Product Catalog. Lightning Protection UL Listed product range

Product Catalog Lightning Protection UL Listed product range

Lightning Protection Furse UL Listed product range Introduction Conductors Air termination Through roof connectors Cable connectors, clamps & accessories Grounding & bonding Exothermic welding 1 2 3 4 5 6 7 Technical reference 8 Furse UL Listed lightning protection product range 9AKK106354A3360 1/1

Introduction Furse UL Listed product range 1 Introducing a new range of Furse lightning protection products, ideal for the US, Canada, and other UL regulated markets. With a heritage greater than 100 years, the Furse brand is highly recognised as a leader in the fields of lightning protection, and grounding of lightning protection & power systems. For many years now, Furse products have been specified and installed into a significant number of lightning protection and grounding projects worldwide, including many iconic buildings. From 1998 to 2012, Furse formed part of the Thomas & Betts Corporation s successful portfolio of electrical brands, managed from our headquarters in Memphis, Tennessee. In 2012, the Thomas & Betts Corporation became part of ABB, a major global business operating in the fields of power and automation. From this new business unit of ABB, our core electrical product brands continue to be promoted to our key markets, with a focus on providing high quality solutions in the arenas of connectivity & grounding, cable protection systems, wire & cable management and life safety solutions. Now, through continued innovation and development of our brands, we are delighted to bring to the market a new range of Furse UL Listed lightning protection products. This new range sits alongside our already established Blackburn, Color-Keyed and Homac brands in the US, and further reinforces the Furse solutions available in other markets. It ensures our ability to meet the needs of specifiers, consultants and contractors working on UL and NFPA projects for lightning protection and grounding, across the globe. Additionally, the launch of this new range provides continued assurance of our commitment to deliver high quality, branded and certified products to our customers. Product sales form only a part of the Furse offer, however. We believe supporting our customers further, with project consultation, provision of technical drawings as appropriate, and guidance on standards, is equally important. Sales are therefore fully supported by our technical engineering team and product application specialists.these specialists have over 100 years accumulated knowledge of designing and developing lightning protection solutions to all recognised standards, including NFPA 780 and UL 96A. So, for customers seeking a world-leading solution to lightning protection, look no further than Furse. 1/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Introduction Furse UL Listed product range 1 Why is lightning protection so important? How best can you assess the need for lightning protection, and achieve an effective solution? Lightning is one of nature s most powerful and destructive phenomena. Lightning contains awesome amounts of electrical energy. Lightning discharges have been measured from several thousand to over 200,000 Amps (enough to light half a million 100 Watt bulbs) and even though of a very short duration, can cause tremendous damage and destruction. Lightning strikes, or even electrical discharges from nearby lightning, can cause fires, explosions, chemical release or mechanical disruption within or around a building. Step and touch voltages generated from a lightning strike can cause injury, or even loss of life, to humans (and animals) in the close vicinity. Critical services, such as mains power and telecoms etc., can be heavily disrupted by lightning strikes, resulting in major potential losses. Offices risk physical damage to servers and PCs, as well as loss of key data; factories risk machinery downtime and repair costs along with health and safety hazard to personnel. Clearly, lightning inflicted damage could have enormous implications for a company, in terms of both human and financial cost. In the worst case scenario, a company might even go out of business as a result of lightning damage. Protecting against these potentially severe consequences is therefore becoming a vital consideration for many commercial, industrial and public service institutions. Generally, the first consideration when protecting against lightning is to assess the need for a structural lightning protection system - the function of this system being to intercept, conduct and disperse a lightning strike safely to ground. In the US and other UL regulated markets, the design and implementation of such systems is regulated by standards UL 96A and NFPA 780, with products conforming to UL 96. Design of a structural lightning protection system however can prove a complex process, and it is here where technical support and advice can prove most beneficial. The final design drives component selection, and identifies the conductors required, the air terminals and their bases, the necessary grounding and equipotential bonding. It is these products which are listed in this catalog, and are made available to provide a comprehensive solution to structural lightning protection. Additional products, for surge protection, or grounding products to UL 467, are also separately available. Furse UL Listed lightning protection product range 9AKK106354A3360 1/3

Introduction Supporting you to make the right choices 1 Complex regulations and standards on lightning protection and grounding can often lead to confusion and misinterpretation. We re here to help. Lightning protection is a progressive industry underpinned by an adherence to national and international standards, which determine both the design and implementation of systems, and the control of product quality. These national and international standards are regularly updated making it important to keep abreast of latest developments, as well as to be aware of current design and installation techniques. Given the complexity of these standards however, unfortunately it is not unusual for confusion and misinterpretation to lead to project delays, budget overruns and costly extra time on site. We recognise these risks, and therefore the need to support our product line sales with relevant information and technical expertise, geared to best help our customers decide the right route forward regarding lightning protection. This support includes training seminars on lightning protection or grounding, through to full system design. Our technical engineering team actively participates in the development of national and international standards, and offers the ideal starting point for customers confronted by the challenges presented by complex lightning protection, or grounding, projects. Our engineers can provide advice and assistance on all aspects of lightning protection and grounding systems, including: Structural lightning protection system design Grounding system design Supply of comprehensive drawings Using the latest CAD software we can produce detailed or budgetary designs, in compliance with NFPA, UL and IEEE standards, whatever the complexity of system required. Structural lightning protection design In order for us to design a structural lightning protection system, we would need the following information: Design standard, e.g. NFPA 780, IEC/BS EN 62305 A dimensioned roof plan & external elevations Construction details, e.g. steelwork, reinforced concrete, roofing materials, etc. 1/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Introduction Supporting you to make the right choices Power system grounding design There are a number of recognised national and international standards governing the provision of grounding systems. Our technical experience allows us to provide designs to any of these standards. To design a grounding system, we need the following information: Design standard, e.g. Ansi IEEE Std 80, BS 7430, BS EN 50522 etc. A dimensioned site plan Overall electrical single line diagram Soil resistivity survey results Ground fault current magnitude (due consideration should be given to the proportion of current flowing through cable sheaths or the aerial ground wires of overhead transmission lines) Ground fault current duration The benefits of our design services There are many benefits to coming to us for lightning protection system, or grounding system, design: Specialist advice from a fully qualified technical team, which focuses solely on lightning protection and grounding Active contribution to National and International standards ensuring we remain at the forefront of new developments Designs that comply with all relevant standards Our responsibility for providing a design that is safe Experience and the software to provide an optimum design, that doesn t use more material than is necessary Manufacturing experience & expertise - utilising our knowledge of the products available to provide a design that can be installed using the most appropriate products 1 In addition, we can provide full grounding analysis using stateof-the-art technology to determine the step and touch voltages, ground potential rise and hot/cold site classification of the site generated by the initial design. For illustration purposes only Furse UL Listed lightning protection product range 9AKK106354A3360 1/5

Introduction Furse is in your market 1 We recognise that many of our customers have diverse interests across multiple markets, and have structured our product line to meet your market needs. Commercial construction Landmark commercial projects Financial services institutions Convention & exhibition centres Office blocks Stock exchanges & trade centres Commercial centres, showrooms & retail units 1 Commercial construction 2 Sports & recreation 3 Utilities 4 Government & public sector 5 High tech & industrial 6 Rail & infrastructure 7 Residential 8 Oil & gas/petrochemical 9 Cultural & heritage 3 8 3 2 9 4 7 3 3 3 High tech & industrial Pharmaceutical factories High-tech manufacturing & semiconductor plants Telecoms stations, exchanges & transmission towers IT Parks & technoparks Heavy industry Rail & infrastructure National railways City metro & light rail systems Airports & airport terminal expansions Subsea tunnels Residential High rise residential towers & apartment blocks Condominiums Housing development projects 1/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Introduction Furse is in your market Sports & recreation Utilities Government & public sector 1 Hotels & resorts Sports facilities & training grounds Theatres & opera houses Shopping malls Power stations (coal, gas, hydro-power, wind) Electricity substations Overhead transmission lines Waste water treatment facilities Desalination plants Central government buildings Embassies & official residences Local authority premises Police stations Hospitals & healthcare facilities Technical colleges & universities 3 8 7 3 5 3 1 2 4 5 6 7 9 6 Oil & gas / petrochemical Offshore platforms & oil fields Gas & oil refineries Pipelines Petrochemical processing Cultural & heritage Historical sites Mosques, churches & cathedrals National libraries Monuments Essentially, we re in your market, and can provide a solution for lightning protection specific to your needs. Your regional representative for Furse Lightning Protection solutions can advise you today on how selection from our product line can best support you. Furse UL Listed lightning protection product range 9AKK106354A3360 1/7

2 2/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Conductors Main size lightning protection conductors Aluminum ropelay lightning protection conductor 2/2 Copper ropelay lightning protection conductor 2/2 Secondary bonding conductors Aluminum secondary bonding conductor 2/3 Copper secondary bonding conductor 2/3 2 Furse UL Listed lightning protection product range 9AKK106354A3360 2/1

Conductors Main size lightning protection conductors 2 Aluminum ropelay lightning protection conductor Approx. weight per 1,000 ft Part no. Class No.of strands Strand size Approx. dia. ( ) Approx. area (cmil) Reel size (ft) AC24-14 I 24 14 AWG 0.4375 102,000 500 100 60 AC37R-13 II 37 13 AWG 0.5938 195,000 500 195 113 Approx. reel weight Ropelay conductor manufactured from high quality aluminum. Other reel lengths available to order. Class I aluminum minimum requirements, cross-sectional area 98,600 circular mils with strand size of 14 AWG and weight of 95 lb per 1,000 ft Class II aluminum minimum requirements, cross-sectional area 192,000 circular mils with strand size of 13 AWG and weight of 190 lb per 1,000 ft Copper ropelay lightning protection conductor Approx. weight per 1,000 ft Part no. Class No.of strands Strand size Approx. dia. ( ) Approx. area (cmil) Reel size (ft) CC29-17 I 29 16 AWG 0.3750 73,000 500 205 113 CC32-17 I 32 16 AWG 0.4063 80,000 500 215 118 CC28-15 II 28 14 AWG 0.4688 118,000 250 380 105 TCC29-17* I 29 16 AWG 0.3750 73,000 500 205 113 TCC32-17* I 32 16 AWG 0.4063 80,000 500 215 118 TCC28-15* II 28 14 AWG 0.4688 118,000 250 380 105 Approx. reel weight * Denotes tin electroplated copper conductor. Ropelay conductor manufactured from high quality copper. Other reel lengths available to order. Class I copper minimum requirements, cross-sectional area 57,400 circular mils with strand size of 17 AWG and weight of 187 lb per 1,000 ft Class II copper minimum requirements, cross-sectional area 115,000 circular mils with strand size of 15 AWG and weight of 375 lb per 1,000 ft 2/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Conductors Secondary bonding conductors Aluminum secondary bonding conductor Approx. weight per 1,000 ft Part no. Type No.of strands Strand size ( ) Approx. dia. ( ) Approx. area (cmil) Reel size (ft) SCS10 Concentric 10 0.0650 0.2280 42,200 500 41 31 SCA1 Solid 1 0.2044 0.2044 41,740 500 40 30 Secondary bonding conductor manufactured from high quality aluminum. Other reel lengths available to order. Minimum requirements for stranded secondary bonding conductor, 10 AWG with an individual strand size of 0.064 Minimum requirements for solid secondary bonding conductor, 0.204 diameter Approx. reel weight 2 Copper secondary bonding conductor Approx. weight per 1,000 ft Part no. Type No.of strands Strand size ( ) Approx. dia. ( ) Approx. area (cmil) Reel size (ft) SCC14 Smooth weave 14 0.0460 0.2360 29,600 500 92 56 SCC1 Solid 1 0.1620 0.1620 26,240 500 80 51 TSCC14* Smooth weave 14 0.0460 0.2360 29,600 500 92 56 TSCC1* Solid 1 0.1620 0.1620 26,240 500 80 51 Approx. reel weight * Denotes tin electroplated copper conductor. Secondary bonding conductor manufactured from high quality copper. Other reel lengths available to order. Minimum requirements for stranded secondary bonding conductor, 14 AWG with an individual strand size of 0.045 Minimum requirements for solid secondary bonding conductor, 0.162 diameter Furse UL Listed lightning protection product range 9AKK106354A3360 2/3

3 3/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminals and extensions Aluminum air terminal 3/2 Aluminum air terminal extension rod 3/2 Copper air terminal 3/3 Copper air terminal extension rod 3/4 Air terminal safety tips Air terminal safety tip 3/5 3 Air terminal supports Air terminal support/tripod 3/6 Air terminal adapters Air terminal straight adapter 3/6 Air terminal swivel adapter - female to female 3/7 Air terminal swivel adapter - female to male 3/7 Air terminal flexible adapter - female to female 3/8 Air terminal flexible adapter - female to male 3/8 Air terminal bases Air terminal TKU base 3/9 Air terminal universal base 3/10 Air terminal concealed universal base 3/10 Air terminal vertical in-line base 3/11 Air terminal concealed vertical in-line base 3/11 Air terminal ridge mount base 3/12 Air terminal standing seam base 3/12 Air terminal bond point base 3/13 Air terminal pipe railing base 1/2 to 1 3/13 Air terminal pipe railing base 1 1/2 to 2 3/14 Air terminal pipe railing base 2 1/2 to 3 1/2 3/14 Air terminal pipe railing base 4 to 5 3/15 Air terminal pipe railing base 6 3/15 Furse UL Listed lightning protection product range 9AKK106354A3360 3/1

Air termination Aluminum air terminals & extension rods Aluminum air terminal 3 Part no. Diameter ( ) Length ( ) Class Material ATA1212 1/2 12 I Aluminum 0.24 10 ATA1216 1/2 16 I Aluminum 0.32 10 ATA1218 1/2 18 I Aluminum 0.36 10 ATA1224 1/2 24 I Aluminum 0.48 10 ATA1236 1/2 36 I Aluminum 0.72 10 ATA1248 1/2 48 I Aluminum 0.95 10 ATA5812 5/8 12 II Aluminum 0.37 10 ATA5816 5/8 16 II Aluminum 0.49 10 ATA5818 5/8 18 II Aluminum 0.56 10 ATA5824 5/8 24 II Aluminum 0.74 10 ATA5836 5/8 36 II Aluminum 1.11 10 ATA5848 5/8 48 II Aluminum 1.48 10 Manufactured from high quality aluminum, these air terminals provide the initial preferential strike point for lightning. Class I air terminals are used on structures up to and including 75 in height. Class II air terminals are used on structures exceeding 75 in height. Air terminals have blunt tips and standard UNC threads For Class I installations, aluminum air terminals shall be minimum 1/2 diameter For Class II installations, aluminum air terminals shall be minimum 5/8 diameter Longer lengths are available. Please contact us for details. Alternatively, combine air terminals with adapters and extension rods (sold separately) to achieve longer lengths Aluminum air terminal extension rod Part no. Diameter ( ) Length ( ) Class Material ATEA1212 1/2 12 I Aluminum 0.24 10 ATEA1216 1/2 16 I Aluminum 0.32 10 ATEA1218 1/2 18 I Aluminum 0.36 10 ATEA1224 1/2 24 I Aluminum 0.48 10 ATEA1236 1/2 36 I Aluminum 0.72 10 ATEA1248 1/2 48 I Aluminum 0.95 10 ATEA5812 5/8 12 II Aluminum 0.37 10 ATEA5816 5/8 16 II Aluminum 0.49 10 ATEA5818 5/8 18 II Aluminum 0.56 10 ATEA5824 5/8 24 II Aluminum 0.74 10 ATEA5836 5/8 36 II Aluminum 1.11 10 ATEA5848 5/8 48 II Aluminum 1.48 10 Manufactured from high quality aluminum, these air terminal extension rods enable air terminals to be extended to the required heights of the lightning protection system. Air terminal extension rods include standard UNC threads Connect to an air terminal via an appropriately sized and threaded adapter (sold separately) to achieve final air terminal length Longer lengths are available. Please contact us for details 3/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Copper air terminals Copper air terminal Part no. Diameter ( ) Length ( ) Class Material ATC3812 3/8 12 I Copper 0.42 10 ATC3816 3/8 16 I Copper 0.57 10 ATC3818 3/8 18 I Copper 0.64 10 ATC3824 3/8 24 I Copper 0.85 10 ATC3836 3/8 36 I Copper 1.27 10 ATC3848 3/8 48 I Copper 1.69 10 ATC1212 1/2 12 II Copper 0.77 10 ATC1216 1/2 16 II Copper 1.02 10 ATC1218 1/2 18 II Copper 1.15 10 ATC1224 1/2 24 II Copper 1.53 10 ATC1236 1/2 36 II Copper 2.30 10 ATC1248 1/2 48 II Copper 3.07 10 ATC5812 5/8 12 II Copper 1.19 10 ATC5816 5/8 16 II Copper 1.59 10 ATC5818 5/8 18 II Copper 1.79 10 ATC5824 5/8 24 II Copper 2.38 10 ATC5836 5/8 36 II Copper 3.57 10 ATC5848 5/8 48 II Copper 4.76 10 ATC3812T 3/8 12 I Tinned copper 0.42 10 ATC3816T 3/8 16 I Tinned copper 0.57 10 ATC3818T 3/8 18 I Tinned copper 0.64 10 ATC3824T 3/8 24 I Tinned copper 0.85 10 ATC3836T 3/8 36 I Tinned copper 1.27 10 ATC3848T 3/8 48 I Tinned copper 1.69 10 ATC1212T 1/2 12 II Tinned copper 0.77 10 ATC1216T 1/2 16 II Tinned copper 1.02 10 ATC1218T 1/2 18 II Tinned copper 1.15 10 ATC1224T 1/2 24 II Tinned copper 1.53 10 ATC1236T 1/2 36 II Tinned copper 2.30 10 ATC1248T 1/2 48 II Tinned copper 3.07 10 ATC5812T 5/8 12 II Tinned copper 1.19 10 ATC5816T 5/8 16 II Tinned copper 1.59 10 ATC5818T 5/8 18 II Tinned copper 1.79 10 ATC5824T 5/8 24 II Tinned copper 2.38 10 ATC5836T 5/8 36 II Tinned copper 3.57 10 ATC5848T 5/8 48 II Tinned copper 4.76 10 Manufactured from high quality copper alloy 110, either bare or tin electroplated, these air terminals provide the initial preferential strike point for lightning. Class I air terminals are used on structures up to and including 75 in height. Class II air terminals are used on structures exceeding 75 in height. Air terminals have blunt tips and standard UNC threads For Class I installations, copper air terminals shall be minimum 3/8 diameter For Class II installations, copper air terminals shall be minimum 1/2 diameter Also available in nickel plated copper alloy. Please contact us for further information Longer lengths are available. Please contact us for details. Alternatively, combine air terminals with adapters and extension rods (sold separately) to achieve longer lengths 3 Furse UL Listed lightning protection product range 9AKK106354A3360 3/3

Air termination Copper air terminal extension rods Copper air terminal extension rod 3 Part no. Diameter ( ) Length ( ) Class Material ATEC3812 3/8 12 I Copper 0.42 10 ATEC3816 3/8 16 I Copper 0.57 10 ATEC3818 3/8 18 I Copper 0.64 10 ATEC3824 3/8 24 I Copper 0.85 10 ATEC3836 3/8 36 I Copper 1.27 10 ATEC3848 3/8 48 I Copper 1.69 10 ATEC3812T 3/8 12 I Tinned copper 0.42 10 ATEC3816T 3/8 16 I Tinned copper 0.57 10 ATEC3818T 3/8 18 I Tinned copper 0.64 10 ATEC3824T 3/8 24 I Tinned copper 0.85 10 ATEC3836T 3/8 36 I Tinned copper 1.27 10 ATEC3848T 3/8 48 I Tinned copper 1.69 10 ATEC1212 1/2 12 II Copper 0.77 10 ATEC1216 1/2 16 II Copper 1.02 10 ATEC1218 1/2 18 II Copper 1.15 10 ATEC1224 1/2 24 II Copper 1.53 10 ATEC1236 1/2 36 II Copper 2.30 10 ATEC1248 1/2 48 II Copper 3.07 10 ATEC5812 5/8 12 II Copper 1.19 10 ATEC5816 5/8 16 II Copper 1.59 10 ATEC5818 5/8 18 II Copper 1.79 10 ATEC5824 5/8 24 II Copper 2.38 10 ATEC5836 5/8 36 II Copper 3.57 10 ATEC5848 5/8 48 II Copper 4.76 10 ATEC1212T 1/2 12 II Tinned copper 0.77 10 ATEC1216T 1/2 16 II Tinned copper 1.02 10 ATEC1218T 1/2 18 II Tinned copper 1.15 10 ATEC1224T 1/2 24 II Tinned copper 1.53 10 ATEC1236T 1/2 36 II Tinned copper 2.30 10 ATEC1248T 1/2 48 II Tinned copper 3.07 10 ATEC5812T 5/8 12 II Tinned copper 1.19 10 ATEC5816T 5/8 16 II Tinned copper 1.59 10 ATEC5818T 5/8 18 II Tinned copper 1.79 10 ATEC5824T 5/8 24 II Tinned copper 2.38 10 ATEC5836T 5/8 36 II Tinned copper 3.57 10 ATEC5848T 5/8 48 II Tinned copper 4.76 10 Manufactured from high quality copper alloy 110, bare or tin electroplated, these air terminal extension rods enable air terminals to be extended to the required heights of the lightning protection system. Air terminal extension rods include standard UNC threads Connect to an air terminal via an appropriately sized and threaded adapter (sold separately) to achieve longer lengths Also available in nickel plated copper alloy. Please contact us for further information Longer lengths are available. Please contact us for details 3/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminal safety tips Air terminal safety tip Part no. Air terminal diameter ( ) Class Air terminal material For connection to blunt tipped air terminal (tapered fit) STBA12 1/2 I Aluminum 0.06 10 STBA58 5/8 II Aluminum 0.06 10 STBC38 3/8 I Copper 0.19 10 STBC12 1/2 I & II Copper 0.19 10 STBC58 5/8 II Copper 0.19 10 STBT38 3/8 I Tinned copper 0.19 10 STBT12 1/2 I & II Tinned copper 0.19 10 STBT58 5/8 II Tinned copper 0.19 10 For connection to air terminal extension (threaded fit) STTBA12 1/2 I Aluminum 0.06 10 STTBA58 5/8 II Aluminum 0.06 10 STTBC38 3/8 I Copper 0.19 10 STTBC12 1/2 I & II Copper 0.19 10 STTBC58 5/8 II Copper 0.19 10 STTBT38 3/8 I Tinned copper 0.19 10 STTBT12 1/2 I & II Tinned copper 0.19 10 STTBT58 5/8 II Tinned copper 0.19 10 Manufactured from high quality copper alloy or aluminum alloy, these air terminal safety tips are suitable for use on the tip of a blunt air terminal (tapered fit), or with an air terminal extension rod (threaded fit) to protect personnel working at grade from injury following an accidental fall. Threaded air terminal safety tips have standard UNC threads Also available in nickel plated copper alloy. Please contact us for further information 3 Furse UL Listed lightning protection product range 9AKK106354A3360 3/5

