capability (see model descriptions) Pre-formed radiuses maintain bend requirements Interlocking base and cover provides tray stability without the use of a bolt Extended finger guides easily store and route loose fiber or ribbon Ordering Information Splice Trays for Sealed Fiber Optic Splice Closures DESCRIPTION MODEL NO. AFL NO. LG-55-U LG-150-U LG-250-U LG-350-U Single Fuse: 32 Mass Fuse: N/A 6.300" (L) x 2.730" (W) x 0.829" (H) LL-2425 FC000053 Max trays: 1 Single: 32 Mass: N/A N/A N/A N/A Single Fuse: 12 Mass Fuse: N/A 7.139" (L) x 4.294" (W) x 0.370" (H) LL-2450 91957-00 N/A Max Trays: 4 Sinlge: 48 Mass: N/A N/A N/A Single Fuse: N/A Mass Fuse: 8 (96 fiber) 7.139" (L) x 4.294" (W) x 0.370" (H) LL-4850 91958-00 N/A Max Trays: 4 Single: N/A Mass: 32 (384 fiber) N/A N/A Single Fuse: 12 Mass Fuse: 8 (96 fiber) 7.139" (L) x 4.294" (W) x 0.370" (H) LL-1248 911221-00-00 N/A Max Trays: 4 Single: 48 Mass: 48 (384 fiber) N/A N/A Single Fuse: 24 Mass Fuse: N/A 12.542" (L) x 4.042" (W) x 0.390" (H) LL-2400 91710-06 N/A N/A Max Trays: 5 Single: 120 Mass: N/A Max Trays: 13 Single: 312 Mass: N/A 55 2002, AFL, all rights reserved. PP-2-00147, Revision 7, 4.9.15

LightLink Fiber Optic Splice Trays (cont.) Ordering Information Splice Trays for Fiber Optic Enclosures DESCRIPTION MODEL NO. AFL NO. LL-500 WITH LL-500 WITHOUT LGX LL-580 2 LGX PLATES PLATES Single Fuse: N/A Mass Fuse: 12 (144 fiber) 12.000" (L) x 5.125" (W) 0.485" (H) LL-7144 FA000043 N/A N/A Max Trays: 2 Single: N/A Mass: 24 (288 fiber) Single Fuse: 60 Mass Fuse: 12 (144) 12.000" (L) x 5.125" (W) 0.485" (H) LL-7644 FA000044 N/A N/A Max Trays: 2 Single: 120 Mass: 24 (288 fiber) Single Fuse: 36 Mass Fuse: N/A 8.125" (L) x 4.875" (W) x 0.485" (H) LL-4808 L FA000021 Max Trays: 3 Single: 108 Mass: N/A Max Trays: 7 Single: 252 Mass: N/A N/A Single Fuse: N/A Mass Fuse: 12 (144 fiber) 8.125" (L) x 4.875" (W) x 0.485" (H) LL-4808 R FA000020 Max Trays: 3 Single: N/A Mass: 36 (432 fiber) Max Trays: 7 Single: N/A Mass: 84 (1008 fiber) N/A Single Fuse: 36 Mass Fuse: 12 (144 fiber) 8.125" (L) x 4.875" (W) x 0.485" (H) LL-4808L-R FA000037 Max Trays: 3 Single: 108 Mass: 36 (432 fiber) Max Trays: 7 Single: 252 Mass: 84 (1008 fiber) Max Trays: 2 Single: 72 Mass: 24 (288 fiber) 56 2002, AFL, all rights reserved. PP-2-00147, Revision 7, 4.9.15

LightLink Fiber Optic Splice Trays (cont.) Ordering Information Splice Tray for Splicing Cabinets and Shelves DESCRIPTION MODEL NO. AFL NO. Telescoping Splice Tray - Stores up to 48 single fusion sleeves or 12 mass fusion sleeves (144 fibers). For use in the following products: LL-300, LL-288/576, LL-720/1440, OTSS-SYS1, OSS-SYS2 and OSS-SYS1. STF-48 911442-00-00 FTTx Splice Tray - Stores up to 2 single fusion sleeves. For use in the following products: ONT-760XL, ONT-3000 and CG-1500 DM000445 Bare Fiber Splice Tray - Stores up 24 single fusion fibers without sleeves. For use in the following products: Any product that accepts the LL-2400 splice tray C184190 Ordering Information Splice Tray Accessories DESCRIPTION AFL NO. 40 mm Fiber Protection Fusion Splice Sleeves, Telcordia compliant (50 pcs. per bag) S000206 60 mm Fiber Protection Fusion Splice Sleeves, Telcordia compliant (50 pcs. per bag) S000065 Single Fusion Splice Chip - 6 splices per chip. (10 pcs. per kit) FA000034 Single Fusion Splice Chip - 12 splices per chip. (10 pcs. per kit) FC000657 Single