Air termination Air terminal supports & straight adapters Tripod 3 Part no. Base fixing Tripod height ( ) Air terminal height ( ) ATS18 Screw hole mounting base 18 24 1.25 10 ATS24 Screw hole mounting base 24 36 1.65 10 ATS36 Screw hole mounting base 36 60 2.05 10 ATS48 Screw hole mounting base 48 72 2.25 10 ATS18A Adhesive mounting base 18 24 1.30 10 ATS24A Adhesive mounting base 24 36 1.70 10 ATS36A Adhesive mounting base 36 60 2.10 10 ATS48A Adhesive mounting base 48 72 2.30 10 Manufactured from galvanised steel, these air terminal tripods are designed to provide the necessary support to air terminals exceeding 24 in height, in accordance with UL 96. Available with 3/16 holes for anchoring, or adhesive feet for mounting on roof types which cannot be penetrated Larger sizes (60 to 96 ) available to order, please contact us for details Air terminal straight adapter Part no. Thread diameter ( ) Material ATCOA1258FF 1/2 Female to 5/8 female Aluminum 0.05 10 ATCOA1212FF 1/2 Female to 1/2 female Aluminum 0.05 10 ATCOA5858FF 5/8 Female to 5/8 female Aluminum 0.05 10 ATCOC3838FF 3/8 Female to 3/8 female Copper 0.16 10 ATCOC3812FF 3/8 Female to 1/2 female Copper 0.16 10 ATCOC1212FF 1/2 Female to 1/2 female Copper 0.16 10 ATCOC1258FF 1/2 Female to 5/8 female Copper 0.16 10 ATCOC5858FF 5/8 Female to 5/8 female Copper 0.16 10 ATCOC3838FF-T 3/8 Female to 3/8 female Tinned copper 0.16 10 ATCOC3812FF-T 3/8 Female to 1/2 female Tinned copper 0.16 10 ATCOC1212FF-T 1/2 Female to 1/2 female Tinned copper 0.16 10 ATCOC1258FF-T 1/2 Female to 5/8 female Tinned copper 0.16 10 ATCOC5858FF-T 5/8 Female to 5/8 female Tinned copper 0.16 10 Manufactured from high quality copper or aluminum alloy, these straight adapters enable the coupling of extension rods and air terminals to achieve a longer air terminal to the required height of the lightning protection system. Straight adapters include standard UNC threads Also available in nickel plated copper alloy. Please contact us for further information 3/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Swivel adapters Air terminal swivel adapter, female to female Part no. Thread diameter ( ) Material ATSWA1212FF 1/2 Female to 1/2 female Aluminum alloy 0.13 10 ATSWA1258FF 1/2 Female to 5/8 female Aluminum alloy 0.12 10 ATSWA5858FF 5/8 Female to 5/8 female Aluminum alloy 0.11 10 ATSWC3838FF 3/8 Female to 3/8 female Copper alloy 0.35 10 ATSWC3812FF 3/8 Female to 1/2 female Copper alloy 0.34 10 ATSCW3858FF 3/8 Female to 5/8 female Copper alloy 0.33 10 ATSWC1212FF 1/2 Female to 1/2 female Copper alloy 0.33 10 ATSWC1258FF 1/2 Female to 5/8 female Copper alloy 0.32 10 ATSWC5858FF 5/8 Female to 5/8 female Copper alloy 0.31 10 ATSWC3838FF-T 3/8 Female to 3/8 female Tinned copper alloy 0.35 10 ATSWC3812FF-T 3/8 Female to 1/2 female Tinned copper alloy 0.34 10 ATSCW3858FF-T 3/8 Female to 5/8 female Tinned copper alloy 0.33 10 ATSWC1212FF-T 1/2 Female to 1/2 female Tinned copper alloy 0.33 10 ATSWC1258FF-T 1/2 Female to 5/8 female Tinned copper alloy 0.32 10 ATSWC5858FF-T 5/8 Female to 5/8 female Tinned copper alloy 0.31 10 Manufactured from high quality copper or aluminum alloy, these swivel adapters enable the air terminals to be aligned to vertical on sloped roofs. All swivel adapters have standard UNC threads. Female to female swivel adapters enable connection of air terminals to extension rods Also available in nickel plated copper alloy. Please contact us for further information 3 Air terminal swivel adapter, female to male Part no. Thread diameter ( ) Material ATSWA1212FM 1/2 Female to 1/2 male Aluminum alloy 0.18 10 ATSWA5858FM 5/8 Female to 5/8 male Aluminum alloy 0.18 10 ATSWC3838FM 3/8 Female to 3/8 male Copper alloy 0.43 10 ATSWC1212FM 1/2 Female to 1/2 male Copper alloy 0.43 10 ATSWC5858FM 5/8 Female to 5/8 male Copper alloy 0.43 10 ATSWC3838FM-T 3/8 Female to 3/8 male Tinned copper alloy 0.43 10 ATSWC1212FM-T 1/2 Female to 1/2 male Tinned copper alloy 0.43 10 ATSWC5858FM-T 5/8 Female to 5/8 male Tinned copper alloy 0.43 10 Manufactured from high quality copper or aluminum alloy, these swivel adapters enable air terminals to be aligned to vertical on sloped roofs. All swivel adapters have standard UNC threads. Female to male swivel adapters enable connection of air terminals to air terminal bases Also available in nickel plated copper alloy. Please contact us for further information Furse UL Listed lightning protection product range 9AKK106354A3360 3/7

Air termination Flexible adapters Air terminal flexible adapter, female to female 3 Part no. Thread diameter ( ) Material ATFA1212FF 1/2 Female to 1/2 female Aluminum alloy 0.30 10 ATFA1258FF 1/2 Female to 5/8 female Aluminum alloy 0.30 10 ATFA5812FF 5/8 Female to 1/2 female Aluminum alloy 0.30 10 ATFA5858FF 5/8 Female to 5/8 female Aluminum alloy 0.30 10 ATFC1212FF 1/2 Female to 1/2 female Copper alloy 0.47 10 ATFC1258FF 1/2 Female to 5/8 female Copper alloy 0.47 10 ATFC5812FF 5/8 Female to 1/2 female Copper alloy 0.47 10 ATFC5858FF 5/8 Female to 5/8 female Copper alloy 0.47 10 ATFC1212FF-T 1/2 Female to 1/2 female Tinned copper alloy 0.47 10 ATFC1258FF-T 1/2 Female to 5/8 female Tinned copper alloy 0.47 10 ATFC5812FF-T 5/8 Female to 1/2 female Tinned copper alloy 0.47 10 ATFC5858FF-T 5/8 Female to 5/8 female Tinned copper alloy 0.47 10 Manufactured from high quality copper or aluminum alloy with stainless steel spring, these flexible adapters enable air terminals to be positioned beneath window washing or other mobile equipment, to allow for temporary adjustment. All flexible adapters have standard UNC threads. Female to female flexible adapters enable connection of air terminals to extension rods Air terminal flexible adapter, female to male Part no. Thread diameter ( ) Material ATFA1212FM 1/2 Female to 1/2 male Aluminum alloy 0.33 10 ATFA5812FM 5/8 Female to 1/2 male Aluminum alloy 0.33 10 ATFC1212FM 1/2 Female to 1/2 male Copper alloy 0.66 10 ATFC1258FM 1/2 Female to 5/8 male Copper alloy 0.66 10 ATFC5812FM 5/8 Female to 1/2 male Copper alloy 0.66 10 ATFC1212FM-T 1/2 Female to 1/2 male Tinned copper alloy 0.66 10 ATFC5812FM-T 5/8 Female to 1/2 male Tinned copper alloy 0.66 10 Manufactured from high quality copper or aluminum alloy with stainless steel spring, these flexible adapters enable air terminals to be positioned beneath window washing or other mobile equipment, to allow for temporary adjustment. All flexible adapters have standard UNC threads. Female to male flexible adapters enable connection of air terminals to air terminal bases 3/8 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminal bases Air terminal TKU base Part no. Air terminal diameter ( ) Material ATTKUBA12 1/2 Aluminum alloy 0.39 10 ATTKUBA58 5/8 Aluminum alloy 0.39 10 ATTKUBC38 3/8 Copper alloy 1.07 10 ATTKUBC12 1/2 Copper alloy 1.07 10 ATTKUBC58 5/8 Copper alloy 1.07 10 ATTKUBC38T 3/8 Tinned copper alloy 1.07 10 ATTKUBC12T 1/2 Tinned copper alloy 1.07 10 ATTKUBC58T 5/8 Tinned copper alloy 1.07 10 Manufactured from high quality copper alloy or aluminum alloy, these TKU air terminal bases can be mounted horizontally or vertically to secure an air terminal to a roof or wall, and include an innovative feature permitting adjustment to vertical on uneven surfaces. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes 4 x 1/4 drilled holes for connection to masonry or roof lines using self-tapping screws, nails or adhesive Also available in nickel plated copper alloy. Please contact us for further information 3 Furse UL Listed lightning protection product range 9AKK106354A3360 3/9

Air termination Air terminal bases Air terminal universal base 3 Part no. Air terminal diameter ( ) Material ATUBA12 1/2 Aluminum alloy 0.28 10 ATUBA58 5/8 Aluminum alloy 0.28 10 ATUBC38 3/8 Copper alloy 0.88 10 ATUBC12 1/2 Copper alloy 0.87 10 ATUBC58 5/8 Copper alloy 0.87 10 ATUBC38T 3/8 Tinned copper alloy 0.88 10 ATUBC12T 1/2 Tinned copper alloy 0.87 10 ATUBC58T 5/8 Tinned copper alloy 0.87 10 Manufactured from high quality copper alloy or aluminum alloy, these universal air terminal bases can be mounted horizontally or vertically to secure an air terminal to a roof or wall. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes 8 x 1/4 drilled holes for connection to masonry or roof lines using self-tapping screws, nails or adhesive Also available in nickel plated copper alloy. Please contact us for further information Air terminal concealed universal base Part no. Riser bar length ( ) Material ATCBA6 6 Aluminum alloy 0.62 10 ATCBA12 12 Aluminum alloy 0.89 10 ATCBA18 18 Aluminum alloy 1.16 10 ATCBC6 6 Copper alloy 1.22 10 ATCBC12 12 Copper alloy 1.49 10 ATCBC18 18 Copper alloy 1.77 10 ATCBC6T 6 Tinned copper alloy 1.22 10 ATCBC12T 12 Tinned copper alloy 1.49 10 ATCBC18T 18 Tinned copper alloy 1.77 10 Manufactured from high quality copper alloy or aluminum alloy, these air terminal concealed universal bases include a universal base with connection to a 1/2 diameter stainless steel riser bar. Additional fixings of 1/2 stainless steel hex nut and flat washer, plus sealing washer enable tightening to the roof. The design enables fixing of the air terminal base within a roof void, where the air terminal is connected above the roof (via an adapter sold separately). The base can be mounted horizontally on flat surfaces or vertically on roof trusses etc. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes 8 x 1/4 drilled holes for connection to masonry, metalwork or woodwork Base also available in nickel plated copper alloy. Please contact us for further information 3/10 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminal bases Air terminal vertical in-line base Part no. Air terminal diameter ( ) Material ATIBA12 1/2 Aluminum alloy 0.16 20 ATIBA58 5/8 Aluminum alloy 0.16 20 ATIBC38 3/8 Copper alloy 0.42 20 ATIBC12 1/2 Copper alloy 0.42 20 ATIBC58 5/8 Copper alloy 0.42 20 ATIBC38T 3/8 Tinned copper alloy 0.42 20 ATIBC12T 1/2 Tinned copper alloy 0.42 20 ATIBC58T 5/8 Tinned copper alloy 0.42 20 Manufactured from high quality copper alloy or aluminum alloy, these air terminal vertical in-line bases enable an air terminal to be mounted vertically to a wall or parapet etc., with connection to the conductor beneath. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes 2 stainless steel setscrews to grip the conductor and ensure a good electrical connection Also available in nickel plated copper alloy. Please contact us for further information 3 Air terminal concealed vertical in-line base Part no. Riser bar length ( ) Material ATCIBA6 6 Aluminum alloy 0.55 10 ATCIBA12 12 Aluminum alloy 0.82 10 ATCIBA18 18 Aluminum alloy 1.09 10 ATCIBC6 6 Copper alloy 0.78 10 ATCIBC12 12 Copper alloy 1.05 10 ATCIBC18 18 Copper alloy 1.32 10 ATCIBC6T 6 Tinned copper alloy 0.78 10 ATCIBC12T 12 Tinned copper alloy 1.05 10 ATCIBC18T 18 Tinned copper alloy 1.32 10 Manufactured from high conductivity brass or aluminum alloy, these concealed air terminal bases include a vertical in-line base with connection to a 1/2 diameter stainless steel riser bar. Additional fixings of 1/2 stainless steel hex nut and flat washer, plus sealing washer enable tightening to the roof. The design enables fixing of the air terminal base to conductor within the roof void, where the air terminal is connected above the roof (via an adapter sold separately). Suitable for use with all Class I and Class II main size lightning protection conductors in our range Also available in nickel plated copper alloy. Please contact us for further information Furse UL Listed lightning protection product range 9AKK106354A3360 3/11

Air termination Air terminal bases Air terminal ridge mount base 3 Part no. Air terminal diameter ( ) Material ATRBA12 1/2 Aluminum alloy 0.38 10 ATRBA58 5/8 Aluminum alloy 0.38 10 ATRBC38 3/8 Copper alloy 0.75 10 ATRBC12 1/2 Copper alloy 0.74 10 ATRBC58 5/8 Copper alloy 0.74 10 ATRBC38T 3/8 Tinned copper alloy 0.75 10 ATRBC12T 1/2 Tinned copper alloy 0.74 10 ATRBC58T 5/8 Tinned copper alloy 0.74 10 Manufactured from high quality brass or aluminum alloy, these air terminal ridge mounting bases are designed for effective mounting of an air terminal above a ridged roof. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Malleable metal strap design enables easy fixing to most common ridge types and slopes Also available in nickel plated copper alloy. Please contact us for further information Air terminal standing seam base Part no. Air terminal diameter ( ) Material ATSSBA12 1/2 Aluminum alloy 0.50 10 ATSSBA58 5/8 Aluminum alloy 0.50 10 ATSSBC38 3/8 Copper alloy 1.17 10 ATSSBC12 1/2 Copper alloy 1.17 10 ATSSBC58 5/8 Copper alloy 1.17 10 ATSSBC38T 3/8 Tinned copper alloy 1.17 10 ATSSBC12T 1/2 Tinned copper alloy 1.17 10 ATSSBC58T 5/8 Tinned copper alloy 1.17 10 Manufactured from high quality copper alloy or aluminum alloy, these air terminal standing seam bases are designed for effective mounting of an air terminal above a standing seam roof up to 1 width. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes 2 x 5/16 setscrews for holding the base to the standing seam roof Ensures 1 1/2 connection to conductor Design permits conductor to run parallel or perpendicular to the standing seam Also available in nickel plated copper alloy. Please contact us for further information 3/12 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminal bases Air terminal bond point base Part no. Air terminal diameter ( ) Material ATHBBA12 1/2 Aluminum alloy 0.12 10 ATHBBA58 5/8 Aluminum alloy 0.12 10 ATHBBC38 3/8 Copper alloy 0.39 10 ATHBBC12 1/2 Copper alloy 0.39 10 ATHBBC58 5/8 Copper alloy 0.39 10 ATHBBT38 3/8 Tinned copper alloy 0.39 10 ATHBBT12 1/2 Tinned copper alloy 0.39 10 ATHBBT58 5/8 Tinned copper alloy 0.39 10 Manufactured from high quality cast copper alloy or aluminum alloy, these bond point bases are suitable for securing an air terminal via screws, bolts or welding, directly to metalwork. Designed with over 8 square inches contact area, for use with metalwork which will form the conductive path for lightning current Includes 2 x 5/16 and 4 x 3/16 drilled holes for connection to metalwork Also available in nickel plated copper alloy. Please contact us for further information 3 Air terminal pipe railing base, 1/2" to 1 Part no. Air terminal diameter ( ) Material ATPCA12-12 1/2 Aluminum alloy 0.35 10 ATPCA12-58 5/8 Aluminum alloy 0.35 10 ATPCC12-38 3/8 Copper alloy 0.72 10 ATPCC12-12 1/2 Copper alloy 0.71 10 ATPCC12-58 5/8 Copper alloy 0.71 10 ATPCT12-38 3/8 Tinned copper alloy 0.72 10 ATPCT12-12 1/2 Tinned copper alloy 0.71 10 ATPCT12-58 5/8 Tinned copper alloy 0.71 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe railing bases are suitable for securing an air terminal to a pipe with nominal diameter 1/2 to 1. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes stainless steel U-bolt, 5/16 hex nuts and washers Furse UL Listed lightning protection product range 9AKK106354A3360 3/13

Air termination Air terminal bases Air terminal pipe railing base, 1 1/2 to 2 3 Part no. Air terminal diameter ( ) Material ATPCA112-12 1/2 Aluminum alloy 0.40 10 ATPCA112-58 5/8 Aluminum alloy 0.40 10 ATPCC112-38 3/8 Copper alloy 0.94 10 ATPCC112-12 1/2 Copper alloy 0.93 10 ATPCC112-58 5/8 Copper alloy 0.93 10 ATPCT112-38 3/8 Tinned copper alloy 0.94 10 ATPCT112-12 1/2 Tinned copper alloy 0.93 10 ATPCT112-58 5/8 Tinned copper alloy 0.93 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe railing bases are suitable for securing an air terminal to a pipe with nominal diameter 1 1/2 to 2. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes stainless steel U-bolt, 5/16 hex nuts and washers Air terminal pipe railing base, 2 1/2 to 3 1/2 Part no. Air terminal diameter ( ) Material ATPCA212-12 1/2 Aluminum alloy 0.52 10 ATPCA212-58 5/8 Aluminum alloy 0.52 10 ATPCC212-38 3/8 Copper alloy 1.34 10 ATPCC212-12 1/2 Copper alloy 1.33 10 ATPCC212-58 5/8 Copper alloy 1.33 10 ATPCT212-38 3/8 Tinned copper alloy 1.34 10 ATPCT212-12 1/2 Tinned copper alloy 1.33 10 ATPCT212-58 5/8 Tinned copper alloy 1.33 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe railing bases are suitable for securing an air terminal to a pipe with nominal diameter 2 1/2 to 3 1/2. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes stainless steel U-bolt, 5/16 hex nuts and washers 3/14 Furse UL Listed lightning protection product range 9AKK106354A3360