Fusion Splice Chip - 24 splices per chip. (10 pcs. per kit) 91745-02 Mass Fusion Splice Chip - 4 splices per chip. (10 pcs. per kit) FA000088 Mechanical Fusion Splice Tape (10 pcs. per kit) FA000089 Core Tube Cable Fiber Router for routing fiber up to 8 directions. For all central core tube sizes. FC000008 Loose Tube or Ribbon Router for routing fiber up to 6 directions. For all Loose Tube and up to 12 fiber Ribbon. FC000070 Dimensions LL-2448 and LL-4848 Splice Trays LL-1248, LL-2450 and LL-4850 Splice Trays LL-2400 Splice Tray LL-4896 Splice Tray LL-2425 Splice Tray OEE Splice Tray Telcordia is a registered trademark of Telcordia Technologies, Inc. 57 2002, AFL, all rights reserved. PP-2-00147, Revision 7, 4.9.15

M310 Enterprise OTDR Designed for Enterprise Network Testing, Troubleshooting and Documentation Industry leading TruEvent analysis Short dead zones provide precise testing of closely spaced events Front Panel and First Connector Check Live fiber detection Inspection capable with DFS1 Digital FiberScope Integrated Source, Power Meter and VFL Multiple languages supported, see page 62 Applications Enterprise network Data Center LAN/WAN Campus and military fiber networks and more Rugged, lightweight and easy to hold, the M310 has a Touch and Test user interface that makes it easy for experts and novices to test and document fiber networks accurately and quickly. With dynamic range up to 38 db, and 16 hour battery run time, M310 provides complete Tier 1 insertion loss and Tier 2 OTDR testing. Using pre-set Industry ISO/TIA standards or user set Pass/Fail thresholds, technicians are alerted to installation problems and failures in easy-to-interpret event table. Pass/Fail event table and trace are displayed on the same screen for easy correlation. 58 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16

M310 Enterprise OTDR M310 Models and Included Adapters WAVELENGTHS (nm) DYNAMIC RANGE (db) OTDR PORT ADAPTERS OPM PORT ADAPTERS AFL BASE MODEL NO. 850 1300 1310 1550 30/30/38/37 SC, FC, ST SC, 2.5 mm Universal M310-25 30/30 SC, ST SC, 2.5 mm Universal M310-22 38/37 SC, FC SC, 2.5 mm Universal M310-20 All M310 OTDRs include a USB flash drive, AC adapter, UCI switchable test port adapters, TRM 2.0 (Basic License) and quick reference guide. For customer s convenience, AFL presents several kits options. For detailed contents of each kit, please see page 62. TruEvent The M310 s TruEvent technology is the result of extensive research into the properties of fiber optic cable events and provides a new level of event detection accuracy and reliability in field test equipment. Taking full advantage of the unit s short dead zone and adding improved event accuracy, this is the best performing OTDR for enterprise and data center applications. With the push of a single button, users can be confident of obtaining accurate locations and measurements of all events, without the confusing introduction of false events. Testing and Inspection The M310 is easy to use (Touch and Test ) and comes standard with an integrated source, power meter, visual fault locator, and inspection capability. No surprise add-on charges for these commonly needed support functions. Wave ID Source and Power Meter Enables multi-wavelength insertion loss testing with automatic wavelength synchronization, reducing test time and eliminating setup errors. Source with Tone Generation Use with Optical Fiber Identifier to reliably distinguish in-service fibers from out-of-service fibers carrying test tone. Visual Fault Locator Visibly locate far-end of specific fiber; precisely pinpoint macrobends or breaks in splice enclosures and cabinets. Advanced Analysis (AA) The AA option adds macro/microbend detection and bi-directional trace analysis to the M310 OTDR. M310s purchased with the AA option also include TRM 2.0 Advanced Analysis PC software. Macro/Microbend Macro/Microbend detection helps technicians identify installation problems. Excessive bends or stress on fibers appear as increased attenuation at higher wavelengths. These bends or stresses are indicated on the Event Table with a special icon. Bi-directional Trace Analysis Bi-directional trace analysis, used to resolve splice loss measurement errors due to fiber mismatch, takes the measurement of the loss in both directions, then calculates a two-way average to provide a more accurate loss measurement. Data storage and reporting Thousands of test results may be stored internally or on the supplied USB drive. Test results are transferable, via USB cable or USB drive, to a computer for viewing, printing, and analyzing with the supplied Windows compatible TRM 2.0 Basic Analysis and Documentation Software (Test Results Manager). The supplied TRM 2.0 Basic is licensed for installation on up to 5 PCs. 59 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16

M310 Enterprise OTDR a OTDR MULTIMODE SINGLE-MODE Emitter Type Laser Laser Safety Class Class I FDA 21 CFR 1040.10 and 1040.11; IEC 60825-1:2007-03 Class I FDA 21 CFR 1040.10 and 1040.11; IEC 60825-1:2007-03 Center Wavelengths 850/1300 nm 1310/1550 nm Wavelength Tolerance ±20/±30 nm ±20/±30 nm Launch Condition n Controlled Launch at 850 nm n N/A Live Fiber Detection m Yes Yes Dynamic Range (SNR = 1) b 30/30 db 38/37 db Event Dead Zone c 0.8 m 0.8 m Attenuation Dead Zone d 2.5/2.7 m 3.0 m Pulse Widths 5, 10, 30, 100, 300 ns, 1 µs, 5, 10, 30, 100, 300 ns, 1, 3, 10 µs, 20 µs Range Settings 250 m to 30 km 250 m to 240 km Sampling Points Up to 120,000 Up to 120,000 Minimum Data Point Spacing e 3 cm 3 cm Group Index of Refraction (GIR) 1.4000 to 1.6000 1.4000 to 1.6000 Distance Uncertainty/Accuracy f ±(1 +0.005 % x distance + data point spacing) ±(1 +0.005 % x distance + data point spacing) Linearity g ±0.05 db/db ±0.05 db/db Loss Threshold 0.02 db 0.02 db Loss Resolution 0.01 db 0.01 db Reflectance Range p, h 850 nm: -14 to -58 db (typical) 1300 nm: -14 to -63 db (typical) 1310 nm -14 to -65 db (typical) 1550 nm -14 to -65 db (typical) Reflectance Resolution 0.01 db 0.01 db Reflectance Accuracy h ±2 db ±2 db Real Time Refresh Rate j >2 Hz >2 Hz Units m, km, ft, kft, mi OTDR Modes Full Auto, Expert, Real-Time Trace File Format Bellcore GR-196 Version 1.1, Telcordia SR -4731 Issue 2 Trace File Storage Medium Internal and USB Trace File Storage Capacity >1000 internal, 1000s on USB Trace File Transfer to PC USB Notes: a. All specifications valid at 23 C ±2 C (73.4 F ±3.6 F) unless otherwise specified. b. Longest Range and Pulse Width, 3 minutes Averaging Time, normal resolution. c. Typical distance between the two points 1.5 db down each side of a reflective spike caused by a -40 db (multimode) or -45 db (single-mode) event using 10 ns pulse width. d. Typical distance from event location to point