Air termination Air terminal bases Air terminal pipe railing base, 4 to 5 Part no. Air terminal diameter ( ) Material ATPCA4-12 1/2 Aluminum alloy 0.62 10 ATPCA4-58 5/8 Aluminum alloy 0.62 10 ATPCC4-38 3/8 Copper alloy 1.73 10 ATPCC4-12 1/2 Copper alloy 1.72 10 ATPCC4-58 5/8 Copper alloy 1.72 10 ATPCT4-38 3/8 Tinned copper alloy 1.73 10 ATPCT4-12 1/2 Tinned copper alloy 1.72 10 ATPCT4-58 5/8 Tinned copper alloy 1.72 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe railing bases are suitable for securing an air terminal to a pipe with nominal diameter 4 to 5. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes stainless steel U-bolt, 5/16 hex nuts and washers 3 Air terminal pipe railing base, 6 Part no. Air terminal diameter ( ) Material ATPCA6-12 1/2 Aluminum alloy 0.69 10 ATPCA6-58 5/8 Aluminum alloy 0.69 10 ATPCC6-38 3/8 Copper alloy 2.05 10 ATPCC6-12 1/2 Copper alloy 2.04 10 ATPCC6-58 5/8 Copper alloy 2.04 10 ATPCT6-38 3/8 Tinned copper alloy 2.05 10 ATPCT6-12 1/2 Tinned copper alloy 2.04 10 ATPCT6-58 5/8 Tinned copper alloy 2.04 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe railing bases are suitable for securing an air terminal to a pipe with nominal diameter 6. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes stainless steel U-bolt, 5/16 hex nuts and washers Furse UL Listed lightning protection product range 9AKK106354A3360 3/15

4 4/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Through roof connectors Through roof connectors Conduit cap through roof connector 4/2 Horizontal through roof connector with PVC conduit 4/3 Vertical through roof connector with PVC conduit 4/4 Horizontal through roof connector 4/5 Vertical through roof connector 4/6 Through wall connector 4/7 Through roof conduit top connector 4/8 Through roof horizontal base connector 4/8 Through roof vertical base plate 4/9 4 Furse UL Listed lightning protection product range 9AKK106354A3360 4/1

Through roof connectors Conduit cap through roof connectors Conduit cap through roof connector 4 Part no. PVC conduit diameter ( ) Top connector material Base connector material Unit weight TRLA1 1 Aluminum alloy Aluminum alloy 0.74 10 TRLC1 1 Copper alloy Copper alloy 1.90 10 TRLB1 1 Aluminum alloy Copper alloy 1.00 10 TRLT1 1 Tinned copper alloy Tinned copper alloy 1.90 10 TRLA114 1 1/4 Aluminum alloy Aluminum alloy 0.68 10 TRLC114 1 1/4 Copper alloy Copper alloy 1.70 10 TRLB114 1 1/4 Aluminum alloy Copper alloy 0.94 10 TRLT114 1 1/4 Tinned copper alloy Tinned copper alloy 1.70 10 Manufactured from high quality copper alloy or aluminum alloy, and stainless steel allthread riser bar, these conduit cap through roof connectors offer a low profile conductive, sealed connection between air termination conductor and down conductor installed within conduit. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Variants achieve connection to pre-installed 1 or 1 1/4 nominal bore PVC conduit Provides a weatherproof connection through the roof, with sealing O ring to the PVC conduit Bimetallic options enable connection of aluminum air termination conductor to copper down conductor 4/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Through roof connectors Horizontal through roof connectors with PVC conduit Horizontal through roof connector with PVC conduit Part no. PVC conduit diameter ( ) Nominal riser bar length ( ) Top connector material Base connector material Unit weight TRPHA1-12 1 12 Aluminum alloy Aluminum alloy 1.60 5 TRPHC1-12 1 12 Copper alloy Copper alloy 2.95 5 TRPHB1-12 1 12 Aluminum alloy Copper alloy 2.05 5 TRPHT1-12 1 12 Tinned copper alloy Tinned copper alloy 2.95 5 TRPHA1-18 1 18 Aluminum alloy Aluminum alloy 2.04 5 TRPHC1-18 1 18 Copper alloy Copper alloy 3.40 5 TRPHB1-18 1 18 Aluminum alloy Copper alloy 2.49 5 TRPHT1-18 1 18 Tinned copper alloy Tinned copper alloy 3.40 5 TRPHA1-24 1 24 Aluminum alloy Aluminum alloy 2.48 5 TRPHC1-24 1 24 Copper alloy Copper alloy 3.84 5 TRPHB1-24 1 24 Aluminum alloy Copper alloy 2.94 5 TRPHT1-24 1 24 Tinned copper alloy Tinned copper alloy 3.84 5 TRPHA1-36 1 36 Aluminum alloy Aluminum alloy 3.37 5 TRPHC1-36 1 36 Copper alloy Copper alloy 4.73 5 TRPHB1-36 1 36 Aluminum alloy Copper alloy 3.83 5 TRPHT1-36 1 36 Tinned copper alloy Tinned copper alloy 4.73 5 TRPHA114-12 1 1/4 12 Aluminum alloy Aluminum alloy 1.75 5 TRPHC114-12 1 1/4 12 Copper alloy Copper alloy 2.97 5 TRPHB114-12 1 1/4 12 Aluminum alloy Copper alloy 2.21 5 TRPHT114-12 1 1/4 12 Tinned copper alloy Tinned copper alloy 2.97 5 TRPHA114-18 1 1/4 18 Aluminum alloy Aluminum alloy 2.31 5 TRPHC114-18 1 1/4 18 Copper alloy Copper alloy 3.53 5 TRPHB114-18 1 1/4 18 Aluminum alloy Copper alloy 2.76 5 TRPHT114-18 1 1/4 18 Tinned copper alloy Tinned copper alloy 3.53 5 TRPHA114-24 1 1/4 24 Aluminum alloy Aluminum alloy 2.86 5 TRPHC114-24 1 1/4 24 Copper alloy Copper alloy 4.08 5 TRPHB114-24 1 1/4 24 Aluminum alloy Copper alloy 3.31 5 TRPHT114-24 1 1/4 24 Tinned copper alloy Tinned copper alloy 4.08 5 TRPHA114-36 1 1/4 36 Aluminum alloy Aluminum alloy 3.96 5 TRPHC114-36 1 1/4 36 Copper alloy Copper alloy 5.18 5 TRPHB114-36 1 1/4 36 Aluminum alloy Copper alloy 4.42 5 TRPHT114-36 1 1/4 36 Tinned copper alloy Tinned copper alloy 5.18 5 Manufactured from high quality copper alloy or aluminum alloy, electrical grade PVC conduit and stainless steel allthread riser bar, these horizontal through roof connectors offer a secure, conductive, sealed connection between air termination conductor and down conductor installed horizontally under the roof. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Variants available with 1 and 1 1/4 nominal bore electrical grade PVC conduit Provides a weatherproof connection through the roof, with a sealing O ring to the conduit Bimetallic options enable connection of aluminum air termination conductor to copper down conductor 4 Furse UL Listed lightning protection product range 9AKK106354A3360 4/3

Through roof connectors Vertical through roof connectors with PVC conduit Vertical through roof connector with PVC conduit 4 Part no. PVC conduit diameter ( ) Nominal riser bar length ( ) Top connector material Base connector material Unit weight TRPVA1-12 1 12 Aluminum alloy Aluminum alloy 1.60 5 TRPVC1-12 1 12 Copper alloy Copper alloy 2.92 5 TRPVB1-12 1 12 Aluminum alloy Copper alloy 1.86 5 TRPVT1-12 1 12 Tinned copper alloy Tinned copper alloy 2.92 5 TRPVA1-18 1 18 Aluminum alloy Aluminum alloy 2.05 5 TRPVC1-18 1 18 Copper alloy Copper alloy 3.36 5 TRPVB1-18 1 18 Aluminum alloy Copper alloy 2.31 5 TRPVT1-18 1 18 Tinned copper alloy Tinned copper alloy 3.36 5 TRPVA1-24 1 24 Aluminum alloy Aluminum alloy 2.49 5 TRPVC1-24 1 24 Copper alloy Copper alloy 3.80 5 TRPVB1-24 1 24 Aluminum alloy Copper alloy 2.75 5 TRPVT1-24 1 24 Tinned copper alloy Tinned copper alloy 3.80 5 TRPVA1-36 1 36 Aluminum alloy Aluminum alloy 3.38 5 TRPVC1-36 1 36 Copper alloy Copper alloy 4.69 5 TRPVB1-36 1 36 Aluminum alloy Copper alloy 3.64 5 TRPVT1-36 1 36 Tinned copper alloy Tinned copper alloy 4.69 5 TRPVA114-12 1 1/4 12 Aluminum alloy Aluminum alloy 1.75 5 TRPVC114-12 1 1/4 12 Copper alloy Copper alloy 2.93 5 TRPVB114-12 1 1/4 12 Aluminum alloy Copper alloy 2.01 5 TRPVT114-12 1 1/4 12 Tinned copper alloy Tinned copper alloy 2.93 5 TRPVA114-18 1 1/4 18 Aluminum alloy Aluminum alloy 2.31 5 TRPVC114-18 1 1/4 18 Copper alloy Copper alloy 3.48 5 TRPVB114-18 1 1/4 18 Aluminum alloy Copper alloy 2.57 5 TRPVT114-18 1 1/4 18 Tinned copper alloy Tinned copper alloy 3.48 5 TRPVA114-24 1 1/4 24 Aluminum alloy Aluminum alloy 2.86 5 TRPVC114-24 1 1/4 24 Copper alloy Copper alloy 4.04 5 TRPVB114-24 1 1/4 24 Aluminum alloy Copper alloy 3.12 5 TRPVT114-24 1 1/4 24 Tinned copper alloy Tinned copper alloy 4.04 5 TRPVA114-36 1 1/4 36 Aluminum alloy Aluminum alloy 3.96 5 TRPVC114-36 1 1/4 36 Copper alloy Copper alloy 5.14 5 TRPVB114-36 1 1/4 36 Aluminum alloy Copper alloy 4.22 5 TRPVT114-36 1 1/4 36 Tinned copper alloy Tinned copper alloy 5.14 5 Manufactured from high quality copper alloy or aluminum alloy, electrical grade PVC conduit and stainless steel allthread riser bar, these vertical through roof connectors offer a secure, conductive, sealed connection between air termination conductor and down conductor installed vertically under the roof. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Variants available with 1 and 1 1/4 nominal bore electrical grade PVC conduit Provides a weatherproof connection through the roof, with a sealing O ring to the conduit Bimetallic options enable connection of aluminum air termination conductor to copper down conductor 4/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Through roof connectors Horizontal through roof connectors Horizontal through roof connector Part no. Riser bar length ( ) Top connector material Base connector material Unit weight TRHA6 6 Aluminum alloy Aluminum alloy 0.88 5 TRHC6 6 Copper alloy Copper alloy 1.92 5 TRHB6 6 Aluminum alloy Copper alloy 1.47 5 TRHT6 6 Tinned copper alloy Tinned copper alloy 1.92 5 TRHA12 12 Aluminum alloy Aluminum alloy 1.15 5 TRHC12 12 Copper alloy Copper alloy 2.19 5 TRHB12 12 Aluminum alloy Copper alloy 1.74 5 TRHT12 12 Tinned copper alloy Tinned copper alloy 2.19 5 TRHA18 18 Aluminum alloy Aluminum alloy 1.42 5 TRHC18 18 Copper alloy Copper alloy 2.46 5 TRHB18 18 Aluminum alloy Copper alloy 2.01 5 TRHT18 18 Tinned copper alloy Tinned copper alloy 2.46 5 TRHA24 24 Aluminum alloy Aluminum alloy 1.69 5 TRHC24 24 Copper alloy Copper alloy 2.73 5 TRHB24 24 Aluminum alloy Copper alloy 2.28 5 TRHT24 24 Tinned copper alloy Tinned copper alloy 2.73 5 TRHA36 36 Aluminum alloy Aluminum alloy 2.23 5 TRHC36 36 Copper alloy Copper alloy 3.27 5 TRHB36 36 Aluminum alloy Copper alloy 2.82 5 TRHT36 36 Tinned copper alloy Tinned copper alloy 3.27 5 Manufactured from high quality copper alloy or aluminum alloy, and stainless steel allthread riser bar, these horizontal through roof connectors offer a secure, conductive, sealed connection between air termination conductor and down conductor installed horizontally in the roof void. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Provides a weatherproof connection through the roof, utilizing a 1/2 sealing washer Bimetallic options enable connection of aluminum air termination conductor to copper down conductor 4 Furse UL Listed lightning protection product range 9AKK106354A3360 4/5

Through roof connectors Vertical through roof connectors Vertical through roof connector 4 Part no. Riser bar length ( ) Top connector material Base connector material Unit weight TRVA6 6 Aluminum alloy Aluminum alloy 0.76 5 TRVC6 6 Copper alloy Copper alloy 1.49 5 TRVB6 6 Aluminum alloy Copper alloy 1.04 5 TRVT6 6 Tinned copper alloy Tinned copper alloy 1.49 5 TRVA12 12 Aluminum alloy Aluminum alloy 1.05 5 TRVC12 12 Copper alloy Copper alloy 1.76 5 TRVB12 12 Aluminum alloy Copper alloy 1.31 5 TRVT12 12 Tinned copper alloy Tinned copper alloy 1.76 5 TRVA18 18 Aluminum alloy Aluminum alloy 1.32 5 TRVC18 18 Copper alloy Copper alloy 2.03 5 TRVB18 18 Aluminum alloy Copper alloy 1.58 5 TRVT18 18 Tinned copper alloy Tinned copper alloy 2.03 5 TRVA24 24 Aluminum alloy Aluminum alloy 1.59 5 TRVC24 24 Copper alloy Copper alloy 2.30 5 TRVB24 24 Aluminum alloy Copper alloy 2.16 5 TRVT24 24 Tinned copper alloy Tinned copper alloy 2.30 5 TRVA36 36 Aluminum alloy Aluminum alloy 2.13 5 TRVC36 36 Copper alloy Copper alloy 2.84 5 TRVB36 36 Aluminum alloy Copper alloy 2.39 5 TRVT36 36 Tinned copper alloy Tinned copper alloy 2.84 5 Manufactured from high quality copper alloy or aluminum alloy, and stainless steel allthread riser bar, these vertical through roof connectors offer a secure, conductive, sealed connection between air termination conductor and down conductor installed vertically under the roof. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Provides a weatherproof connection through the roof, utilizing 1/2 sealing washers Bimetallic options enable connection of aluminum air termination conductor to copper down conductor 4/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Through roof connectors Through wall connectors Through wall connector Part no. Riser bar length ( ) Outside connector material Inside connector material Unit weight TRWA6 6 Aluminum alloy Aluminum alloy 0.85 5 TRWC6 6 Copper alloy Copper alloy 1.75 5 TRWB6 6 Aluminum alloy Copper alloy 1.30 5 TRWT6 6 Tinned copper alloy Tinned copper alloy 1.75 5 TRWA12 12 Aluminum alloy Aluminum alloy 1.12 5 TRWC12 12 Copper alloy Copper alloy 2.02 5 TRWB12 12 Aluminum alloy Copper alloy 1.57 5 TRWT12 12 Tinned copper alloy Tinned copper alloy 2.02 5 TRWA18 18 Aluminum alloy Aluminum alloy 1.39 5 TRWC18 18 Copper alloy Copper alloy 2.29 5 TRWB18 18 Aluminum alloy Copper alloy 1.84 5 TRWT18 18 Tinned copper alloy Tinned copper alloy 2.29 5 TRWA24 24 Aluminum alloy Aluminum alloy 1.66 5 TRWC24 24 Copper alloy Copper alloy 2.56 5 TRWB24 24 Aluminum alloy Copper alloy 2.11 5 TRWT24 24 Tinned copper alloy Tinned copper alloy 2.56 5 Manufactured from high quality copper alloy or aluminum alloy, and stainless steel allthread riser bar, these through wall connectors offer a secure, conductive, sealed connection between exterior and interior down conductors. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Provides a weatherproof connection through walls, utilizing 1/2 sealing washers Bimetallic options enable connection of aluminum to copper down conductor 4 Furse UL Listed lightning protection product range 9AKK106354A3360 4/7

Through roof connectors Through roof connector accessories Through roof conduit top connector 4 Part no. PVC conduit nominal bore ( ) Material TRPA1 1 Aluminum alloy 0.42 10 TRPC1 1 Copper alloy 1.32 10 TRPT1 1 Tinned copper alloy 1.32 10 TRPA114 1 1/4 Aluminum alloy 0.36 10 TRPC114 1 1/4 Copper alloy 1.13 10 TRPT114 1 1/4 Tinned copper alloy 1.13 10 Manufactured from high quality copper alloy or aluminum alloy, these through roof conduit top connectors provide a secure, conductive, sealed connection to either 1 or 1 1/4 nominal bore PVC conduit and 1/2 stainless steel allthread riser bar. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Provides a weatherproof connection, with a sealing O ring Through roof horizontal base connector Part no. Material MCBPA1 Aluminum alloy 0.24 10 MCBPC1 Copper alloy 0.69 10 MCBPT1 Tinned copper alloy 0.69 10 Manufactured from high quality copper alloy or aluminum alloy, these through roof horizontal base connectors provide a secure, conductive connection to the base of either 1 or 1 1/4 nominal bore PVC conduit and 1/2 stainless steel allthread riser bar. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Provides over 8 square inches of contact surface area, where used as a bonding plate 4/8 Furse UL Listed lightning protection product range 9AKK106354A3360

Through roof connectors Through roof connector accessories Through roof vertical base plate Part no. Material MCBPA2 Aluminum alloy 0.07 10 MCBPC2 Copper alloy 0.22 10 MCBPT2 Tinned copper alloy 0.22 10 Manufactured from high quality copper alloy or aluminum alloy, these through roof vertical base plates provide a secure connection to the base of either 1 or 1 1/4 nominal bore PVC conduit. Connects directly to 1/2 stainless steel allthread riser bar 4 Furse UL Listed lightning protection product range 9AKK106354A3360 4/9

5 5/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Cable connectors Adhesive cable fastener 5/2 One hole cable clip 5/2 Straight cable splicer 5/3 Bimetallic splicer 5/3 Cable clamps Cross run clamp 5/4 Cable tee clamp 5/4 Parallel cable clamp 5/5 Flange bonding clamp 5/5 Standing seam clamp 5/6 Accessories Sheet metal screw 5/7 Expansion anchor 5/7 TEKS screw 5/7 Hex head setscrew 5/8 Hex nut 5/8 Flat washer 5/8 Waterproof sealing washer 5/8 Ringed nail 5/9 Common nail 5/9 Allthread riser bar 5/10 M1 structural sealant 5/11 Sikaflex 1A sealant 5/11 Carlisle pourable sealer 5/12 Firestone pourable sealer 5/12 Denso tape 5/13 Oxide inhibiting compound 5/13 Insulating tape 5/14 Conductor guard 5/14 5 Furse UL Listed lightning protection product range 9AKK106354A3360 5/1

Cable connectors, clamps & accessories Cable fasteners Adhesive cable fastener Part no. Material ACFA Aluminum alloy 0.06 250 ACFC Copper alloy 0.10 250 ACFC-T Tinned copper alloy 0.10 250 Manufactured from high quality stamped copper alloy or aluminum alloy, these adhesive cable fasteners are ideal for fast, secure connection of lightning protection conductor to a flat surface, through use of a surface compatible adhesive. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Includes turned up edges to reduce risk of puncture to the roof, and for increased adhesion Also available in nickel plated copper alloy. Please contact us for further information 5 One hole cable clip Part no. Material Cable size ACL1 Aluminum alloy 10 Strand 0.01 250 ACL2 Aluminum alloy 24 & 28 Strand 0.01 250 ACL4 Aluminum alloy 37 Strand 0.01 250 CCL1 Copper alloy 14 Strand 0.02 250 CCL2 Copper alloy 29 & 32 Strand 0.02 250 CCL3 Copper alloy 24 & 28 Strand 0.02 250 CCL4 Copper alloy 28 Strand 0.875 0.03 250 CCLT1 Tinned copper alloy 14 Strand 0.02 250 CCLT2 Tinned copper alloy 29 & 32 Strand 0.02 250 CCLT3 Tinned copper alloy 24 & 28 Strand 0.02 250 CCLT4 Tinned copper alloy 28 Strand 0.875 0.03 250 Manufactured from high quality copper alloy or aluminum alloy, these one hole cable clips are designed to enable conductors to be secured to the structure through the use of appropriate fixings (sold separately). Suitable for use with all Class I and Class II main size lightning protection conductors, and stranded secondary bonding conductors in our range 5/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Cable splicers Straight cable splicer Part no. Material SCSA Aluminum alloy 0.17 20 SCSC Copper alloy 0.34 20 Manufactured from high quality brass or aluminum alloy, these straight cable splicers are designed to offer secure, straight connection between main size lightning protection conductors. Approximately 4 in length, with 4 x 5/16 setscrews for gripping the conductor Ensures 1 1/2 connection to conductor Suitable for use with all Class I and Class II main size lightning protection conductors in our range 5 Bimetallic cable splicer Part no. Material SCSB Aluminum alloy to copper alloy 0.30 20 Manufactured from high quality brass and aluminum alloy, the bimetallic cable splicer is designed to enable secure connection of aluminum main size lightning protection conductor to copper main size lightning protection conductor, without the risk of galvanic corrosion. Approximately 4 in length with two 5/16 setscrews to grip each conductor Ensures 1 1/2 connection to each conductor Suitable for use with all Class I and Class II main size lightning protection conductors in our range Furse UL Listed lightning protection product range 9AKK106354A3360 5/3