where trace is within 0.5 db of backscatter. e. Range <8 km. f. Does not include GIR uncertainty. Is based on the trace and user positioned cursors. g. Typical. h. For a non-saturated event. j. 2 km Range, 100 ns. m. Signals greater than -20 dbm MMF and -30 dbm SMF will trigger the Live Fiber Indication warning. n. Comparable to Encircled Flux loss measurement on OM4 fiber networks. p. For OM1 fiber typical Backscatter Coefficient @ 850 nm -68 db, @ 1300 nm -76 db and attenuation coefficient @850 nm 2.77 db, @1300 nm 0.52 db. For OS1-OS2 fiber typical Backscatter Coefficient @ 1310 nm -79.6 db, @1550 nm -82 db and attenuation coefficient @1300 nm 0.31 db, @1550 nm 0.18 db. 60 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16

M310 Enterprise OTDR a OLS (STANDARD) Emitter Type Laser, Class 1 (FDA 21 CFR 1040.10 and 1040.11, and IEC 60825-1:2007-03) Center Wavelengths (nm) SM 1310/1550 ±20/30 nm; MM 850/1300 ±20/30 nm Spectral Width (FWHM) 5 nm max Internal Modulation 270 Hz, 330 Hz, 1 KHz, 2 KHz, CW Wavelength ID (Single/dual) On/Off Output Power Stability b SM < ±0.1 db, MM < ±0.2 db Output Power (CW) c -3 dbm ±1.5 db OPM (STANDARD) Calibrated Wavelengths Detector Type Display Range d Accuracy @ -10 dbm Resolution Measurement Units Wavelength ID e Set Reference Data Storage Tone Detection f VFL (STANDARD) Emitter Type Safety Class Wavelength Output Power g 850, 1300, 1310, 1490, 1550, 1625, 1650 nm (displays up to 3 simultaneously) InGaAs 2 mm +6 to -70 dbm ±0.25 db 0.01 db db, dbm, mw Wave ID TM Yes Yes 270 Hz, 330 Hz, 1 khz, 2 khz Laser Class II FDA 21 CFR 1040.10 and 1040.11; IEC 825-1:1993, 60825-1:2007-03 635 nm ±20 nm 0 dbm (1 mw) GENERAL Display Type 3.5-inch transflective color, high contrast, high reflectivity (20%) for optimum indoor/outdoor viewing with touchscreen Display Resolution QVGA 240 x 320 Size (in boot) 23 x 11 x 7 cm (8.8 x 4.3 x 2.8 in) Weight <1.0 kg (< 2.0 lb) Drop Test GR-196-CORE Power Removable Li-ion or AC/DC power adapter (input 100-240 V, ~1.5 A 47-63 Hz) output 18 V DC/3.6 A (can test while charging, can operate on AC with battery removed) Battery Life h 16 hours Recharge Time i 4 hours Auto Shut Off 0-60 minutes Connectivity USB host/full speed 1.1 Operating Temperature -18 C to +50 C Storage Temperature -30 C to +60 C Relative Humidity 0 to 95 % RH (non-condensing) DFS1 DIGITAL FIBERSCOPE SUPPORT Field of View 400 x 300 µm Optical Resolution 4 µm Detection Capability 2 µm Notes: a. All specifications valid at 23 C ±2 C (73.4 F ±3.6 F) unless otherwise specified. b. Over 1 hour after 15 minute warmup of unit. c. Single-mode: SMF-2 fiber; Multimode: 50 um fiber d. Measurement Range: +3 to -65 dbm for 1300 to 1625 nm, and +3 to -60 dbm for 850 nm. e. Wavelength ID Range: +3 to -50 dbm for 1300 to 1625 nm, and +3 to -40 dbm for 850 nm. f. Tone Detect Range: +3 to -50 dbm 1300 to 1625 nm, and +3 to -40 dbm for 850 nm. g. Typical output power. h. Typical with new battery, per GR-196-Core Issue 2. i. Typical, from fully discharged to fully charged state, unit may be operating. 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16 61