Cable connectors, clamps & accessories Cross run & tee clamps Cross run clamp 5 Part no. Material CTCA Aluminum alloy 0.18 10 CTCC Copper alloy 0.36 10 CTCB Bimetallic Aluminum alloy & copper alloy 0.30 10 CTCT Tinned copper alloy 0.36 10 Manufactured from high quality copper alloy or aluminum alloy, these cross run clamps enable cross connection of main size lightning protection conductor. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Bimetallic option includes a stainless steel separating plate to remove risk of galvanic corrosion Bimetallic version not as illustrated. Contact us for details Cable tee clamp Part no. Material CTCTA Aluminum alloy 0.17 10 CTCTC Copper alloy 0.39 10 CTCTT Tinned copper alloy 0.39 10 Manufactured from high quality copper alloy or aluminum alloy, these cable tee clamps are designed to enable tee connection of main size lightning protection conductor. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor 5/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Parallel & flange bonding clamps Parallel cable clamp Part no. Material PCCA Aluminum alloy 0.09 300 PCCC Copper alloy 0.20 150 PCCB Bimetallic aluminum alloy & copper alloy 0.18 150 PCCT Tinned copper alloy 0.20 150 Manufactured from high quality brass or aluminum alloy, these parallel cable clamps enable straight connection of two main size lightning protection conductors. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Bimetallic option includes a stainless steel separating plate to remove risk of galvanic corrosion 5 Flange bonding clamp Part no. Material SSCA Aluminum alloy 0.14 10 SSCC Copper alloy 0.31 10 SSCT Tinned copper alloy 0.31 10 Manufactured from high quality copper alloy or aluminum alloy, these flange bonding clamps are designed to secure main size lightning protection conductor to flat metalwork up to 1/2 thick, such as small I-beams, ladders and channel or cable tray etc. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Furse UL Listed lightning protection product range 9AKK106354A3360 5/5

Cable connectors, clamps & accessories Standing seam clamps Standing seam clamp for vertical seams Part no. Material SSRC-V Stainless steel 0.15 50 Manufactured from stainless steel grade 18-8, this standing seam clamp is suitable for connecting main size lightning protection conductor to a vertical standing seam roof, via use of a one hole cable clip (sold separately). Designed to fit to vertical standing seam roofs up to 1/2 in width Includes 5/16 setscrew for tightening to the roof Includes 1/4 cross head screw for fixing one hole cable clip and conductor (both sold separately) to the clamp 5 Standing seam clamp for circular and horizontal seams Part no. Material SSRC-C Stainless steel 0.14 50 SSRC-L Stainless steel 0.09 50 Manufactured from stainless steel grade 18-8, these standing seam clamps are suitable for connecting main size lightning protection conductor to a horizontal or circular standing seam roof, via use of a one hole cable clip (sold separately). Designed to fit to circular or horizontal standing seam roofs up to 1 in width SSRC-C designed for circular standing seams SSRC-L designed for horizontal standing seams Includes 5/16 setscrew(s) for tightening to the roof Includes 1/4 cross head screw for fixing one hole cable clip and conductor (both sold separately) to the clamp 5/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Accessories Sheet metal screw Approx. box weight Part no. Description per 100 291 12 x 1 Long 100 1.00 Stainless steel pan head sheet metal screw Used for fastening cable loops and/or bonding terminals to thin sheet metal surfaces Expansion anchor Part no. Description Approx. box weight per 100 280 1/4 x 1 Long 100 2.00 281 1/4 x 1 1/2 Long 100 2.75 Fast, easy to use, one piece expansion anchor Includes stainless steel pin and Zamac #7 body for corrosion resistant installation Requires a 1/4 diameter mounting hole 5 TEKS screw Approx. box weight Part no. Description per 100 295 TEKS/3 100 0.75 No. 12-14 x 3/4 long stainless steel TEKS/3 self-drilling and threading screw General purpose size fastening screw Drilling capacity approximately 7/32 TEKS screw Approx. box weight Part no. Description per 100 296 TEKS/5 100 1.25 No. 12-14 x 1 1/4 long stainless steel TEKS/5 self-drilling and threading screw Drilling capacity approximately 1/2 Can be used on heavy structural steel members Ideal for installing bonding plates Furse UL Listed lightning protection product range 9AKK106354A3360 5/7

Cable connectors, clamps & accessories Accessories Hex head setscrew Part no. Description Approx. box weight per 100 CS54S Stainless steel 5/16-18 x 1/2" Long 100 0.25 CS57S Stainless steel 5/16-18 x 7/8" Long 100 3.00 CS58S Stainless steel 5/16-18 x 1" Long 100 3.25 5 Hex nut Part no. Description Approx. box weight per 100 N420S Stainless steel 1/4-20 100 1.00 N518S Stainless steel 5/16-18 100 1.50 N616S Stainless steel 3/8-16 100 3.00 N813S Stainless steel 1/2-13 100 4.25 Flat washer Part no. Description Approx. box weight per 100 W5S Stainless steel 5/16 ID, 3/4" OD 100 0.50 W6S Stainless steel 3/8 ID, 1 OD 100 0.75 W8S Stainless steel 1/2 ID, 1 1/4" OD 100 1.00 Waterproof sealing washer Part no. Description Approx. box weight per 100 W6L Neoprene 3/8 ID, 1 3/4 OD 100 0.50 W8L Neoprene 1/2 ID, 1 3/4 OD 100 0.75 5/8 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Accessories Ringed nail Part no. Description Size ( ) Approx. box weight per 100 274 4d Copper ringed 1 1/2 Long, 3/8 head 100 0.75 274S 4d Stainless steel ringed 1 1/2 Long, 5/16 head 100 0.75 277S 4d Stainless steel ringed 2 Long, 3/8 head 100 1.00 5 Common nail Part no. Description Size ( ) Approx. box weight per 100 A274 4d Aluminum common 1 5/8 Long, 1/4 head 100 0.50 275 6d Copper common 2 1/8 Long, 1/4 head 100 1.25 276 8d Copper common 2 1/2 Long, 5/8 head 100 1.25 Furse UL Listed lightning protection product range 9AKK106354A3360 5/9

Cable connectors, clamps & accessories Accessories Allthread riser bar (stainless steel) Part no. Thread size ( ) Length ( ) 241S-6 1/2 6 10 0.25 241S-12 1/2 12 10 0.55 241S-24 1/2 24 10 1.10 241S-36 1/2 36 10 1.65 5 Allthread riser bar (brass) Part no. Thread size ( ) Length ( ) 240-6 3/8 6 10 0.15 240-12 3/8 12 10 0.30 240-24 3/8 24 10 0.60 240-36 3/8 36 10 0.90 241-6 1/2 6 10 0.30 241-12 1/2 12 10 0.60 241-24 1/2 24 10 1.20 241-36 1/2 36 10 1.80 5/10 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Accessories M1 structural sealant Part no. Description M1-10 Sealant, 10.3 oz tube M1-2 Sealant, 2 gallon pail Multipurpose structural sealant designed for difficult bonding and sealing applications on low slope commercial roofing Bonds aggressively to EPDM, PVC, BUR, coal tar, SBS mod bit, granulated APP & coated metal M-1 is a trademark of Chem-Link. 5 Sikaflex 1A sealant Part no. Description SIKAFLEX 1A Sealant Premium grade, high performance, moisture cured, 1-component, polyurethane based, non-slag elastomeric sealant Excellent for use on PVC based roofing materials Available in a variety of colours. Please contact us for details Sikaflex is a registered trademark of The Sika Corporation. Furse UL Listed lightning protection product range 9AKK106354A3360 5/11

Cable connectors, clamps & accessories Accessories Carlisle pourable sealer Part no. Description CARLISLE Pourable sealer Two-component, solvent free, polyurethane based sealant Typically used on Carlisle EPDM roofing membrane Also works on tar and asphalt roll sheets Carlisle and Sure-Seal are trademarks of Carlisle. 5 Firestone pourable sealer Part no. Description FIRESTONE Pourable sealer (S-10) Two-component, solvent free, polyurethane based sealant Typically used on Firestone EPDM roofing membrane Also works on tar and asphalt roll sheets Firestone is a trademark of The Bridgestone Corporation. 5/12 Furse UL Listed lightning protection product range 9AKK106354A3360

Cable connectors, clamps & accessories Accessories Denso tape Part no. Size (approx.) TD005 2 x 33 ft 1.75 Waterproof tape for wrapping underground joints 5 Oxide inhibiting compound Part no. Description CM005 Oxide inhibiting compound, plastic bottle 0.50 For use to reduce risk of corrosion when installing mechanical or compression connectors Furse UL Listed lightning protection product range 9AKK106354A3360 5/13

Cable connectors, clamps & accessories Accessories Insulating tape Part no. Size TP120-FU 1 x 109 ft 0.31 Green/yellow general purpose insulating tape 5 Conductor guard Part no. Conductor diameter Length GC301 Up to 1 8 ft 2.46 GC302 Up to 2 8 ft 5.12 For use in runways, driveways, school playgrounds, public walkways and other areas where the conductor must be protected against damage or being displaced High impact, UV stabilised PVC Includes 1/4 fixing holes 5/14 Furse UL Listed lightning protection product range 9AKK106354A3360

Furse UL Listed lightning protection product range 9AKK106354A3360 5/15 5

6 6/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Bonding lugs Main size bonding lug 6/2 Secondary bonding lug 6/2 Bonding clamps & plates Flange bonding clamp 6/3 Beam bonding clamp 6/3 Bonding plate 6/4 Strap grounding clamp 6/4 Pipe clamps Pipe clamp for 1/2 to 1 pipe 6/5 Pipe clamp for 1 1/4 to 2 pipe 6/5 Pipe clamp for 2 1/2 to 3 1/2 pipe 6/6 Pipe clamp for 4 to 5 pipe 6/6 Pipe clamp for 6 pipe 6/7 Ground rod clamps Ground rod clamp 6/7 Ground rods Threaded ground rod 6/8 Unthreaded ground rod 6/9 Solid copper ground rod kit 6/10 Stainless steel ground rod kit 6/10 Ground plates Ground plate 6/11 Ground enhancing material FurseCEM conductive aggregate 6/11 Ground rod seals Ground rod seal 6/12 Test wells Polymer test well 6/13 Concrete test well 6/13 Cast in ground points Single hole cast in ground point 6/14 Two hole cast in ground point 6/14 Four hole cast in ground point 6/15 Ground receptacle Ground receptacle 6/15 Ground bars Ground bar - C type 6/16 Ground bar - J type 6/16 Terminal lugs Terminal lug 6/17 6 Furse UL Listed lightning protection product range 9AKK106354A3360 6/1

Grounding & bonding Bonding lugs Main size bonding lug Part no. Material MBLA Aluminum alloy 0.19 10 MBLC Copper alloy 0.49 10 MBLT Tinned copper alloy 0.49 10 Manufactured from high quality copper alloy or aluminum alloy, these main size bonding lugs are designed to secure main size lightning protection conductor to metalwork. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Provides over 3 of contact area between lug and metalwork Tang includes a 3/8 mounting hole 6 Secondary bonding lug Part no. Material MBLSA Aluminum alloy 0.15 10 MBLSC Copper alloy 0.33 10 MBLST Tinned copper alloy 0.33 10 Manufactured from high quality copper alloy or aluminum alloy, these secondary bonding lugs are designed to secure secondary bonding conductor to metalwork. Suitable for use with all secondary bonding conductors in our range Ensures 1 1/2 connection to conductor Provides over 2 of contact area between lug and metalwork Tang includes a 5/16 mounting hole 6/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Bonding clamps Flange bonding clamp Part no. Material SSCA Aluminum alloy 0.14 10 SSCC Copper alloy 0.31 10 SSCT Tinned copper alloy 0.31 10 Manufactured from high quality copper alloy or aluminum alloy, these flange bonding clamps are designed to secure main size lightning protection conductor to flat metalwork up to 1/2 thick, such as small I-beams, ladders and channel or cable tray etc. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor 6 Beam bonding clamp Part no. Material SSBA Aluminum alloy 0.68 10 SSBC Copper alloy 1.90 10 SSBT Tinned copper alloy 1.90 10 Manufactured from high quality copper alloy or aluminum alloy, these beam bonding clamps can be mounted horizontally or vertically to secure main size lightning protection conductor to structural metalwork. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ideal for bonding to I-beams up to 1 thick Ensures 1 1/2 connection to conductor Includes over 8 square inches of contact area to the metal surface, ensuring the clamp can be used in installations where the structural metalwork is the lightning conductor Furse UL Listed lightning protection product range 9AKK106354A3360 6/3

Grounding & bonding Bonding plates & strap grounding clamps Bonding plate Part no. Material MBPA Aluminum alloy 0.19 50 MBPC Copper alloy 0.48 50 MBPT Tinned copper alloy 0.48 50 Manufactured from high quality brass or aluminum alloy, these bonding plates are designed to secure main size lightning protection conductor to structural metalwork, either by bolting or welding. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Includes over 8 square inches of contact area to the metal surface, ensuring the clamp can be used in installations where the structural metalwork is the lightning conductor 6 Strap grounding clamp Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material GSA3 3 to 4 3.5 to 4.5 Aluminum alloy 1.11 5 GSA4 4 to 6 4.5 to 6.625 Aluminum alloy 1.22 5 GSA6 6 to 8 6.625 to 8.625 Aluminum alloy 1.39 5 GSA8 8 to 12 8.625 to 12.75 Aluminum alloy 1.66 5 GSC3 3 to 4 3.5 to 4.5 Copper alloy 1.74 5 GSC4 4 to 6 4.5 to 6.625 Copper alloy 2.05 5 GSC6 6 to 8 6.625 to 8.625 Copper alloy 2.47 5 GSC8 8 to 12 8.625 to 12.75 Copper alloy 3.11 5 GST3 3 to 4 3.5 to 4.5 Tinned copper alloy 1.74 5 GST4 4 to 6 4.5 to 6.625 Tinned copper alloy 2.05 5 GST6 6 to 8 6.625 to 8.625 Tinned copper alloy 2.47 5 GST8 8 to 12 8.625 to 12.75 Tinned copper alloy 3.11 5 Manufactured from high quality copper alloy or aluminum alloy with copper or aluminum strap and stainless steel tightening bar, these strap grounding clamps enable connection of main size lightning protection conductor to pipework up to 12 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range 2 Wide strap ensures excellent conductive surface to pipework Main size bonding lug ensures 1 1/2 connection to conductor 6/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Pipe clamps Pipe clamp for 1/2" to 1 nominal pipe Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material Unit weight PCA12 0.5 to 1 0.84 to 1.315 Aluminum alloy 0.31 10 PCC12 0.5 to 1 0.84 to 1.315 Copper alloy 0.54 10 PCT12 0.5 to 1 0.84 to 1.315 Tinned copper alloy 0.54 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe clamps are designed to secure conductor to steel and copper pipes from 1/2 to 1 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Ensures 1 1/2 connection to conductor Includes robust stainless steel grade 18-8 U-bolt and fixings 6 Pipe clamp for 1 1/4 to 2 nominal pipe Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material Unit weight PCA112 1.25 to 2 1.66 to 2.4 Aluminum alloy 0.35 10 PCC112 1.25 to 2 1.66 to 2.4 Copper alloy 0.79 10 PCT112 1.25 to 2 1.66 to 2.4 Tinned copper alloy 0.79 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe clamps are designed to secure conductor to steel and copper pipes from 1 1/4 to 2 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Features swing connection of U-bolt for ease of installation Ensures 1 1/2 connection to conductor Includes robust stainless steel grade 18-8 U-bolt and fixings Furse UL Listed lightning protection product range 9AKK106354A3360 6/5

Grounding & bonding Pipe clamps Pipe clamp for 2 1/2 to 3 1/2 nominal pipe Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material Unit weight PCA212 2.5 to 3.5 2.875 to 4 Aluminum alloy 0.47 10 PCC212 2.5 to 3.5 2.875 to 4 Copper alloy 1.19 10 PCT212 2.5 to 3.5 2.875 to 4 Tinned copper alloy 1.19 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe clamps are designed to secure conductor to steel and copper pipes from 2 1/2 to 3 1/2 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Features swing connection of U-bolt for ease of installation Ensures 1 1/2 connection to conductor Includes robust stainless steel grade 18-8 U-bolt and fixings 6 Pipe clamp for 4 to 5 nominal pipe Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material Unit weight PCA4 4 to 5 4.5 to 5.56 Aluminum alloy 0.58 10 PCC4 4 to 5 4.5 to 5.56 Copper alloy 1.58 10 PCT4 4 to 5 4.5 to 5.56 Tinned copper alloy 1.58 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe clamps are designed to secure conductor to steel and copper pipes from 4 to 5 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Features swing connection of U-bolt for ease of installation Ensures 1 1/2 connection to conductor Includes robust stainless steel grade 18-8 U-bolt and fixings 6/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Pipe & ground rod clamps Pipe clamp for 6 nominal pipe Part no. Nominal pipe diameter ( ) Outside pipe diameter ( ) Material Unit weight PCA6 6 6.625 Aluminum alloy 0.65 10 PCC6 6 6.625 Copper alloy 1.90 10 PCT6 6 6.625 Tinned copper alloy 1.90 10 Manufactured from high quality copper alloy or aluminum alloy, these pipe clamps are designed to secure conductor to steel and copper pipes with 6 nominal diameter. Suitable for use with all Class I and Class II main size lightning protection conductors in our range Features swing connection of U-bolt for ease of installation Ensures 1 1/2 connection to conductor Includes robust stainless steel grade 18-8 U-bolt and fixings 6 Ground rod clamp Part no. Ground rod diameter ( ) Material GRCC58 1/2 & 5/8 Copper alloy 0.12 20 GRCC34 3/4 Copper alloy 0.14 20 GRCT58 1/2 & 5/8 Tinned copper alloy 0.12 20 GRCT34 3/4 Tinned copper alloy 0.14 20 Manufactured from high quality copper alloy, these ground rod clamps ensure secure connection of main size lightning protection conductor to a ground rod. Provides over 1 1/2 connection to conductor Suitable for use with all main size copper lightning protection conductor in our range Includes 2 x 5/16 stainless steel setscrews for secure connection of conductor Furse UL Listed lightning protection product range 9AKK106354A3360 6/7

Grounding & bonding Ground rods Threaded copperbond ground rod Driving stud Threaded coupling Part no. Nominal rod diameter ( ) Length (ft) Thread B UNC ( ) Shank A ( ) 5008LS 1/2 8 9/16 0.502 5.46 5010LS 1/2 10 9/16 0.502 6.82 6258S 5/8 8 5/8 0.560 6.78 6260S 5/8 10 5/8 0.560 8.47 7508S 3/4 8 3/4 0.678 9.92 7510S 3/4 10 3/4 0.678 10.40 Manufactured from high tensile low carbon steel with minimum 250 microns/10 mils of electroplated copper coating. Other sizes available to order. Fixings 6 Part no. Description 50LC 1/2 Coupling 0.30 60C 5/8 Coupling 0.29 70C 3/4 Coupling 0.36 50LDS 1/2 Driving stud 0.05 60DS 5/8 Driving stud 0.23 70DS 3/4 Driving stud 0.35 Rod Part of the Blackburn range. Copperbond ground rods manufactured by molecularly bonding 99.9% pure electrolytic copper to a low carbon steel core, for excellent corrosion resistance and high strength. Couplings manufactured from high quality copper alloy Driving studs manufactured from hardened steel Coupling and driving stud may differ in design from those illustrated. UL467 A B 6/8 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Ground rods Unthreaded copperbond ground rod Driving head Rod Part no. Nominal rod diameter ( ) Length (ft) 5008L 1/2 8 7.08 5010L 1/2 10 7.94 6258 5/8 8 6.78 6260 5/8 10 8.47 7508 3/4 8 9.92 7510 3/4 10 12.40 Manufactured from high tensile low carbon steel with minimum 250 microns/10 mils of electroplated copper coating. Other sizes available to order. Taper coupling Fixings Part no. Description 50LCNT 1/2 Coupling 0.34 60CNT2 5/8 Coupling 0.33 70CNT 3/4 Coupling 0.37 60DSNT 5/8 Driving head 0.43 6 Part of the Blackburn range. Copperbond ground rods manufactured by molecularly bonding 99.9% pure electrolytic copper to a low carbon steel core, for excellent corrosion resistance and high strength. Couplings manufactured from high quality copper alloy Driving head manufactured from hardened steel Coupling and driving head may differ in design from those illustrated. UL467 (6258, 6260, 7508, 7510, 50LCNT, 60CNT2, 70CNT) Furse UL Listed lightning protection product range 9AKK106354A3360 6/9