M310 Enterprise OTDR Ordering Information M310 NN P 01 HC O AA Optical Configuration (NN) 25 = 850/1300 nm MM and 1310/1550 nm SM 22 = 850/1300 nm MM 20 = 1310/1550 nm SM Packaging option (P) U = Unit K = Kit Hard Case option (HC) Select (HC) only if ordering hard case Advanced Analysis option (AA) Advanced Analysis on M310 and TRM Advanced Analysis software Additional Option blank = no additional hardware 1 = DFS1 2 = DFS1 and OLS Example: M310-20K-01-HC2-AA This order is for the M310 single-mode OTDR with 1310/1550 optical configuration. It s a kit with hard case, DFS1, OLS, and advanced analysis. DFS1 and OLS are additional hardware. Below is the chart for your ordering convenience: INTEGRATED OPTION ADDITIONAL OPTION CASE OPTION AA OPTION AFL NO. a, c VFL OPM OLS DFS1 OLS HARD SOFT M310-25U-01 M310-22U-01 M310-20U-01 M310-25U-01-AA M310-20U-01-AA M310-25U-01-HC M310-22U-01-HC M310-20U-01-HC M310-25U-01-HC-AA M310-20U-01-HC-AA M310-25K-01-HC1 b M310-22K-01-HC1 b M310-20K-01-HC1 b M310-25K-01-HC1-AA b M310-20K-01-HC1-AA b OLS4 OLS2-Dual OLS1-Dual OLS4 OLS1-Dual M310-25K-01-HC2 b M310-22K-01-HC2 b M310-20K-01-HC2 b M310-25K-01-HC2-AA b M310-20K-01-HC2-AA b Notes: a. Specify Language for OTDR Quick Reference Guide: English,Chinese Simplified, Chinese Traditional,German, French, Italian, Polish, Portuguese, Spanish, Turkish and Japanese. b. When ordering, specify DFS1 model. The DFS1 Digital FiberScope kit is available as either PC/UPC inspection kit (DFS1-00-04XU model) or APC inspection kit (DFS1-004XA model). c. Specify Language for OTDR operating environment: English, Chinese (Simplified and Traditional), and Japanese. 62 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16

M310 Enterprise OTDR with Advanced Analysis Accessories, Upgrades, and Calibration Plans DESCRIPTION AFL NO. Inspection DFS1 Digital FiberScope PC/UPC inspection kit DFS-00-04XU DFS1 Digital FiberScope APC inspection kit DFS-00-04XA DFS1 Digital FiberScope kit without adapters DFS-00-04XN Fiber Rings 50/125 µm multimode, 150 m FR1-M5-150-x1-x2 a Laser Optimized, 50 µm multimode, 150 m FR1-L5-150-x1-x2 a 62.5/125 mm multimode, 150 m FR1-M6-150-x1-x2 a Single-mode, 150 m FR1-SM-150-y1-y2 a Cleaning Wet Cleaning kit for SC/FC/ST/LC connectors 8500-20-0900 Dry Cleaning kit 8500-20-0901 Basic Cleaning kit with carry case (includes One- FCP2-00-0900 Clicks, FCC2 cleaning fluid, FiberWipes, Cletop SB) Basic Cleaning kit with MPO Cleaners and carry FCP2-00-0901 case (includes One-Clicks, FCC2 cleaning fluid, FiberWipes, Cletop SB, MPO/MTP Cleaner) One-Click Cleaner SC, ST, FC (500+ cleans) 8500-05-0001MZ One-Click Cleaner LC/MU (500+ cleans) 8500-05-0002MZ One-Click Mini-100 SC, ST, FC (100+ cleans) 8500-05-0005MZ One-Click Mini-100 LC/MU (100+ cleans) 8500-05-0006MZ One-Click Cleaner Ultra 2.5 SC, ST, FC 8500-05-0007MZ (enlarged cleaning) One-Click Ultra Cleaner D-LC 8500-05-0008MZ (Duplex LC, 500 cleans x 2) MPO/MTP Cleaner (MPO-CLK-B) CS000710 Software Optional OTDR Advanced Analysis Software SOFT-00-AAS OTDR Advanced Analysis Software delivered by email SOFT-00-AAS-EML OTDR and TRM Advanced Analysis Software SOFT-00-AAPK OTDR and TRM Advanced Analysis Software SOFT-01-AAPK delivered by email DESCRIPTION AFL NO. OTDR M310 OLS software SOFT-00-OLS (for v2.2.53 and lower version) OTDR M310 OLS software SOFT-00-OLS-EML (for v2.2.53 and lower version) delivered by email Reporting software add-on TRM 2.0 Basic Software TRM-00-0900PR (OTDR Trace/OLTS Viewer, Batch Editor & Reports) TRM 2.0 Advanced Software TRM-00-0910PR (Basic TRM plus Advanced & Reports) TRM 2.0 upgrade from Basic to Advanced Software TRM-00-0920PR Calibration Plan (2 years Calibration plan) b M310-25K-HC2 CAL2-00-M310-25K-HC2 M310-22K-HC2 CAL2-00-M310-22K-HC2 M310-20K-HC2 CAL2-00-M310-20K-HC2 M310-25U-01, -HC, -HC1 CAL2-00-M310-25 M310-22U-01, -HC, -HC1 CAL2-00-M310-22 M310-20U-01, -HC, -HC1 CAL2-00-M310-20 Calibration and Warranty plan (2 years Calibration Plus plan) c M310-25K-HC2 CAL2-01-M310-25K-HC2 M310-22K-HC2 CAL2-01-M310-22K-HC2 M310-20K-HC2 CAL2-01-M310-20K-HC2 M310-25U-01, -HC, -HC1 CAL2-01-M310-25 M310-22U-01, -HC, -HC1 CAL2-01-M310-22 M310-20U-01, -HC, -HC1 CAL2-01-M310-20 Note: a. When ordering Fiber Rings, specify connector types (x1, x2, y1, y2). b. Prepaid Cal plans offer two annual calibrations at a discounted price, calibration expiration email service and express calibration. c. Cal Plus plans offer the same services as the Cal plans with the addition of a two year extended warranty (three years total coverage). International Sales and Service Contact Information Available at www.aflglobal.com/test/contacts 63 2012-2014, AFL, all rights reserved. M310-00-2000 Revision 1H, 2014-09-16

M710 Multifunction OTDR Test, Troubleshoot and Report Single-mode and Multimode Fiber Networks M710 Compact QUAD OTDR TruEvent advanced event analysis Inspection capable with DFS1 Digital FiberScope Live fiber detection prevents damage to network equipment Up to 13 hours battery life Dynamic range up to 44 db for long range testing Automatic Pass/Fail analysis Large 6.5 inch full color touchscreen display Integrated Optical Power Meter (OPM) and Visual Fault Locator (VFL) Front Panel and First Connector Check features ensures accurate measurements Applications Test and certify campus & central office networks and Distributed Antenna Systems (DAS) fiber infrastructure Tier 1 and Tier 2 testing and certification of SM and MM networks Document and create standards compliant acceptance reports with TRM 2.0, companion PC software Inspection of fiber end-faces using DFS1 Digital FiberScope Real-Time OTDR - fault location and splice verification M710 OTDR with DFS1 Digital FiberScope The M710 OTDR from AFL combines ease of use (Touch and Test ) and high performance in a rugged, large display package. With singlemode dynamic ranges up to 44 db and a MM/SM QUAD option, the M710 OTDR is ideal for testing and troubleshooting LAN/WAN, metro and long haul networks. Industry leading dead zones enhance the user s ability to locate and measure events. The M710 models utilize AFL s industry leading TruEvent technology to provide a new level of accuracy and reliability in event analysis. Touch and Test simplifies the M710 user experience, minimizes human errors and reduces training time by providing one-touch access to all OTDR test modes, OPM testing, Results Management and Job Creation menus. The M710 allows setting Pass/Fail thresholds to industry standard TIA/ISO values or user defined criteria and will automatically alert users of failing fibers. Touch and Test enables any technician to complete jobs more accurately and in less time, making it the ideal field test tool. *M710 series languages supported: English, Chinese, French, German, Italian, Polish, Portuguese, Spanish. Please specify language when ordering. 64 2015, AFL, all rights reserved. M710-00-2000 Revision 1A, 2015-01-23