Grounding & bonding Ground rods Driving stud Solid copper/stainless steel ground rod kit Part no. Description Length (ft) RC010-KIT 2 x 5/8 nominal dia., 4 ft length solid copper ground rods plus 8 8.42 driving stud, coupling dowel and driving spike RC015-KIT RS005-KIT 2 x 3/4 nominal dia., 4 ft length solid copper ground rods plus driving stud, coupling dowel and driving spike 2 x 5/8 nominal dia., 4 ft length solid stainless steel (316L) ground rods plus driving stud, coupling dowel and driving spike 8 14.97 8 8.38 Rod Solid copper and stainless steel ground rod kits provide all necessary rods and fixings to achieve an 8ft rod. Offer excellent corrosion resistance Ideal for installations with more aggressive soil conditions Driving stud and spike manufactured from hardened steel Coupling dowel manufactured from copper or stainless steel 6 Coupling dowel Spike UL467 (RC010-KIT, RC015-KIT, RS005-KIT) 6/10 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Ground plates & ground enhancing material Copper ground plate Part no. No. of bonding plates Plate size ( ) Plate thickness ( ) GP1-1224 1 12 x 24 0.032 3.55 GP1-1818 1 18 x 18 0.032 3.91 GP1-2424 1 24 x 24 0.032 6.51 GP2-1224 2 12 x 24 0.032 4.09 GP2-1818 2 18 x 18 0.032 4.46 GP2-2424 2 24 x 24 0.032 7.06 Manufactured from solid copper with conductor attachment achieved by use of one or two bonding plates (included). Meets the minimum 2 square feet of copper required by UL 96 6 FurseCEM ground enhancing material Part no. Description CM025 FurseCEM 55.10 CM030 FurseCEM (supplied with cement) 55.10 Certain ground conditions make it difficult to obtain a reliable ground resistance, whilst particular installations may require a very low resistance. In such cases, FurseCEM provides a convenient and permanent solution. By adding FurseCEM in place of sand and aggregate, to cement, a conductive concrete is formed. This electrically conductive medium has many applications in the electrical/construction industry, including RF and microwave screening, static control and, of course, grounding, for which it was specifically developed. When used as a backfill for ground electrodes, FurseCEM impregnated concrete greatly increases the electrode s surface area thus lowering its resistance to ground For further information on FurseCEM, please contact your local sales office. A separate datasheet available on request Topsoil FurseCEM Concrete Mix Rock, Sand, Shale, etc. Ground Rod Electrode Furse UL Listed lightning protection product range 9AKK106354A3360 6/11

Grounding & bonding Ground rod seal Ground rod seal 6 Part no. Description Ground rod seal assembly ES300 Ground rod seal and membrane seal 1.65 Ground rod seal pack ES300-12 Seal pack for 1 2 (ø 12.7 mm) Furse copperbond rod 0.13 ES300-58 Seal pack for 5 8 (ø 14.2 mm) Furse copperbond rod 0.13 ES300-34 Seal pack for 3 4 (ø 17.2 mm) Furse copperbond rod 0.13 ES300-15 Seal pack for 5 8 nom. Furse solid copper rod 0.13 ES300-16 Seal pack for 5 8 nom. Furse stainless steel rod 0.13 ES300-20 Seal pack for 3 4 nom. Furse solid copper rod 0.13 Ground rod seal tube ES310-03 Seal tube, 300 mm (nom. 11.8 ) length 0.35 ES310-05 Seal tube, 500 mm (nom. 19.7 ) length 0.60 ES310-10 Seal tube, 1,000 mm (nom. 39.4 ) length 1.19 ES310-15 Seal tube, 1,500 mm (nom. 59.1 ) length 1.79 ES310-20 Seal tube, 2,000 mm (nom. 78.7 ) length 2.38 ES310-30 Seal tube, 3,000 mm (nom. 118.1 ) length 3.57 Accessory spanner set ES320 Membrane seal torque spanner set 0.99 When specifying a Furse ground rod seal, ensure that all relevant components are ordered - ground rod assembly, seal pack, seal tube, accessory spanner set and lightweight test well. The accessory spanner set may be used for multiple ground rod seal installations Please specify the correct size of ground rod seal pack for the ground rod, and the correct length of protective seal tube when ordering. Note: earth rod seal designed for use with clean, smooth Type A damp proof membranes as defined by BS EN 13967, without the need for adhesive, sealant or mastic. For uneven, textured or tanking damp proof membranes, if installed, or where hydrostatic conditions exist, adhesive, sealant or mastic should be applied Test well High performance lightweight test well. Ground rod seal Mates with the test well and seal tube. Ground rod seal tube High impact ABS seal tube allows the ground rod to pass directly through the slab into the ground. Ground rod seal pack The ground rod seal pack comprises compression rings & nitrile rubber O rings. Membrane seal Designed to create a watertight seal between the damp proof membrane and the seal tube. Ground rod seal tube The Furse ground rod to match in size and type to the ground rod seal pack. Membrane seal torque spanner set Enables tightening of the membrane seal to a damp proof membrane to 220 in/lb torque, for an effective, watertight seal. 6/12 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Test wells Lightweight test well Part no. Description Dimensions ( ) Load rating PT205 Lightweight test well with grey polymer lid 11.81 x 11.81 x 8.35 11,000 3.97 PT110* Lightweight test well with concrete lid 11.81 x 11.81 x 8.35 2,500 16.53 Ground bar for lightweight test well PT004 5 hole ground bar 0.89 Accessories for polymer lid AK005 6 mm Allen key 0.07 Accessories for concrete lid JH100 M8 x 100 mm long mild steel J bolt lifting hook 0.09 AS100 M8 x 60 stainless steel Allen caphead screw (2 per lid) 0.07 Manufactured from high-performance, UV stable and chemically resistant polymer with either polymer or concrete lid to suit the application. The lightweight test well with polymer lid is load rated to 11,000 lb and is suitable for general to heavy duty use. It has a lockable lid and improved working area compared to the concrete inspection pit The lightweight test well with concrete lid is load rated to 2,500 lb and is designed for use in pedestrianized and light vehicular areas. The lid can be locked in place, if required order 2 x AS100 Allen caphead screws *Not illustrated (drawing available on request) 6 Concrete test well Part no. Description Dimensions ( ) Load rating PT005 Concrete test well 12.60 x 12.60 x 7.56 7,700 66.12 Ground bars for concrete test well PT006 5 hole ground bar 0.89 PT007 7 hole ground bar 1.28 The concrete test well is load rated to 7,700 lb and is suitable for most types of grounding and lightning protection installations It is not suitable for use in areas where high load, small wheel vehicles are used. The lightweight test well (PT205) is recommended for this type of application Furse UL Listed lightning protection product range 9AKK106354A3360 6/13

Grounding & bonding Cast in ground points Single hole cast in ground point Part no. Hole size Nominal length ( ) PC100-FU M8 x 15 mm 3.125 0.31 10 PC101 M10 x 15 mm 3.125 0.31 10 PC150 5/16-18 x 1/2 3.125 0.31 10 PC151 3/8-16 x 1/2 3.125 0.31 10 Single hole cast in ground point with single pre-welded tail Part no. Hole size PC105 PC100-FU ground point with pre-welded 500 mm long grounding cable 1.24 10 PC106 PC101 ground point with pre-welded 500 mm long grounding cable 1.24 10 PC155 PC150 ground point with pre-welded 18 long grounding cable 1.24 10 PC156 PC151 ground point with pre-welded 18 long grounding cable 1.24 10 6 UL467 (PC105, PC106) Manufactured from high quality copper alloy, with variants available with single pre-welded tail, these single hole cast in ground points provide a robust connection point between steel reinforcing bars and lightning protection or grounding conductor. PC105 & PC106 include pre-welded 500 mm long tail of 70 sqmm PVC insulated stranded copper conductor PC155 & PC156 include pre-welded 18 long tail of 4/0 AWG PVC insulated stranded copper conductor Two hole cast in ground point Part no. Hole size Nominal length ( ) PC125 2 x M8 x 12 mm 3.125 0.62 10 PC160 5/16-18 x 1/2 3.125 0.48 10 PC161 3/8-16 x 1/2 3.125 0.48 10 UL467 (PC126-FU) Part no. Description Two hole cast in ground point with single pre-welded tail PC126-FU PC125 ground point with pre-welded 500 mm long grounding cable 1.85 10 PC165 PC160 ground point with pre-welded 18 long grounding cable 1.33 10 PC166 PC161 ground point with pre-welded 18 long grounding cable 1.33 10 Two hole cast in ground point with double pre-welded tail PC217 PC125 ground point with pre-welded 2 x 500 mm long grounding cable 2.78 10 PC170 PC160 ground point with pre-welded 2 x 18 long grounding cable 2.16 10 PC171 PC161 ground point with pre-welded 2 x 18 long grounding cable 2.16 10 Manufactured from high quality copper alloy, with variants available with single or double pre-welded tails, these two hole cast in ground points provide a robust connection point between steel reinforcing bars and lightning protection or grounding conductor. PC126-FU & PC217 include pre-welded 500 mm long tail(s) of 70 sqmm PVC insulated stranded copper conductor PC165, PC166, PC170 & PC171 include pre-welded 18 long tail(s) of 4/0 AWG PVC insulated stranded copper conductor Hole centres 1 3/4 PC160 & PC161 plus variants not as illustrated. Please contact us for drawings 6/14 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Cast in ground points & static ground receptacles Four hole cast in ground point Part no. Hole size Nominal length ( ) PC110 4 x M8 x 12 mm 3 0.91 10 PC180 5/16-18 x 1/2 3 1.20 10 PC181 3/8-16 x 1/2 3 1.20 10 Part no. Description Four hole cast in ground point with single pre-welded tail PC111 PC110 ground point with pre-welded 500 mm long grounding cable 2.52 10 PC185 PC180 ground point with pre-welded 18 long grounding cable 2.14 10 PC186 PC181 ground point with pre-welded 18 long grounding cable 2.14 10 Four hole cast in ground point with double pre-welded tail PC211 PC110 ground point with pre-welded 2 x 500 mm long grounding cable 2.72 10 PC230 PC180 ground point with pre-welded 2 x 18 long grounding cable 2.98 10 PC231 PC181 ground point with pre-welded 2 x 18 long grounding cable 2.98 10 6 UL467 (PC111, PC211) Manufactured from high quality copper alloy, with variants available with single or double pre-welded tails, these four hole cast in ground points provide a robust connection point between steel reinforcing bars and lightning protection or grounding conductor. PC111 & PC211 include pre-welded 500 mm long tail(s) of 70 sqmm PVC insulated stranded copper conductor PC185, PC186, PC230 & PC231 include pre-welded 18 long tail(s) of 4/0 AWG PVC insulated stranded copper conductor Hole centres 36 mm (PC110, PC111 & PC211), 1 3/4 (PC180, PC181, PC185, PC186, PC230 & PC231) Ground receptacle Part no. Connection type Material RX005 Copper stem for exothermic welding Copper alloy 1.41 10 RX012 Threaded stem for 1/2" ground rod Copper alloy 1.58 10 RX058 Threaded stem for 5/8" ground rod Copper alloy 1.58 10 RX034 Threaded stem for 3/4" ground rod Copper alloy 1.58 10 Manufactured from high quality copper alloy, ground receptacles are designed to be set into roadways or runways to provide a static discharge point for aircraft, fuel tankers etc. Variants include copper stem for connection of conductor by exothermic welding, or threaded stem for direct connection to ground rod Furse UL Listed lightning protection product range 9AKK106354A3360 6/15

Grounding & bonding Ground bars Ground bar - C type Part no. Bar size ( ) Hole pattern No. of holes LKC414-6 1/4 x 4 x 6 C 6 3.06 LKC414-12 1/4 x 4 x 12 C 15 4.89 LKC414-16 1/4 x 4 x 16 C 21 6.11 LKC414-20 1/4 x 4 x 20 C 27 7.33 LKC414-24 1/4 x 4 x 24 C 33 8.55 Manufactured from solid copper hard drawn bar with GRP insulators and stainless steel (304) mounting brackets. Hole size 7/16 Hole centres designed to achieve fitting to B, C and D spaced two hole lugs (3/4, 1 and 1 3/4 hole centres) Mounting holes not included in total number of holes 6 Ground bar - J type Part no. Bar size ( ) Hole pattern No. of holes LKJ414-6 1/4 x 4 x 6 J 9 3.03 LKJ414-12 1/4 x 4 x 12 J 27 4.75 LKJ414-16 1/4 x 4 x 16 J 39 5.89 LKJ414-20 1/4 x 4 x 20 J 51 7.04 LKJ414-24 1/4 x 4 x 24 J 63 8.18 Manufactured from solid copper hard drawn bar with GRP insulators and stainless steel (304) mounting brackets. Hole size 7/16 Hole centres designed to achieve fitting to B, C and D spaced two hole lugs (3/4, 1 and 1 3/4 hole centres) Mounting holes not included in total number of holes 6/16 Furse UL Listed lightning protection product range 9AKK106354A3360

Grounding & bonding Terminal lugs Long barrel two hole lug for 600 V to 35 kv UL467 Part no. Stranding/ Code Wire size flex class G,H,I,K, M* Hole size ( ) Hole centres ( ) Die code Die colour 256-30695-1116 2/0 AWG 275/24 (111kcmil) 3/8 1 45 Black 256-30695-1116P 2/0 AWG 1/0 Weld 3/8 1 45 Black 54862BE 2/0 AWG - 1/2 1 3/4 45 Black 54816BE 3/0 AWG 325/24 (131 kcmil) 3/8 1 50 Orange 54864BE 3/0 AWG - 1/2 1 3/4 50 Orange 54818BE 4/0 AWG - 3/8 1 3/4 54 Purple 256-30695-1117 4/0 AWG 450/24 (182 kcmil) 3/8 1 54 Purple 256-30695-1117P 4/0 AWG 3/0 Weld 3/8 1 54 Purple 54866BE 4/0 AWG - 1/2 1 3/4 54 Purple 256-30695-1245 250 kcmil 550/24 (182 kcmil) 3/8 1 62 Yellow 256-30695-1245P 250 kcmil 4/0 Weld 3/8 1 62 Yellow 54868BE 250 kcmil - 1/2 1 3/4 62 Yellow 54819BE 300 kcmil - 3/8 1 66 White 54870BE 300 kcmil 250 1/2 1 3/4 66 White 256-30695-1118 350 kcmil 650/24 (262 kcmil) 3/8 1 71 Red 256-30695-1118P 350 kcmil 4/0 Weld 3/8 1 71 Red 54872BE 350 kcmil - 1/2 1 3/4 71 Red 54821BE 400 kcmil 775/24 (313 kcmil) 3/8 1 76 Blue 54872BE 400 kcmil - 1/2 1 3/4 76 Blue 256-30695-1119 500 kcmil 925/24 (373 kcmil) 3/8 1 87 Brown 256-30695-1119P 500 kcmil - 3/8 1 87 Brown 54876BE 500 kcmil - 1/2 1 3/4 87 Brown 54878BE 600 kcmil - 3/8 1 94 Green 54878BE 600 kcmil 1100/24 (444 kcmil) 1/2 1 3/4 94 Green 54879BE 700 kcmil 1325/24 (535 kcmil) 1/2 1 3/4 99 Pink 256-30695-1222 750 kcmil - 3/8 1 106 Black 256-30695-1222P 750 kcmil 1325/24 (535 kcmil) 3/8 1 106 Black 54880BE 750 kcmil - 1/2 1 3/4 106 Black 58884BE 1600/24 (646 kcmil) 1/2 1 3/4 106 Black 58826BE 900 kcmil - 1/2 1 3/4 115 Yellow 54826BE 1000 kcmil - 3/8 1 125 N/A 54882BE 1000 kcmil - 1/2 1 3/4 125 N/A 54888BE 1250 kcmil - 1/2 1 3/4 125 N/A Manufactured from high conductivity wrought copper with electroplated tin finish, these long barrel two hole lugs are ideal for terminating grounding and lightning protection conductor to an equipotential ground bar. These lugs form part of the Thomas & Betts Color-Keyed range of connectivity solutions. Electroplated tin finish ensures excellent corrosion resistance Designed for 600 V to 35 kv applications Part no. s shown are for standard lugs without peep holes. For addition of peep hole, add suffix PH to part no. For tooling and die selection, please contact us * Contact Technical Services for specific stranding listings 6 Furse UL Listed lightning protection product range 9AKK106354A3360 6/17

7 7/0 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding Blackburn EZWeld exothermic welding Introduction 7/2 Cable to cable Cable to cable CC1 7/4 Cable to cable CC2 7/4 Cable to ground rod Cable to ground rod CR1 7/5 Cable to ground rod CR2 7/5 Cable to ground rod CR3 7/6 Cable to reinforcing bar Cable to reinforcing bar CRE1 7/6 Cable to reinforcing bar CRE2 7/7 Cable to reinforcing bar CRE6 7/7 Cable to steel surface & pipe Cable to steel surface & pipe CS3 7/8 Cable to steel surface & pipe CS8 7/8 Cable to steel surface & pipe CS23 7/9 Cable to steel surface & pipe CS32 7/9 7 Accessories Handle clamps & frames 7/10 Accessories 7/10 Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/1

Blackburn EZWeld exothermic welding Introduction Blackburn EZWeld exothermic welding is a cost efficient method of making large or small numbers of high quality electrical connections. 7 Blackburn EZWeld exothermic welding is a simple, selfcontained system that uses the high temperature reaction of powdered copper oxide and aluminum, within a mold, to form permanent electrical connections. The process is highly effective: It requires no external power or heat source It creates high quality electrical connections It is completely portable It can be used safely with minimum training It is extremely cost effective The connections made have several advantages: Tolerant to repeated fault currents Highly conductive Do not loosen Have excellent corrosion resistance Most Blackburn EZWeld connections have at least twice the cross-sectional area of the conductors being joined, and an equivalent or greater current carrying capacity. Corrosion resistance is exceptional because of the very high copper content (> 90%) of the alloy. Molds The Blackburn EZWeld system of exothermic welding uses molds to contain the exothermic reaction that creates safe and robust connections. Different types of molds are available, whose use depends on the requirements of the project. Market leading Blackburn EZWeld graphite molds are extremely robust and capable of producing up to 50 connections each, if not more when properly maintained. Blackburn EZWeld products A powder cartridge is required for each joint to be made Handle clamps enable the mold to be handled when hot, and the two halves of the mold to be opened and clamped together Packing is required when welding to reinforcing bar Conductors The range of Blackburn EZWeld molds is designed to work with all common conductor formats. Ropelay lightning protection conductor Smoothweave lightning protection conductor Concentric lightning protection and grounding conductor Solid circular conductor Conductors must be in the orientation shown to achieve the correct connection. Technical support is available to assist with selection of joint type. Please contact us where unsure, e.g. where you may be using compacted stranded conductor. The connections shown in this catalogue are only a small portion of the range of Blackburn EZWeld exothermic mold designs available. If you require an alternative connection style or conductor type, please contact your regional representative for assistance. 7/2 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding Welding process 1 2 Locate the conductors (A) to be joined in the weld cavity (B) and close the mold (C). Locate the steel retaining disc in the base of the crucible (D). Pour in the weld powder (E) followed by the starting powder (F). F Ignite starting powder with a spark gun. E C D A B A 7 Making a Blackburn EZWeld exothermic welding joint is a simple procedure 3 4 The resulting exothermic reaction reduces the weld powder to molten copper alloy which melts the retaining disc and flows into the weld cavity where it partially melts the conductors (G). The molten copper alloy cools to leave a fusion weld of great mechanical and electrical integrity. G Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/3