M710 Multifunction OTDR a OTDR MODEL SINGLE-MODE OTDR OPTIONS QUAD OTDR OPTION Emitter Type M710-40 M710-20 M710-21 M710-24 Safety Class Class I FDA 21 CFR 1040.10 and 1040.11, IEC 60825-1: 2007-03 Center Wavelengths 1310/1550 nm 1310/1550 nm 1310/1550/1625 nm 850/1300/1310/1550 nm Wavelength Tolerance ±25/25 nm ±25/25 nm ±25/25/10 nm ±25/25/25/25 nm Dynamic Range (SNR = 1) b 44/42 db 41/39 db 41/39/39 db 25/24/40/38 db c Event Dead Zone 0.8 m d 0.8 m d 0.8 m d 0.8 m d Attenuation Dead Zone 4 m e 4 m e 4 m e 4 m e Pulse Widths 5, 10, 30, 100, 300 ns; 1, 3, 10, 20 µs Laser MM SM 5, 10, 30, 100, 300 ns; 1 µs 5, 10, 30, 100, 300 ns; 1, 3, 10, 20 µs Range Settings 250 m to 256 km MM 250 m to 64 km SM 250 m to 256 km Sampling Points Max. 64,000 points Minimum Data Point Spacing 0.125 m Group Index of Refraction (GIR) 1.4000 to 1.6000 Distance Uncertainty (m) f ±(1 + 0.0005 % x distance + data point spacing) Linearity g ±0.03 db/db ±0.05 db/db ±0.05 db/db ±0.05 db/db Loss Threshold 0.05 db Loss Resolution 0.01 db Reflectance Accuracy h ±2 db Trace File Format SR-4731 (GR-196-CORE Appendix A & B and SR-4731) Trace File Storage Media Internal flash memory USB flash drive (2 USB host ports) Downloadable from OTDR directly to PC Trace File Storage Capacity Internal 1000 fibers Data Transfer to PC USB OTDR Modes Full Auto, Real Time, Expert Tool Free Adapters SC/ST/FC/LC Notes: a. All specifications valid at 23 C ±2 C (73.4 F ±3.6 F) unless otherwise specified. b. Longest Range and Pulse Width, 3 minutes Averaging Time, Filter on, Typical. c. 62.5 µm fiber for multimode test. d. Typical distance between the two points 1.5 db down each side of an unsaturated event with reflection <-45 db for SM and <-40 db for MM using a 5 ns pulse width. e. Typical distance from event location to point where trace is within 0.5 db of backscatter caused by an unsaturated event with reflection <-45 db for SM and <-40 db for MM using a 5 ns pulse width. f. Does not include GIR uncertainty. g. Typical. h. For a non-saturated event. 65 2015, AFL, all rights reserved. M710-00-2000 Revision 1A, 2015-01-23

M710 Multifunction OTDR a POWER METER SINGLE-MODE OTDR OPTIONS QUAD OTDR OPTIONS M710-40 M710-20 M710-21 M710-24 Calibrated Wavelengths 850, 980, 1300, 1310, 1490, 1550, 1625 nm (displays up to 3 simultaneously) 850, 1300, 1310, 1490, 1550, 1625 nm (displays up to 3 simultaneously) Detector Type Filtered InGaAs detector InGaAs 2 mm Measurement Range (dbm) +26 to -50 dbm +3 to -70 dbm Accuracy b ±0.25 Measurement Units Wavelength ID c Set Reference Data Storage Tone Detection db, dbm, mw Yes Yes Yes 270 Hz, 330 Hz, 1 khz, 2 khz VISUAL FAULT LOCATOR ALL M710 OTDR MODELS Emitter Type Laser Safety Class Class II FDA 21 CFR 1040.10 and 1040.11, IEC 60825-1: 2007-03 Wavelength 635 ±20 nm Output Power (nominal) 0.8 mw GENERAL Display Anti-Reflective (AR) Coating Size Weight Operating Temperature Storage Temperature Power Battery Life d, f Recharge Time e, f ALL M710 OTDR MODELS 16.51 cm (6.5 in), color, transflective (indoor/outdoor) touch screen display Yes 190.5 x 269.2 x 69.8 mm (7.5 x 10.6 x 2.75 in) 2.36 kg ( 5.22 lb) -10 C to+50 C, 0 to 90 % RH (non-condensing) -20 C to+60 C, 0 to 90 % RH (non-condensing) Rechargeable Li-Ion or AC power adapter 13 hours continuous OTDR testing 4 hours Notes: a. All specifications valid at 25 C unless otherwise specified. b. Accuracy measured at -10 dbm per N.I.S.T. standards. c. Automatic wavelength identification and switching when used with AFL s Wave ID Series Light Sources. d. Typical, per GR-196-CORE issue 2, depending on display brightness. e. Typical, from fully discharged to fully charged state, unit may be operating. f. External battery charger available. 2015, AFL, all rights reserved. M710-00-2000 Revision 1A, 2015-01-23 66

M710 Multifunction OTDR Ordering Information The M710 OTDRs work with the DFS1 Digital FiberScope (the DFS1 includes a software update for the OTDR). The M710 models come with an integrated Visual Fault Locator (VFL, 650 nm), Optical Power Meter (OPM), and a large transflective touch screen display. Each model includes an OTDR, USB Flash drive, PC software for OTDR trace analysis and OPM loss reporting, AC adapter a, switchable test port adapters, and cleaning accessories in a soft carry case. When placing an order, select options as follows: Optical Configuration (NN), OTDR port ferrule (F), and Language (LL). Example: The model number M710-21U indicates M710 SM with UPC OTDR port ferrule, and English language option. Language option will be selected during ordering process. M710 NN F LL Optical Configuration (NN) 24 = QUAD LR (long range): 850/1300 nm MM and 1310/1550 nm SM 21 = 1310/1550/1625 nm SM 20 = 1310/1550 nm SM 40 = 1310/1550 nm SM OTDR Port Ferrule (F) U = UPC A = APC b Language (LL) c 01 = English, French, German, Italian, Polish, Portuguese, Spanish 08 = English, Traditional and Simplified Chinese Accessories Custom kits may be created by ordering an M710 OTDR model, a pre-configured accessories kit (M700 - H1) and accessories from the table below. The hard carry case has room for up to 6 Fiber Rings, test leads/jumpers, the DFS1 Digital FiberScope kit, OLS2-Dual or OLS4 optical light source, and cleaning accessories (items must be ordered separately). DESCRIPTION Pre-configured Accessories Kit Includes hard case with One-Click Cleaner SC/ST/FC (2.5 mm), One-Click Cleaner LC/MU (1.25 mm), and CleanConnect 500 Hard carry case,m7x0/c SERIES,W/FOAM DFS1 Digital FiberScope PC/UPC Inspection Kit DFS1 Digital FiberScope APC Inspection Kit DFS1 USB Digital Fiber Inspection Kit without Adapters OLS2-Dual laser light source with Wave ID, 1310/1550 nm OLS4 integrated LED and laser light source with Wave ID, 850/1300/1310/1550 nm Fiber Ring, standard, 1 fiber, 50/125 µm multimode, 150 m Fiber Ring, standard, 1 fiber, Laser Optimized, 50 µm multimode, 150 m Fiber Ring, standard, 1 fiber, 62.5/125 µm multimode, 150 m Fiber Ring, standard, 1 fiber, single-mode, 150 m Zippered Jumper Carry Case All types of fiber optic cleaning supplies are available. Visit www.aflglobal.com/cleaning or call factory for details. AFL NO. M700 - H1 1400-01-0090PZ DFS1-00-04XU DFS1-00-04XA DFS1-00-04XN OLS2-Dual OLS4 FR1-M5-150-x1-x2 d FR1-L5-150-x1-x2 d FR1-M6-150-x1-x2 d FR1-SM-150-x1-x2 d 1400-01-0086PZ Notes: a. Specify power cord type (country) when ordering an OTDR. One power cord is included with each AC adapter at no charge. b. Available on the SM port for -20, -21, -24 models only. c. When ordering OTDR, indicate language preference for the OTDR Quick Reference Guide. d. When ordering Fiber Rings, specify connector types (x1, x2). International Sales and Service Contact Information Available at www.aflglobal.com/test/contacts 67 2015, AFL, all rights reserved. M710-00-2000 Revision 1A, 2015-01-23

www.aflglobal.com CAT-01014 7.21.2015