Blackburn EZWeld exothermic welding Cable to cable CC1 & CC2 Cable to cable CC1 EZWeld A Wire size A Powder cartridge Part no. mold Handle clamp Lightning protection cable 28 Ropelay 65BKB CC1-4-28 HCPK4 1 29 Smooth 65BKB CC1-4-29 HCPK4 1 32 Smooth 45BKB CC1-4-32 HCPK4 1 Grounding cable 4/0 90BKB CC1-4-4/0 HCPK4 1 250 115BKB CC1-4-250K HCPK4 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7 A B Cable to cable CC2 EZWeld Wire size A Wire size B Powder cartridge Part no. mold Handle clamp Lightning protection cable 28 Ropelay 28 Ropelay 90BKB CC2-4-2828 HCPK4 1 29 Smooth 29 Smooth 90BKB CC2-4-2929 HCPK4 1 32 Smooth 32 Smooth 90BKB CC2-4-3232 HCPK4 1 29 Smooth 32 Smooth 90BKB CC2-4-2932 HCPK4 1 32 Smooth 29 Smooth 90BKB CC2-4-3229 HCPK4 1 Grounding cable 4/0 4/0 150BKB CC2-4-4/04/0 HCPK4 1 250 250 150BKB CC2-4-250K250K HCPK4 1 250 4/0 150BKB CC2-4-250K4/0 HCPK4 1 4/0 250 150BKB CC2-4-4/0250K HCPK4 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7/4 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding Cable to ground rod CR1 & CR2 Cable to ground rod CR1 EZWeld Ground rod A Ø ( ) Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp 1/2 28 Ropelay 90BKB CR1-4-500L28 HCPK4 1 1/2 29 Smooth 65BKB CR1-4-500L29 HCPK4 1 1/2 32 Smooth 90BKB CR1-4-500L32 HCPK4 1 5/8 28 Ropelay 90BKB CR1-4-62528 HCPK4 1 B A 5/8 29 Smooth 90BKB CR1-4-62529 HCPK4 1 5/8 32 Smooth 90BKB CR1-4-62532 HCPK4 1 3/4 28 Ropelay 90BKB CR1-4-75028 HCPK4 1 3/4 29 Smooth 90BKB CR1-4-75029 HCPK4 1 3/4 32 Smooth 90BKB CR1-4-75032 HCPK4 1 Grounding cable 1/2 4/0 90BKB CR1-4-500L4/0 HCPK4 1 5/8 4/0 90BKB CR1-4-6254/0 HCPK4 1 A 3/4 4/0 90BKB CR1-4-7504/0 HCPK4 1 1/2 250 90BKB CR1-4-500L250K HCPK4 1 5/8 250 90BKB CR1-4-625250K HCPK4 1 3/4 250 90BKB CR1-4-750250K HCPK4 1 7 Cable to ground rod CR2 EZWeld Ground rod A Ø ( ) Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp 1/2 28 Ropelay 90BKB CR2-4-500L28 HCPK4 1 1/2 29 Smooth 90BKB CR2-4-500L29 HCPK4 1 1/2 32 Smooth 90BKB CR2-4-500L32 HCPK4 1 5/8 28 Ropelay 115BKB CR2-4-62528 HCPK4 1 5/8 29 Smooth 90BKB CR2-4-62529 HCPK4 1 B A 5/8 32 Smooth 115BKB CR2-4-62532 HCPK4 1 3/4 28 Ropelay 115BKB CR2-4-75028 HCPK4 1 3/4 29 Smooth 115BKB CR2-4-75029 HCPK4 1 3/4 32 Smooth 115BKB CR2-4-75032 HCPK4 1 Grounding cable 1/2 4/0 90BKB CR2-4-500L4/0 HCPK4 1 5/8 4/0 90BKB CR2-4-6254/0 HCPK4 1 3/4 4/0 90BKB CR2-4-7504/0 HCPK4 1 1/2 250 90BKB CR2-4-500L250K HCPK4 1 5/8 250 90BKB CR2-4-625250K HCPK4 1 3/4 250 90BKB CR2-4-750250K HCPK4 1 CR1 and CR2 are suitable for connections to copperbond rods for connections to copper or stainless steel rods please contact our sales office.threaded portion of rod should be removed before welding. Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. Note ½ ground rod diameter shown is ½ true diameter, actual shank diameter 0.502. Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/5

Blackburn EZWeld exothermic welding Cable to ground rod CR3 / cable to reinforcing bar CRE1 Cable to ground rod CR3 EZWeld Ground rod A Ø ( ) Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp 1/2 28 Ropelay 115BKB CR3-4-500L28 HCPK4 & FRAME 1 1 1/2 29 Ropelay 115BKB CR3-4-500L29 HCPK4 & FRAME 1 1 1/2 32 Ropelay 115BKB CR3-4-500L32 HCPK4 & FRAME 1 1 5/8 28 Ropelay 115BKB CR3-4-62528 HCPK4 & FRAME 1 1 A B 5/8 29 Ropelay 115BKB CR3-4-62529 HCPK4 & FRAME 1 1 5/8 32 Ropelay 115BKB CR3-4-62532 HCPK4 & FRAME 1 1 3/4 28 Ropelay 150BKB CR3-4-75028 HCPK4 & FRAME 1 1 3/4 29 Ropelay 115BKB CR3-4-75029 HCPK4 & FRAME 1 1 3/4 32 Ropelay 150BKB CR3-4-75032 HCPK4 & FRAME 1 1 Grounding cable 1/2 4/0 150BKB CR3-4-500L4/0 HCPK4 & FRAME 1 1 5/8 4/0 150BKB CR3-4-6254/0 HCPK4 & FRAME 1 1 3/4 4/0 115BKB CR3-4-7504/0 HCPK4 & FRAME 1 1 1/2 250 150BKB CR3-4-500L250K HCPK4 & FRAME 1 1 7 5/8 250 150BKB CR3-4-625250K HCPK4 & FRAME 1 1 3/4 250 200BKB CR3-4-750250K HCPK4 & FRAME 1 1 Suitable for connections to copperbond rods for connections to copper or stainless steel rods please contact our sales office. Threaded portion of rod should be removed before welding. Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. Note ½ ground rod diameter shown is ½ true diameter, actual shank diameter 0.502. The CR3 joint type utilises a 3 part mold. For this reason, a frame is required in addition to the standard handle clamp Cable to reinforcing bar CRE1 EZWeld B A Reinforcing bar size A Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp Packing 4 to 7 28 Ropelay 90BKB CRE1-3-28Z HCPK3B PACK-A 1 4 to 7 29 Ropelay 90BKB CRE1-3-29Z HCPK3B PACK-A 1 4 to 7 32 Ropelay 90BKB CRE1-3-32Z HCPK3B PACK-A 1 8 to 11 28 Ropelay 90BKB CRE1-3-28Y HCPK3B PACK-A 1 8 to 11 29 Ropelay 90BKB CRE1-3-29Y HCPK3B PACK-A 1 8 to 11 32 Ropelay 90BKB CRE1-3-32Y HCPK3B PACK-A 1 Grounding cable 4 to 7 4/0 115BKB CRE1-3-4/0Z HCPK3B PACK-A 1 8 to 11 4/0 115BKB CRE1-3-4/0Y HCPK3B PACK-A 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7/6 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding Cable to reinforcing bar CRE2 & CRE6 Cable to reinforcing bar CRE2 EZWeld A B MSC Reinforcing bar size A Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp 4 to 7 28 Ropelay 115BKB CRE2-3-28Z HCPK3B 1 4 to 7 29 Ropelay 115BKB CRE2-3-29Z HCPK3B 1 4 to 7 32 Ropelay 115BKB CRE2-3-32Z HCPK3B 1 8 to 11 28 Ropelay 200BKB CRE2-3-28Y HCPK3B 1 8 to 11 29 Ropelay 200BKB CRE2-3-29Y HCPK3B 1 8 to 11 32 Ropelay 200BKB CRE2-3-32Y HCPK3B 1 Grounding cable 4 to 7 4/0 115BKB CRE2-3-4/0Z HCPK3B 1 8 to 11 4/0 115BKB CRE2-3-4/0Y HCPK3B 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7 B A Cable to reinforcing bar CRE6 EZWeld Reinforcing bar size A Wire size B Lightning protection cable Powder cartridge Part no. mold Handle clamp Packing 4 to 7 28 Ropelay 90BKB CRE6-3-28Z HCPK3B PACK-A 1 4 to 7 29 Ropelay 65BKB CRE6-3-29Z HCPK3B PACK-A 1 4 to 7 32 Ropelay 90BKB CRE6-3-32Z HCPK3B PACK-A 1 8 to 11 28 Ropelay 90BKB CRE6-3-28Y HCPK3B PACK-A 1 8 to 11 29 Ropelay 65BKB CRE6-3-29Y HCPK3B PACK-A 1 8 to 11 32 Ropelay 90BKB CRE6-3-32Y HCPK3B PACK-A 1 Grounding cable 4 to 7 4/0 150BKB CRE6-3-4/0Z HCPK3B PACK-A 1 8 to 11 4/0 150BKB CRE6-3-4/0Y HCPK3B PACK-A 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/7

Blackburn EZWeld exothermic welding Cable to steel surface & pipe CS3 & CS8 Cable to steel surface & pipe CS3 EZWeld A Wire size A Powder cartridge Part no. mold Handle clamp Lightning protection cable 28 Ropelay 90BKB CS3-4-28 HCPK4 1 29 Ropelay 65BKB CS3-4-29 HCPK4 1 32 Ropelay 90BKB CS3-4-32 HCPK4 1 Grounding cable 4/0 115BKB CS3-4-4/0 HCPK4 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7 Cable to steel surface & pipe CS8 EZWeld A Wire size A Powder cartridge Part no. mold Handle clamp Lightning protection cable 28 Ropelay 65BKB CS8-4-28 HCPK4 1 29 Ropelay 45BKB CS8-4-29 HCPK4 1 32 Ropelay 65BKB CS8-4-32 HCPK4 1 Grounding cable 4/0 115BKB CS8-4-4/0 HCPK4 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. 7/8 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding Cable to steel surface & pipe CS23 & CS32 Cable to steel surface & pipe CS23 (off surface) EZWeld Surface or Wire size A pipe size Lightning protection cable Powder cartridge Part no. mold Handle clamp 28 Ropelay Flat surface 200BKB CS23-4-28 HCPK4 1 28 Ropelay 1 1/2" to 2 3/4" 200BKB CS23-4-28C HCPK4 1 28 Ropelay 2 3/4" to 6 1/2" 200BKB CS23-4-28D HCPK4 1 28 Ropelay 6 1/2" to 10 200BKB CS23-4-28F HCPK4 1 A 28 Ropelay 10 to 14 200BKB CS23-4-28G HCPK4 1 29 Ropelay Flat surface 90BKB CS23-4-29 HCPK4 1 29 Ropelay 1 1/2" to 2 3/4" 90BKB CS23-4-29C HCPK4 1 29 Ropelay 2 3/4" to 6 1/2" 90BKB CS23-4-29D HCPK4 1 29 Ropelay 6 1/2" to 10 90BKB CS23-4-29F HCPK4 1 29 Ropelay 10 to 14 90BKB CS23-4-29G HCPK4 1 32 Ropelay Flat surface 115BKB CS23-4-32 HCPK4 1 32 Ropelay 1 1/2" to 2 3/4" 115BKB CS23-4-32C HCPK4 1 32 Ropelay 2 3/4" to 6 1/2" 115BKB CS23-4-32D HCPK4 1 32 Ropelay 6 1/2" to 10 115BKB CS23-4-32F HCPK4 1 32 Ropelay 10 to 14 115BKB CS23-4-32G HCPK4 1 Grounding cable 7 4/0 Flat surface 250BKB CS23-4-4/0 HCPK4 1 4/0 1 1/2" to 2 3/4" 250BKB CS23-4-4/0C HCPK4 1 4/0 2 3/4" to 6 1/2" 250BKB CS23-4-4/0D HCPK4 1 4/0 6 1/2" to 10 250BKB CS23-4-4/0F HCPK4 1 MSC 4/0 10 to 14 250BKB CS23-4-4/0G HCPK4 1 Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. Cable to steel surface & pipe CS32 EZWeld Wire size A Pipe size B Lightning protection cable Powder cartridge Part no. mold Handle clamp 28 Ropelay 2 3/4" to 6 1/2" 65BKB CS32-4-28D HCPK4 1 28 Ropelay 6 1/2" to 10 65BKB CS32-4-28F HCPK4 1 28 Ropelay 10 to 14 65BKB CS32-4-28G HCPK4 1 29 Ropelay 2 3/4" to 6 1/2" 45BKB CS32-4-29D HCPK4 1 29 Ropelay 6 1/2" to 10 45BKB CS32-4-29F HCPK4 1 B A 29 Ropelay 10 to 14 45BKB CS32-4-29G HCPK4 1 32 Ropelay 2 3/4" to 6 1/2" 65BKB CS32-4-32D HCPK4 1 32 Ropelay 6 1/2" to 10 65BKB CS32-4-32F HCPK4 1 32 Ropelay 10 to 14 65BKB CS32-4-32G HCPK4 1 Grounding cable 4/0 2 3/4" to 6 1/2" 90BKB CS32-4-4/0D HCPK4 1 4/0 6 1/2" to 10 90BKB CS32-4-4/0F HCPK4 1 4/0 10 to 14 90BKB CS32-4-4/0G HCPK4 1 MSC Note add R or L suffix to denote wire exiting left or right (e.g. CS32-4-29L for 29 Strand Ropelay exiting left). Molds for other cable sizes and configurations can be manufactured on request. Special designs for all Blackburn EZWeld exothermic welding molds available on request. Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/9

Blackburn EZWeld exothermic welding Handle clamps & accessories Handle clamps EZWeld Part no. Description HCPK3B Sprung, single part molds (Price Key 3) 1 HCPK4 Two part molds (Price Key 4) 1 Frame FRAME1 Frame for use with handle clamp HCPK4 1 Accessories EZWeld 7 Cable cleaning brush, Tape cleaning brush, & Mold cleaning brush Part no. Description Application WWB1 Cable cleaning brush Cleaning stranded and other circular section conductor 6 WRB1 Replacement elements (pair) 3 BFC Card cloth brush Cleaning of conductors and surfaces 10 FGUN Flint ignitor gun Staring powder ignition 10 BCM Mold cleaning brush Soft brush for mold cleaning 10 STM1-TB Mold scraper tool Breaking up and removal of slag from mold 10 MSC Mold sealing compound Sealing molds to uneven surfaces 5 PACK-A Packing Sealing molds to reinforcing bars 50 SHIM Copper shim Sealing around undersize conductors 100 TB100-FU Welding toolbox Tool, mold and handle clamp storage 1 MJ-4 Mold jacket (Price Key 3 & 4) Heat resistant jacket for safe transportation of molds 1 Packing, Flint gun, & Mold cleaning scraper 7/10 Blackburn EZWeld exothermic welding product range 9AKK106354A3360

Blackburn EZWeld exothermic welding product range 9AKK106354A3360 7/11 7

8 8/0 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference Technical reference Risk assessment 8/3 Protection of ordinary buildings 8/3 Selection of materials for an LPS 8/3 Protection using strike termination devices 8/3 Establishing a Zone of Protection against lightning 8/4 Rolling sphere method 8/4 Protective angle method 8/4 Positioning of strike termination devices 8/5 Protection of dormers 8/6 Protection of roofs with intermediate ridges 8/6 Protection of domed or curved roofs 8/6 Irregular roof lines 8/6 Open courtyards and other interior open areas 8/6 Chimneys, vents and other roof top structures 8/6 Installation of the conductor network 8/7 Installations with structural steelwork 8/8 Ground electrode system 8/9 Common grounds 8/10 Bonding of grounded and isolated metal bodies 8/11 Bonding of long, vertical bodies 8/11 Lightning equipotential bonding 8/11 Application of surge protective devices (SPDs) 8/11 8 Furse UL Listed lightning protection product range 9AKK106354A3360 8/1

Technical reference NFPA 780 & UL 96A Protecting against the hugely destructive effects of lightning is critical for the safety of people, the protection of property, and the ongoing performance of electrical and electronic systems in business. Protection begins with a design to NFPA 780 or UL 96A. This technical guidance is provided as supportive information to those looking to undertake a specific lightning protection system (LPS) design to NFPA 780 and UL 96A. All standards are open to individual interpretation and this guidance reflects our own views. It is not intended to replace the recommendations of NFPA 780 and UL 96A, and the reader is advised to familiarise themselves with the content of both these standards when undertaking LPS design. This guidance focuses on the provision of LPS for ordinary structures as defined by NFPA 780 and UL 96A. It does not cover special occupancies, watercraft, heavy duty stacks or structures containing flammable vapors, gases or liquids. Nor does it consider electrical transmission lines, substations or generators generally deemed outside the scope of these standards. Additionally, within this guidance, reference to sizes and distances are made in imperial measurements. 8 8/2 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference NFPA 780 & UL 96A Risk assessment Assessment of lightning risk is currently outlined in Annex L of NFPA 780, which provides options for either a simplified or detailed risk assessment approach. Risk assessment considers the local lightning flash density and collection area of the structure, as well as its surroundings, the materials used in its construction, and most importantly the structure s purpose (i.e. the people likely to be present, the equipment it will likely contain, the critical nature of its function). Once a structure is defined at risk, a suitable LPS can be designed to afford it ongoing protection. For structures which may be in an isolated location, or may house large crowds (e.g. stadiums), or may perform critical services (e.g. hospitals), the provision of lightning protection for life safety and the ongoing operation of systems may be recommended irrespective of risk assessment. Protection of ordinary buildings NFPA 780 classifies an ordinary building as a structure of common or conventional construction which may be used for commercial, institutional, agricultural or residential purposes. These ordinary buildings may be constructed from any number of materials, including concrete, masonry, timber, metal cladding, and metal framework etc., some of which may be utilised when designing the LPS. Two Classes of ordinary building are defined: Class I, being no more than 75 feet in height Class II, being 75 feet or higher in construction Class II installations should follow the requirements for Class I, with additional parameters for locations on the structure above the 75 feet level: Strike protection devices, such as air terminals, should be sized according to the appropriate guidance in UL 96 Conductors should be sized to Class II following UL 96 Therefore a Class II structure may utilise Class I materials at the lower level below 75 feet, so long as all conductors and components are interconnected, electrically continuous and Class II conductors are used all the way to ground for all portions of the Class II LPS. Selection of materials for an LPS NFPA 780 & UL 96A require that appropriate materials are utilised within an LPS, as guided by product standard UL 96. Metallic components should be resistant to corrosion. Copper and aluminum along with suitable quality alloys of same are therefore considered acceptable, as well as stainless steel grade 18-8 hardware (alloy 302, 303, 304). LPS installations should avoid the risk of galvanic corrosion when combining copper and aluminum, with the interconnection of these two metals only made by an appropriately approved bimetallic connector. Copper has greater flexibility in installation, whereas aluminum should not be installed in direct contact with earth, in damp/wet locations, within concrete or masonry, nor on surfaces coated with an alkaline base paint. Protection using strike termination devices A strike termination device is a component which captures the lightning strike, and through connection to the LPS, enables the lightning current to pass safely to the mass of earth. Strike termination devices should be installed around the main roof line of a structure, and any lower parts which are exposed to direct lightning risk. They may include (in one or more combinations): Air terminals, such as aluminum or copper air rods Metal masts of minimum thickness 3/16 Self-supporting overhead ground wire of copper, aluminum, stainless, galvanised or protected steel (e.g. copper clad), sized at least equivalent to the appropriate Class of main size lightning protection conductor Permanently installed metal parts of a structure, with a thickness at least 3/16 All strike termination devices should be connected to the LPS using main sized lightning protection conductor following UL 96A, with a two-way path to ground, unless an acceptable dead-end or short conductor drop. 8 All LPS should be installed by responsible persons, certified to perform the work in a neat, professional manner. Furse UL Listed lightning protection product range 9AKK106354A3360 8/3

Technical reference NFPA 780 & UL 96A 8 Establishing a Zone of Protection against lightning The Zone of Protection of a structure is effectively the zone created above and around it by the combination and correct positioning of strike termination devices, which render that structure immune to a direct lightning strike. All exposed parts of the structure are protected against lightning risk. To identify whether a structure is adequately protected, LPS positioning can be assessed using one of two methods: The rolling sphere method The protective angle method Rolling sphere method The rolling sphere method is a simple means for identifying a Zone of Protection, and is suitable for all types of structures, particularly those of complex geometry. The basic concept of applying the rolling sphere to a structure is illustrated in Figure 1. Within NFPA 780 & UL 96A, the rolling sphere is defined as having a radius of 150 feet. In assessment, the rolling sphere should at no point contact the surface of the structure - it should rest at all times on the installed strike termination devices. All possible placements of the rolling sphere should be considered. Lower sections of a structure that lie within the Zone of Protection which cannot be contacted by the rolling sphere would be considered protected by the LPS. The rolling sphere is considered at all times to be tangent to the earth. Therefore, to NFPA 780 & UL 96A, the risk of side flashes from lightning to a structure is not considered. Protective angle method The protective angle method considers the three dimensional protection afforded by a strike termination device installed on a structure, to include protection of lower level roofs and other exposed structural parts below the main roof line. It is suitable for structures up to 50 feet. The protective angle is calculated as a ratio of horizontal to vertical distance, dependent on the height of the structure (see Figure 2): For a strike termination device positioned no higher than 25 feet above earth, lower structural parts are protected to a 1:2 ratio (i.e. 63 degrees from vertical) For a strike termination device higher than 25 feet but not higher than 50 feet above earth, lower structural parts are protected to a 1:1 ratio (i.e. 45 degrees from vertical) Figure 1: Application of the rolling sphere method Figure 2: Application of the protective angle method Rolling sphere radius 8/4 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference NFPA 780 & UL 96A Positioning of strike termination devices Strike termination devices should be applied to the structure to protect all exposed parts, with particular consideration given to: Flat and gently sloping roofs, including open areas Pitched roofs, including dormers Irregular roof lines Ridged or domed roofs Chimneys, vents and other structures in exposed locations Clear guidance is provided for positioning these devices: Edges/corners of flat and gently sloping roofs should be protected within 2 feet of the edge/corner Ridge edges on pitched roofs should be protected within 2 feet of the edge Perimeter and ridge air terminals should be spaced no more than 20 feet apart and must extend a minimum of 10 above the protected structure Air terminals may be spaced up to 25 feet apart if their tip is a minimum 24 above the protected structure Flat and gently sloping roofs greater than 50 feet in width or length should include additional air terminals across the roof at a spacing no more than 50 feet apart Air terminals over 24 should be secured to the structure at two locations minimum (not including its base), or supported by a brace at no less than half the air terminal s height A pitched roof is considered to be a roof having a span 40 feet or less with a slope 1/8 or greater, or a roof having a span more than 40 feet but with a slope 1/4 or greater. The Zone of Protection is determined by considering the height of the eaves above grade and the slope of the roof with respect to the defined rolling sphere radius. Firstly, the ridge should be protected at the edge and across the ridge, then: If a structure has an eave height no more than 50 feet above grade and the roof has no additional projections such as dormers etc., nor horizontal parts that extend beyond the eaves (other than a gutter), then the roof may be protected at the ridge only If a structure has an eave height between 50 feet and 150 feet above grade, using the rolling sphere method the eaves would not require protection if the slope of the roof is equal to or steeper than the tangent of the rolling sphere at the eave level. Any part of the structure outside this tangent (other than a gutter) would require protection If a structure has an eave height 150 feet or more above grade, the eaves would require protection An example of strike termination device positioning on flat and gently sloping roofs, and pitched roofs, is given in Figure 3. 8 Figure 3: Strike termination device positioning C A A A A A B B A: 15m (50ft) maximum spacing between air terminals B: 45m (150ft) maximum length of cross-run conductor permitted without a connection from the cross-run conductor to the main perimeter or down conductor C: 6m (20ft) or 7.6m (25ft) maximum spacing between air terminals along edge A: 15m (50ft) maximum spacing B: 6m (20ft) or 7.6m (25ft) maximum spacing Furse UL Listed lightning protection product range 9AKK106354A3360 8/5

Technical reference NFPA 780 & UL 96A 8 Protection of dormers Where a structure includes one or more dormers, they should be protected by strike termination devices if they lie outside the defined Zone of Protection of the main roof. This would consider dormers as high or higher than the main roof level, and those in exposed locations below. Protection of roofs with intermediate ridges Certain roof structures include a series of parallel ridges, of which the intermediate ridges may require protection dependent on the height of these ridges. Where the intermediate ridges are the same height as the outer ridges, they should be protected within 2 feet of each ridge with a strike termination device, and across the roof following the guidance for flat or gently sloping roofs Where an intermediate ridge is higher than the end ridges, it should be protected to the same level as the end ridge Protection of domed or curved roofs Protecting a domed or curved roof can pose particular difficulties and should be assessed using the rolling sphere method. Strike termination devices should be positioned at the center of the dome or curve, then at additional points on the curvature of the structure as determined to ensure no part remains outside a Zone of Protection. Irregular roof lines Irregular roof lines should be considered on a case-by-case basis, following the guidance provided for positioning strike termination devices on to a roof (e.g. air terminals within 2 feet of the edge). Open courtyards and other interior open areas If a flat-roofed structure includes an interior open area, such as a courtyard, the perimeter of this open area would require protection by strike termination devices, where the perimeter is greater than 300 feet overall, and both length and width are greater than 50 feet. Chimneys, vents and other roof top structures Structures above the roof line, such as chimneys and vents, or roof top metal bodies such as HVAC systems, require protection against lightning where these items are: Not sited in an existing Zone of Protection, and Have either a non-metallic enclosure, or a metallic enclosure with a metal thickness less than 3/16, or are metallic in construction These roof top structures should be provided with strike termination devices, generally in the form of air terminals, such that no outside corner is more than 2 feet from an air terminal. They should be connected to the LPS with a minimum of two paths to ground. The air terminals and lightning protection conductor may be attached to the exterior of these roof top structures, or if of a suitable material (e.g. copper conductor), may be concealed within the masonry/concrete of the structure and channelled to concealed conductors below the roof. If the roof top structure is metallic in nature, or has a metallic enclosure, with thickness 3/16 or greater, it would not require strike termination devices but may be bonded directly to the LPS with two paths to ground, using an appropriate main size bonding lug or bonding plate. Strike termination devices are not required for metal handrails or guardrails etc. which are 3/16 or thicker, or where the application of such would present a risk of injury. Metal handrails may therefore be bonded into the LPS to form an integral part. Bonding to the LPS should take place at each end, and if the handrail is longer than 100 feet, at every 100 feet or part thereof. 8/6 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference NFPA 780 & UL 96A Installation of the conductor network The conductor network comprises the conductor connecting all strike termination devices, the down conductors installed around the structure to channel lightning current to the mass of earth, lateral connections of down conductor, and conductor utilised for equipotential bonding. Strike termination devices should be interconnected using main size lightning protection conductor sized appropriately to the Class (I or II) of structure. This would include connecting all strike termination devices installed on ridges, around the perimeter of flat and gently sloping roofs, on or behind parapets and on roof top structures. Where a flat and gently sloping roof includes strike termination devices across the flat of the roof, these should be connected to the outer perimeter conductor at intervals not greater than 150 feet (see Figure 3). Conductors should provide a two-way path to ground, unless the conductor forms part of a short conductor drop to a lower roof level, or an acceptable dead-end to a strike termination device. Single path conductor drops to a lower roof level are acceptable where the single conductor is 40 feet or less. Dead-ends to strike termination devices are acceptable on a main roof where the total length of the conductor run is no more than 8 feet, and has a horizontal or downward path. For secondary roofs the total length of the dead-end conductor run can extend to 16 feet. The conductor to which the dead-end is connected should provide a two-way path to ground. When laying conductor, the installation should not include any bends less than 90 degrees, nor include a bend radius less than 8, except where conductors are interconnected using an appropriate tee or cross run clamp. Conductor should follow a horizontally or downward route to the grounding system, and not form U or V pockets. An exception is permitted for conductors rising on a 1/4 slope, if provided with a down conductor from the base of the conductor to ground or to an adjacent down conductor. Natural components, such as metal roofing, may be utilised as conductor where they are equal to or greater than 3/16 thick. Additionally, permanently installed, electrically continuous handrails and ladders may be used as conductor where they meet the requirements of NFPA 780 and UL 96A. Non-permanent installations such as gutters or down spouts etc. should not be utilised as a conductor. For down conductor installation, there should be a minimum of two conductors installed around the structure, connected to the perimeter roof conductor. These should be spaced as widely apart as practicable, with an average spacing of 100 feet or part thereof. For irregularly shaped roofs, additional down conductors would need to be applied as appropriate to ensure there is a two-way path to ground from each strike termination device. Down conductors should be fastened to the structure at intervals no greater than 3 feet apart. They should not be installed in gutters or down spouts etc. even if they are insulated due to the risk of corrosion occurring. Where entering a corrosive soil, the down conductor should be protected against corrosion by a coating above grade to a minimum of 3 feet, and below grade for its entire length. If a down conductor is located in a driveway, school playground, cattle yard, runway, public walk or similar, it should be protected from risk of damage or displacement for a minimum of 6 feet above grade by use of a protective guard. Metallic guards should be bonded at both ends to the conductor. It is permitted to conceal down conductor within the structure where feasible, for example in the roof void, behind cladding or partitions of outside walls, embedded within concrete (copper conductor only) or concealed in conduit or piping. If installed within metal conduit or piping, the down conductor should be bonded at each end, and at any point in between where the conduit or piping is not electrically continuous. 8 Conductors should not be run through air for a distance of more than 3 feet without being rigidly supported. Furse UL Listed lightning protection product range 9AKK106354A3360 8/7

Technical reference NFPA 780 & UL 96A Installations with structural steelwork Where a down conductor is run down the face of, or within steel reinforced concrete or other structural steelwork, the conductor should be bonded to the steel at its upper and lower points, and at intervals no more than 200 feet apart, via the use of clamps, brazing or welding. Additionally, the metal structural framework may be utilised as the main lightning protection down conductor where it is (or is made) electrically continuous and has a thickness equal to or greater than 3/16. Strike termination devices may be bonded directly to the steel where feasible, or connected by main size lightning protection conductor and a suitable clamp (with a minimum contact surface area of 8 square inches), by brazing, or by welding with a connection area at least two times the cross-sectional area of the conductor. Connections to the ground electrode system should be made at every other outermost steel column around the perimeter, at their base, and not average more than 60 feet apart. The overall number of connections depends on the size of the roof perimeter requiring protection. Lightning protection and grounding connections should be made to bare, clean metal. Where a anti-corrosion protective coating is removed to make a connection, the completed installation should be provided with corrosion protection equal to the original. The steel column itself may be utilised for grounding. This would be feasible where the steel extends into and has direct contact with earth to a depth not less than 10 feet, in keeping with general principles for vertical ground electrodes. 8 Where structural steelwork or reinforcing bars are connected to a perimeter roof conductor, the spacing of connections should be no more than 100 feet apart. 8/8 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference NFPA 780 & UL 96A Ground electrode system The ground electrode system is vital for the dispersion of lightning current safely and effectively into the ground. Each down conductor in the LPS should be robustly and permanently attached to the ground electrode system either by use of suitably listed clamps, by brazing, by welding (including exothermic welding) with a connection area at least two times the cross sectional area of the conductor, or by high compression connectors. The prevailing soil conditions and site layout determine the choice (and combination) of ground electrode system. The system may comprise one or more of: Solid wire or strip Ground rods (min. 1/2 diameter and 8 feet in length) Solid ground plates (min. square 2 feet contact surface area) Concrete-encased electrodes Ground ring electrode Trenched electrode (radials) The ground electrode system should ideally be installed at least two feet from the perimeter of the structure and below the frost line (i.e. 18 below grade). Ground rods should be driven a minimum of 10 feet into the ground. Where sand or gravel conditions exist, multiple ground rods should be installed to improve grounding, separated at a minimum distance between the two rods at least equal to the total length of the rod. Radial electrodes are essentially conductors not less than 12 feet in length, laid in trenches which extend away from the structure at the end of each down conductor. For differing soil conditions, trenches should be at least: 12 feet long in clay soil, or 24 feet long in sand or gravelly soil Where the ground electrode (either a trench or ground ring electrode) is sited directly onto bedrock, it should be secured to the bedrock at intervals of no more than 3 feet apart. Concrete-encased electrodes should only be installed in newbuild construction, and be surrounded by a minimum of 2 of concrete. They should be considered only as part of a ground electrode system which comprises other additional grounding methods (e.g. a perimeter ground ring). The grounding electrode should be sited near the base of a concrete foundation slab which is in direct contact with earth. The electrode should consist either: 20 feet or more of bare copper main size conductor, or 20 feet of one or more steel reinforcing bars or rods with a minimum 1/2 diameter Where reinforcing bars or rods are utilised, they should be bonded together by welding or by overlapping to a length of 20 times their diameter and wire tying. 8 If the structure does not permit the location of ground electrodes outside it s perimeter/foundation wall, the ground electrode system may be located inside the structure as close as possible to its perimeter, for example in the basement. Stranded cable may only be used as a ground ring electrode, trenched electrode or a concrete-encased electrode. A ground ring electrode should consist of main size copper conductor, not less than 18 below ground, either in contact with earth or encased in a concrete footing. If the site conditions include a shallow topsoil, it is permitted to install a ground plate, ground ring electrode or radial electrode buried at the maximum depth of the topsoil above the bedrock. Furse UL Listed lightning protection product range 9AKK106354A3360 8/9

N Technical reference NFPA 780 & UL 96A Common grounds Existing grounding systems, for example for electrical or communications etc., and underground metallic piping should not be utilized for lightning protection grounding. However all grounding systems at site should be bonded together, using main size conductors (as per National Electrical Code ANSI/NFPA 70) and using suitable connectors, to achieve a common ground potential. This includes services such as power, telecommunications, water and gas etc., entering the structure, plus any metal well casings within 25 feet. Options for interconnecting all grounding systems include: Connection to a ground bar which is connected to the LPS by main size lightning protection conductor Grounding to an electrically continuous metallic water pipe within its first five feet Bonding directly to the LPS with main size conductors Bonding to the metallic structural frame as per NFPA 70 Where a metallic water pipe is not electrically continuous, the non-conductive sections should be bridged with main size conductors to achieve continuity, or bonding connections made at a location where the pipe is electrically continuous. Figure 4: Example of main equipotential bonding 8 Electricity meter Consumer unit/ fuseboard SPD Neutral bar Structural lightning protection system Central heating system ON Equipotential bonding bar OFF Live bar Meter Electronic appliances Screen of antenna cable Power from utility Gas Meter Water 8/10 Furse UL Listed lightning protection product range 9AKK106354A3360

Technical reference NFPA 780 & UL 96A Bonding of grounded and isolated metal bodies Metalwork within or outside a structure may present a lightning hazard where it is grounded and is in such close proximity that lightning current may flash over. To UL 96A, grounded metal bodies situated within 6 feet of a main conductor should be bonded to the LPS. Bonding should take place at the closest point between the metal body and the LPS, using secondary bonding conductors. Additionally, where a grounded metal body is connected to the LPS at only a single location, the assessment as to whether additional bonding would be required is determined by calculated bonding distance. Calculation factors include the vertical distance between the bond and the nearest LPS bond, the number of down conductors located within 100 feet, and the medium through which the flashover would occur (e.g. air, concrete etc.) In effect, where the grounded metal body is situated within the calculated bonding distance from the LPS or metalwork integrated into the LPS, additional bonding would be required. Isolated metal bodies may influence the need for bonding where they are located close to main size lightning protection conductor and a grounded metal body, as they can act as a bridge for the flashover. The requirement for bonding again should be assessed relative to the calculated bonding distance. Where the total distance between the conductor and isolated metal body, and between isolated metal body and grounded metal body, is equal to or lower than the calculated bonding distance, additional bonding would be required. The bonding can be achieved directly from grounded metal body to the LPS, or via the isolated metal body. Bonding of long, vertical metal bodies The requirement for bonding long, vertical metal bodies generally relates to steel framed structures or reinforced concrete structures where the reinforcement is grounded. In these structures, if a vertical metal body exceeds 60 feet in height, it should be bonded as close as practicable to its top and base to the structural steelwork, unless bonding is considered inherent through construction. Lightning equipotential bonding Equipotential bonding is the electrical interconnection of all appropriate metallic installations/parts, such that in the event of lightning currents flowing, no metallic part is at a different voltage potential with respect to another. If the metallic parts are essentially at the same potential then the risk of sparking or flashover is nullified. The requirement for equipotential bonding is determined according to the height of the structure. For structures up to 60 feet in height, equipotential bonding is achieved through connection of the metallic installations/parts and buried conductor to a loop conductor, connected to the LPS, within 12 feet of the base of the structure. A ground ring electrode may be utilised for this purpose. For structures exceeding 60 feet in height, in addition to a ground loop conductor, a roof level loop conductor should be installed to enable interconnection of all metallic installations/ parts to the LPS, within 12 feet of the main roof level. The perimeter roof conductor can be used for this purpose for structures with flat and gently sloping roofs, whereas for pitched roofs, the loop conductor should be positioned at the eaves. Taller structures would in addition require loop conductors at intermediate levels, at intervals no greater than 200 feet, unless the structure has an electrically continuous steel frame connected to the LPS which can be used for this purpose. Application of surge protective devices (SPDs) SPDs should be installed on power and conductive data, signal and communications lines at the service entrance to the structure, and on outgoing lines to connected structures, where these lines exceed 100 feet, to protect against transient overvoltages. For power supply lines, the SPD installed should comply with UL 1449 and ANSI/IEEE C62.11. For data, signal and telecommunications lines, the SPD installed should comply with ANSI/NFPA 70, UL 452, UL 497 and UL 497C. Additional SPDs are recommended at sub-distribution as well as local to the equipment, to ensure effective protection. For more information, or assistance with LPS design, please do not hesitate to contact us. 8 Furse UL Listed lightning protection product range 9AKK106354A3360 8/11

Complimentary Solutions Furse & Blackburn Grounding Furse IEC/BS EN Product Range Furse is a leading brand for earthing & lightning protection, and is recognised worldwide for delivering high quality, innovative products and solutions to electrical and construction markets. In addition to this UL 96 range, Furse offers a comprehensive range of earthing and lightning protection products for IEC or BS/EN projects. Our IEC/BS EN range includes: Lightning protection, including air termination and down conductors Earthing systems, including earth rods and pits Equipotential bonding bars, earth bonds and clamps Exothermic welding Surge Protective Devices 8 Blackburn Grounding Blackburn is a major brand delivering UL compliant solutions for grounding and power distribution, including a comprehensive range of mechanical clamps, compression connectors and distribution blocks. Blackburn delivers innovative solutions for grounding which ensure customers achieve the most efficient, high quality connections, with the highest reliability and performance, in their electrical and grounding installations. The Blackburn range includes: Compression connectors, C-taps and splices Mechanical connectors & clamps AMT connectors Ground rods, clamps & accessories Color-Keyed compression lugs & tools Secondary underground connectors Power distribution blocks 8/12 Furse UL Listed lightning protection product range 9AKK106354A3360

Complimentary Solutions Surge Protective Devices (SPDs) Current Technology & Joslyn The UL 1449 Listed range of Current Technology SPDs provide true single- and repetitive-surge test data that fully comply with engineering specifications, plus include integral disconnect functionality, and tri-colored LEDs for secure indication of protection levels. Current Technology SPDs also fulfil the requirements of National Electrical Code (NEC) Article 708, Critical Operational Power System (COPS) for SPDs at each voltage level inside of a facility, as well as UL 96A requirements for LPS. The Joslyn brand is a leader in power, signal, and communications protection, providing innovative technology, manufacturing, and distribution of surge protection products. Joslyn AC devices include products for facility wide installation, prewired units for equipment-level protection and customtailored solutions for OEMs. Furse SPDs The Furse range of SPDs has been specifically designed to deliver coordinated protection against partial lightning currents and transient overvoltages. 8 Installed with our IEC/BS EN range of structural lightning protection and earthing products, Furse SPDs offer industry leading low let through voltages and repeated protection against surges. The Furse SPD range includes: Mains Power SPDs DC power SPDs Data, signal & telecommunications SPDs SPDs for wind turbines SPDs for photovoltaic systems Furse UL Listed lightning protection product range 9AKK106354A3360 8/13

Part number index Alphanumeric product list Part Page no. no. 274 5/9 Part Page no. no. 54864BE 6/17 Part Page no. no. ATA5818 3/2 Part Page no. no. ATCBC6T 3/10 Part Page no. no. ATEC3812T 3/4 Part Page no. no. ATHBBT38 3/13 8 275 5/9 276 5/9 280 5/7 281 5/7 291 5/7 295 5/7 296 5/7 240-12 5/10 240-24 5/10 240-36 5/10 240-6 5/10 241-12 5/10 241-24 5/10 241-36 5/10 241-6 5/10 241S-12 5/10 241S-24 5/10 241S-36 5/10 241S-6 5/10 256-30695-1116 6/17 256-30695-1116P 6/17 256-30695-1117 6/17 256-30695-1117P 6/17 256-30695-1118 6/17 256-30695-1118P 6/17 256-30695-1119 6/17 256-30695-1119P 6/17 256-30695-1222 6/17 256-30695-1222P 6/17 256-30695-1245 6/17 256-30695-1245P 6/17 274S 5/9 277S 5/9 5008L 6/9 5008LS 6/8 5010L 6/9 5010LS 6/8 50LC 6/8 50LCNT 6/9 50LDS 6/8 54816BE 6/17 54818BE 6/17 54819BE 6/17 54821BE 6/17 54826BE 6/17 54868BE 6/17 54866BE 6/17 54870BE 6/17 54872BE 6/17 54872BE 6/17 54876BE 6/17 54878BE 6/17 54878BE 6/17 54879BE 6/17 54880BE 6/17 54882BE 6/17 54888BE 6/17 58826BE 6/17 58884BE 6/17 60C 6/8 60CNT2 6/9 60DSNT 6/9 60DS 6/8 6258 6/9 6258S 6/8 6260 6/9 6260S 6/8 70C 6/8 70CNT 6/9 70DS 6/8 7508 6/9 7508S 6/8 7510 6/9 7510S 6/8 A274 5/9 AC24-14 2/2 AC37R-13 2/2 ACFA 5/2 ACFC 5/2 ACFC-T 5/2 ACL1 5/2 ACL2 5/2 ACL4 5/2 AK005 6/13 AS100 6/13 ATA1212 3/2 ATA1216 3/2 ATA1218 3/2 ATA1224 3/2 ATA1236 3/2 ATA1248 3/2 ATA5812 3/2 ATA5824 3/2 ATA5836 3/2 ATA5848 3/2 ATC1212 3/3 ATC1212T 3/3 ATC1216 3/3 ATC1216T 3/3 ATC1218 3/3 ATC1218T 3/3 ATC1224 3/3 ATC1224T 3/3 ATC1236 3/3 ATC1236T 3/3 ATC1248 3/3 ATC1248T 3/3 ATC3812 3/3 ATC3812T 3/3 ATC3816 3/3 ATC3816T 3/3 ATC3818 3/3 ATC3818T 3/3 ATC3824 3/3 ATC3824T 3/3 ATC3836 3/3 ATC3836T 3/3 ATC3848 3/3 ATC3848T 3/3 ATC5812 3/3 ATC5812T 3/3 ATC5816 3/3 ATC5816T 3/3 ATC5818 3/3 ATC5818T 3/3 ATC5824 3/3 ATC5824T 3/3 ATC5836 3/3 ATC5836T 3/3 ATC5848 3/3 ATC5848T 3/3 ATCBA12 3/10 ATCBA18 3/10 ATCBA6 3/10 ATCBC12 3/10 ATCBC12T 3/10 ATCBC18 3/10 ATCBC18T 3/10 ATCIBA12 3/11 ATCIBA18 3/11 ATCIBA6 3/11 ATCIBC12 3/11 ATCIBC12T 3/11 ATCIBC18 3/11 ATCIBC18T 3/11 ATCIBC6 3/11 ATCIBC6T 3/11 ATCOA1212FF 3/6 ATCOA1258FF 3/6 ATCOA5858FF 3/6 ATCOC1212FF 3/6 ATCOC1212FF-T 3/6 ATCOC1258FF 3/6 ATCOC1258FF-T 3/6 ATCOC3812FF 3/6 ATCOC3812FF-T 3/6 ATCOC3838FF 3/6 ATCOC3838FF-T 3/6 ATCOC5858FF 3/6 ATCOC5858FF-T 3/6 ATEA1212 3/2 ATEA1216 3/2 ATEA1218 3/2 ATEA1224 3/2 ATEA1236 3/2 ATEA1248 3/2 ATEA5812 3/2 ATEA5816 3/2 ATEA5818 3/2 ATEA5824 3/2 ATEA5836 3/2 ATEA5848 3/2 ATEC1212 3/4 ATEC1212T 3/4 ATEC1216 3/4 ATEC1216T 3/4 ATEC1218 3/4 ATEC1218T 3/4 ATEC1224 3/4 ATEC1224T 3/4 ATEC1236 3/4 ATEC1236T 3/4 ATEC1248 3/4 ATEC1248T 3/4 ATEC3816 3/4 ATEC3816T 3/4 ATEC3818 3/4 ATEC3818T 3/4 ATEC3824 3/4 ATEC3824T 3/4 ATEC3836 3/4 ATEC3836T 3/4 ATEC3848 3/4 ATEC3848T 3/4 ATEC5812 3/4 ATEC5812T 3/4 ATEC5816 3/4 ATEC5816T 3/4 ATEC5818 3/4 ATEC5818T 3/4 ATEC5824 3/4 ATEC5824T 3/4 ATEC5836 3/4 ATEC5836T 3/4 ATEC5848 3/4 ATEC5848T 3/4 ATFA1212FF 3/8 ATFA1212FM 3/8 ATFA1258FF 3/8 ATFA5812FF 3/8 ATFA5812FM 3/8 ATFA5858FF 3/8 ATFC1212FF 3/8 ATFC1212FF-T 3/8 ATFC1212FM 3/8 ATFC1212FM-T 3/8 ATFC1258FF 3/8 ATFC1258FF-T 3/8 ATFC1258FM 3/8 ATFC5812FF 3/8 ATFC5812FF-T 3/8 ATFC5812FM 3/8 ATFC5812FM-T 3/8 ATFC5858FF 3/8 ATFC5858FF-T 3/8 ATHBBA12 3/13 ATHBBA58 3/13 ATHBBC12 3/13 ATHBBC38 3/13 ATHBBC58 3/13 ATHBBT58 3/13 ATIBA12 3/11 ATIBA58 3/11 ATIBC12 3/11 ATIBC12T 3/11 ATIBC38 3/11 ATIBC38T 3/11 ATIBC58 3/11 ATIBC58T 3/11 ATPCA112-12 3/14 ATPCA112-58 3/14 ATPCA12-12 3/13 ATPCA12-58 3/13 ATPCA212-12 3/14 ATPCA212-58 3/14 ATPCA4-12 3/15 ATPCA4-58 3/15 ATPCA6-12 3/15 ATPCA6-58 3/15 ATPCC112-12 3/14 ATPCC112-38 3/14 ATPCC112-58 3/14 ATPCC12-12 3/13 ATPCC12-38 3/13 ATPCC12-58 3/13 ATPCC212-12 3/14 ATPCC212-38 3/14 ATPCC212-58 3/14 ATPCC4-12 3/15 ATPCC4-38 3/15 ATPCC4-58 3/15 ATPCC6-12 3/15 ATPCC6-38 3/15 ATPCC6-58 3/15 ATPCT112-12 3/14 ATPCT112-38 3/14 ATPCT112-58 3/14 ATPCT12-12 3/13 ATPCT12-38 3/13 ATPCT12-58 3/13 ATPCT212-12 3/14 ATPCT212-38 3/14 ATPCT212-58 3/14 ATPCT4-12 3/15 ATPCT4-38 3/15 ATPCT4-58 3/15 54862BE 6/17 ATA5816 3/2 ATCBC6 3/10 ATEC3812 3/4 ATHBBT12 3/13 ATPCT6-12 3/15 8/14 Furse UL Listed lightning protection product range 9AKK106354A3360

Part Page no. no. ATPCT6-38 3/15 Part Page no. no. ATSWC5858FM-T 3/7 Part Page no. no. CR1-4-500L250K 7/5 Part Page no. no. CRE1-3-29Z 7/6 Part Page no. no. CS32-4-32F 7/9 Part Page no. no. GRCC34 6/7 ATPCT6-58 3/15 ATRBA12 3/12 ATRBA58 3/12 ATRBC12 3/12 ATRBC12T 3/12 ATRBC38 3/12 ATRBC38T 3/12 ATRBC58 3/12 ATRBC58T 3/12 ATS18 3/6 ATS18A 3/6 ATS24 3/6 ATS24A 3/6 ATS36 3/6 ATS36A 3/6 ATS48 3/6 ATS48A 3/6 ATSCW3858FF 3/7 ATSCW3858FF-T 3/7 ATSSBA12 3/12 ATSSBA58 3/12 ATSSBC12 3/12 ATSSBC12T 3/12 ATSSBC38 3/12 ATSSBC38T 3/12 ATSSBC58 3/12 ATSSBC58T 3/12 ATSWA1212FF 3/7 ATSWA1212FM 3/7 ATSWA1258FF 3/7 ATSWA5858FF 3/7 ATSWA5858FM 3/7 ATSWC1212FF 3/7 ATSWC1212FF-T 3/7 ATSWC1212FM 3/7 ATSWC1212FM-T 3/7 ATSWC1258FF 3/7 ATSWC1258FF-T 3/7 ATSWC3812FF 3/7 ATSWC3812FF-T 3/7 ATSWC3838FF 3/7 ATSWC3838FF-T 3/7 ATSWC3838FM 3/7 ATSWC3838FM-T 3/7 ATSWC5858FF 3/7 ATSWC5858FF-T 3/7 ATTKUBA12 3/9 ATTKUBA58 3/9 ATTKUBC12 3/9 ATTKUBC12T 3/9 ATTKUBC38 3/9 ATTKUBC38T 3/9 ATTKUBC58 3/9 ATTKUBC58T 3/9 ATUBA12 3/10 ATUBA58 3/10 ATUBC12 3/10 ATUBC12T 3/10 ATUBC38 3/10 ATUBC38T 3/10 ATUBC58 3/10 ATUBC58T 3/10 BCM 7/10 BFC 7/10 CARLISLE 5/12 CC1-4-250K 7/4 CC1-4-28 7/4 CC1-4-29 7/4 CC1-4-32 7/4 CC1-4-4/0 7/4 CC2-4-250K250K 7/4 CC2-4-250K4/0 7/4 CC2-4-2828 7/4 CC2-4-2929 7/4 CC2-4-2932 7/4 CC2-4-3229 7/4 CC2-4-3232 7/4 CC2-4-4/0250K 7/4 CC2-4-4/04/0 7/4 CC28-15 2/2 CC29-17 2/2 CC32-17 2/2 CCL1 5/2 CCL2 5/2 CCL3 5/2 CCL4 5/2 CCLT1 5/2 CCLT2 5/2 CCLT3 5/2 CCLT4 5/2 CM005 5/13 CM025 6/11 CR1-4-500L28 7/5 CR1-4-500L29 7/5 CR1-4-500L32 7/5 CR1-4-500L4/0 7/5 CR1-4-625250K 7/5 CR1-4-62528 7/5 CR1-4-62529 7/5 CR1-4-62532 7/5 CR1-4-6254/0 7/5 CR1-4-750250K 7/5 CR1-4-75028 7/5 CR1-4-75029 7/5 CR1-4-75032 7/5 CR1-4-7504/0 7/5 CR2-4-500L250K 7/5 CR2-4-500L28 7/5 CR2-4-500L29 7/5 CR2-4-500L32 7/5 CR2-4-500L4/0 7/5 CR2-4-625250K 7/5 CR2-4-62528 7/5 CR2-4-62529 7/5 CR2-4-62532 7/5 CR2-4-6254/0 7/5 CR2-4-750250K 7/5 CR2-4-75028 7/5 CR2-4-75029 7/5 CR2-4-75032 7/5 CR2-4-7504/0 7/5 CR3-4-500L250K 7/6 CR3-4-500L28 7/6 CR3-4-500L29 7/6 CR3-4-500L32 7/6 CR3-4-500L4/0 7/6 CR3-4-625250K 7/6 CR3-4-62528 7/6 CR3-4-62529 7/6 CR3-4-62532 7/6 CR3-4-6254/0 7/6 CR3-4-750 250K 7/6 CR3-4-750 28 7/6 CR3-4-750 29 7/6 CR3-4-75032 7/6 CR3-4-7504/0 7/6 CRE1-3-28Y 7/6 CRE1-3-28Z 7/6 CRE1-3-32Y 7/6 CRE1-3-32Z 7/6 CRE1-3-4/0Y 7/6 CRE1-3-4/0Z 7/6 CRE2-3-28Y 7/7 CRE2-3-28Z 7/7 CRE2-3-29Y 7/7 CRE2-3-29Z 7/7 CRE2-3-32Y 7/7 CRE2-3-32Z 7/7 CRE2-3-4/0Y 7/7 CRE2-3-4/0Z 7/7 CRE6-3-28Y 7/7 CRE6-3-28Z 7/7 CRE6-3-29Y 7/7 CRE6-3-29Z 7/7 CRE6-3-32Y 7/7 CRE6-3-32Z 7/7 CRE6-3-4/0Y 7/7 CRE6-3-4/0Z 7/7 CS23-4-28 7/9 CS23-4-28C 7/9 CS23-4-28D 7/9 CS23-4-28F 7/9 CS23-4-28G 7/9 CS23-4-29 7/9 CS23-4-29C 7/9 CS23-4-29D 7/9 CS23-4-29F 7/9 CS23-4-29G 7/9 CS23-4-32 7/9 CS23-4-32C 7/9 CS23-4-32D 7/9 CS23-4-32F 7/9 CS23-4-32G 7/9 CS23-4-4/0 7/9 CS23-4-4/0 F 7/9 CS23-4-4/0C 7/9 CS23-4-4/0D 7/9 CS23-4-4/0G 7/9 CS32-4-28D 7/9 CS32-4-28F 7/9 CS32-4-28G 7/9 CS32-4-29D 7/9 CS32-4-29F 7/9 CS32-4-29G 7/9 CS32-4-32G 7/9 CS32-4-4/0 F 7/9 CS32-4-4/0D 7/9 CS32-4-4/0G 7/9 CS3-4-28 7/8 CS3-4-29 7/8 CS3-4-32 7/8 CS3-4-4/0 7/8 CS54S 5/8 CS57S 5/8 CS58S 5/8 CS8-4-28 7/8 CS8-4-29 7/8 CS8-4-32 7/8 CS8-4-4/0 7/8 CTCA 5/4 CTCB 5/4 CTCC 5/4 CTCT 5/4 CTCTA 5/4 CTCTC 5/4 CTCTT 5/4 ES300 6/12 ES300-12 6/12 ES300-15 6/12 ES300-16 6/12 ES300-20 6/12 ES300-34 6/12 ES300-58 6/12 ES310-03 6/12 ES310-05 6/12 ES310-10 6/12 ES310-15 6/12 ES310-20 6/12 ES310-30 6/12 ES320 6/12 FGUN 7/10 FIRESTONE 5/12 FRAME1 7/10 GC301 5/14 GC302 5/14 GP1-1224 6/11 GP1-1818 6/11 GP1-2424 6/11 GP2-1224 6/11 GP2-1818 6/11 GRCC58 6/7 GRCT34 6/7 GRCT58 6/7 GSA3 6/4 GSA4 6/4 GSA6 6/4 GSA8 6/4 GSC3 6/4 GSC4 6/4 GSC6 6/4 GSC8 6/4 GST3 6/4 GST4 6/4 GST6 6/4 GST8 6/4 HCPK3B 7/10 HCPK4 7/10 JH100 6/13 LKC414-12 6/16 LKC414-16 6/16 LKC414-20 6/16 LKC414-24 6/16 LKC414-6 6/16 LKJ414-12 6/16 LKJ414-16 6/16 LKJ414-20 6/16 LKJ414-24 6/16 LKJ414-6 6/16 M1-10 5/11 M1-2 5/11 MBLA 6/2 MBLC 6/2 MBLSA 6/2 MBLSC 6/2 MBLST 6/2 MBLT 6/2 MBPA 6/4 MBPC 6/4 MBPT 6/4 MCBPA1 4/8 MCBPA2 4/9 MCBPC1 4/8 MCBPC2 4/9 MCBPT1 4/8 MCBPT2 4/9 MJ-4 7/10 8 ATSWC5858FM 3/7 CM030 6/11 CRE1-3-29Y 7/6 CS32-4-32D 7/9 GP2-2424 6/11 MSC 7/10 Furse UL Listed lightning protection product range 9AKK106354A3360 8/15

Part number index Alphanumeric product list Part Page no. no. N420S 5/8 Part Page no. no. PCT4 6/6 Part Page no. no. STTBT58 3/5 Part Page no. no. TRPHB114-12 4/3 Part Page no. no. TRPVC1-36 4/4 Part Page no. no. W6L 5/8 8 N518S 5/8 N616S 5/8 N813S 5/8 PACK-A 7/10 PC100-FU 6/14 PC101 6/14 PC105 6/14 PC106 6/14 PC110 6/15 PC111 6/15 PC125 6/14 PC126-FU 6/14 PC150 6/14 PC151 6/14 PC155 6/14 PC156 6/14 PC160 6/14 PC161 6/14 PC165 6/14 PC166 6/14 PC170 6/14 PC171 6/14 PC180 6/15 PC181 6/15 PC185 6/15 PC186 6/15 PC211 6/15 PC217 6/14 PC230 6/15 PC231 6/15 PCA112 6/5 PCA12 6/5 PCA212 6/6 PCA4 6/6 PCA6 6/7 PCC112 6/5 PCC12 6/5 PCC212 6/6 PCC4 6/6 PCC6 6/7 PCCA 5/5 PCCB 5/5 PCCC 5/5 PCCT 5/5 PCT112 6/5 PCT12 6/5 PCT6 6/7 PT005 6/13 PT006 6/13 PT007 6/13 PT110 6/13 PT205 6/13 RC010-KIT 6/10 RC015-KIT 6/10 RS005-KIT 6/10 RX005 6/15 RX012 6/15 RX034 6/15 RX058 6/15 SCA1 2/3 SCC1 2/3 SCC14 2/3 SCS10 2/3 SCSA 5/3 SCSB 5/3 SCSC 5/3 SHIM 7/10 SIKAFLEX 5/11 SSBA 6/3 SSBC 6/3 SSBT 6/3 SSCA 5/5,6/3 SSCC 5/5,6/3 SSCT 5/5,6/3 SSRC-C 5/6 SSRC-L 5/6 SSRC-V 5/6 STBA12 3/5 STBA58 3/5 STBC12 3/5 STBC38 3/5 STBC58 3/5 STBT12 3/5 STBT38 3/5 STBT58 3/5 STM1-TB 7/10 STTBA12 3/5 STTBA58 3/5 STTBC12 3/5 STTBC38 3/5 STTBC58 3/5 STTBT12 3/5 TB100-FU 7/10 TCC28-15 2/2 TCC29-17 2/2 TCC32-17 2/2 TD005 5/13 TP120-FU 5/14 TRHA12 4/5 TRHA18 4/5 TRHA24 4/5 TRHA36 4/5 TRHA6 4/5 TRHB12 4/5 TRHB18 4/5 TRHB24 4/5 TRHB36 4/5 TRHB6 4/5 TRHC12 4/5 TRHC18 4/5 TRHC24 4/5 TRHC36 4/5 TRHC6 4/5 TRHT12 4/5 TRHT18 4/5 TRHT24 4/5 TRHT36 4/5 TRHT6 4/5 TRLA1 4/2 TRLA114 4/2 TRLB1 4/2 TRLB114 4/2 TRLC1 4/2 TRLC114 4/2 TRLT1 4/2 TRLT114 4/2 TRPA1 4/8 TRPA114 4/8 TRPC1 4/8 TRPC114 4/8 TRPHA1-12 4/3 TRPHA114-12 4/3 TRPHA114-18 4/3 TRPHA114-24 4/3 TRPHA114-36 4/3 TRPHA1-18 4/3 TRPHA1-24 4/3 TRPHA1-36 4/3 TRPHB114-18 4/3 TRPHB114-24 4/3 TRPHB114-36 4/3 TRPHB1-18 4/3 TRPHB1-24 4/3 TRPHB1-36 4/3 TRPHC1-12 4/3 TRPHC114-12 4/3 TRPHC114-18 4/3 TRPHC114-24 4/3 TRPHC114-36 4/3 TRPHC1-18 4/3 TRPHC1-24 4/3 TRPHC1-36 4/3 TRPHT1-12 4/3 TRPHT114-12 4/3 TRPHT114-18 4/3 TRPHT114-24 4/3 TRPHT114-36 4/3 TRPHT1-18 4/3 TRPHT1-24 4/3 TRPHT1-36 4/3 TRPT1 4/8 TRPT114 4/8 TRPVA1-12 4/4 TRPVA114-12 4/4 TRPVA114-18 4/4 TRPVA114-24 4/4 TRPVA114-36 4/4 TRPVA1-18 4/4 TRPVA1-24 4/4 TRPVA1-36 4/4 TRPVB1-12 4/4 TRPVB114-12 4/4 TRPVB114-18 4/4 TRPVB114-24 4/4 TRPVB114-36 4/4 TRPVB1-18 4/4 TRPVB1-24 4/4 TRPVB1-36 4/4 TRPVC1-12 4/4 TRPVC114-12 4/4 TRPVC114-18 4/4 TRPVC114-24 4/4 TRPVC114-36 4/4 TRPVC1-18 4/4 TRPVT1-12 4/4 TRPVT114-12 4/4 TRPVT114-18 4/4 TRPVT114-24 4/4 TRPVT114-36 4/4 TRPVT1-18 4/4 TRPVT1-24 4/4 TRPVT1-36 4/4 TRVA12 4/6 TRVA18 4/6 TRVA24 4/6 TRVA36 4/6 TRVA6 4/6 TRVB12 4/6 TRVB18 4/6 TRVB24 4/6 TRVB36 4/6 TRVB6 4/6 TRVC12 4/6 TRVC18 4/6 TRVC24 4/6 TRVC36 4/6 TRVC6 4/6 TRVT12 4/6 TRVT18 4/6 TRVT24 4/6 TRVT36 4/6 TRVT6 4/6 TRWA12 4/7 TRWA18 4/7 TRWA24 4/7 TRWA6 4/7 TRWB12 4/7 TRWB18 4/7 TRWB24 4/7 TRWB6 4/7 TRWC12 4/7 TRWC18 4/7 TRWC24 4/7 TRWC6 4/7 TRWT12 4/7 TRWT18 4/7 TRWT24 4/7 TRWT6 4/7 TSCC1 2/3 TSCC14 2/3 W6S 5/8 W8L 5/8 W8S 5/8 WRB1 7/10 WWB1 7/10 PCT212 6/6 STTBT38 3/5 TRPHB1-12 4/3 TRPVC1-24 4/4 W5S 5/8 8/16 Furse UL Listed lightning protection product range 9AKK106354A3360

Contact us Thomas & Betts A Member of the ABB Group 8155 T&B Boulevard Memphis Tennessee 38125 Tel: +1 800 816 7809 Fax: +1 800 816 7810 www.tnb.com www.abb.com Note: We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail. ABB AG does not accept any responsibility whatsoever for potential errors or possible lack of information in this document. We reserve all rights in this document and in the subject matter and illustrations contained therein. Any reproduction, disclosure to third parties or utilization of its contents in whole or in parts is forbidden without prior written consent of ABB AG. Copyright 2016 ABB All rights reserved Copyright ABB. 4/2016 9AKK106354A3360