Cable Accessories up to 170 kv 4. Experience, Certificates, References. Terminations. Connection Boxes. Installation & Tools

Content General 3 Cable Accessories up to 170 kv 4 Experience, Certificates, References Terminations Joints Connection Boxes Installation & Tools Equipment for Substations up to 800 kv 46 Surge Arrester High Voltage Connection System (HVCS) Equipment for Transmission up to 500 kv 80 Tension Insulators Hardware for Transmission Lines Hardware for Distribution Lines

General Energy Division The Energy Division is a part of Tyco Electronics. The headquarter of the Energy Division is based in Ottobrunn, near Munich in Germany. The worldwide activities in of the Energy Division will be handled from here. Besides modern laboratories for Research and Development the production of heat shrink tubings is placed here also the logistic centre for shipments into the whole world. In other countries like United Kingdom and France we have factories for producing the products which will be shown in this catalogue. Germany France United Kingdom Quality and Environment Quality The Tyco Electronics factories are certified to ISO 9000. Our vendor routine tests and internal incoming inspection confirm performance of all critical components used in the assembly of our products. We offer competitive lead times on all standard products. Environment The Tyco Electronics factories are also certified to ISO 14001. The gentle exposure with natural resources for our products and processes is for us one of the important aspects. Packaging We try to minimize the packaging materials, without any danger for the products. All packaging materials can be disposed without any problems. Recycling The most waste of the different locations will be recycled. If possible this will be done at the location or the waste will be repatriate to the economic cycle in another kind. Production Processes Our production processes are arranged to minimize the influence of the environment. Hereby is the focus on an optimal Energy usage one of the main aspects. With special procedures we use the dispensed warmness from the production machinery to heat the production halls. Water We could reduce the usage of water by concurrent rising of the production volume. Waste We could reduce the amount of waste by concurrent rising of the production volume. Test Procedure and Qualification Tyco Electronics products are tested and certified to the major national and international standards, e. g. IEC, CENELEC, VDE, GOST, BS, etc.

Cable Accessories

Cable Accessories Experience, Certificates, References 6 Terminations 8 Joints 24 Connection Boxes 32 Installation & Tools 38 5

Experience Tyco Electronics Raychem GmbH is one of the World leaders on cable accessories production for voltages up to 170 kv. Our company is focused on development, manufacturing of cable accessories and execution of projects providing reliable operation of electric power systems. Application of Tyco Electronics Raychem GmbH cable accessories provides the increase of customers profitability and competitive capacity due to high operational performance of our products. World s leading enterprises apply our cable accessories which are developed for the long-term operation in most severe conditions of indoor and outdoor maintenance in any climatic zones and high pollution locations. Our products have a very high reliability index which guarantees saving of customers capital outlays. We use an experience accumulated within more than 40 years in sphere of materials science, development of new technologies and intensive study of customers needs. We propose comprehensive approach from supply of our products to putting into operation with single warranty. We constantly improve production technology and quality of our products paying attention to customers increasing requests. Our products passed all relevant tests in independent test labs in order to comply with quality requests of International Standards like IEC, IEEE. Tyco Electronics Raychem GmbH offers a wide range of cable accessories. In this catalogue we present the range from 42 kv up to 170 kv: Outdoor / Indoor Terminations Switchgear terminations and transformer terminations with Corona Shield Joints for plastic insulated cables Inline or shield-break type joints Tyco Electronics Raychem GmbH has technical support centers where customers can get professional assistance. Our specialists are always ready to find solutions for any specific issues of every enterprise. Certificates ISO 9000 series and ISO 14001 certifications for almost all locations underline our continuing commitment to quality and the environment. The products are subjected to extensive testing from the time they enter our plants as raw material until they leave as finished products. Requalification testing is carried out on a regular basis with installed components. Customers can thus have full confidence in the products, services and data supplied. In many cases, this saves cost and inconvenience of any further downstream verification.

References Our company has realized thousands of projects all over the World including tropical zones, deserts, places behind polar circle and in high pollution industrial and coastal areas. List of countries where our company executed projects with HV cable accessories increases every month and some of them are listed below: Australia Austria Belgium Brazil Canada China Colombia Croatia Denmark Egypt Finland France Germany Greece Hong-Kong India Indonesia Iran Ireland Kenya Korea Lithuania Luxemburg Netherlands Norway Peru Philippines Portugal Russia Saudi Arabia Singapore Slovenia Spain Sweden Taiwan Thailand Ukraine United Arabic Emirates United Kingdom USA Detailed list of projects quantity in each country and names of customers can be presented upon additional inquiry. 7

Terminations 8

Terminations from 42 kv up to 72 kv General 10 Indoor Terminations 11 Outdoor Terminations 11 Terminations with long creepage 11 Lugs for Terminations 12 Terminations up to 170 kv Outdoor, Composite, Dry plug-in 14 Outdoor, Composite, Oil-filled 16 Connectors for Outdoor Terminations 18 Switchgear & Transformer, Dry plug-in 20 Switchgear & Transformer, Oil-filled 22

Termination Systems for Polymeric Insulated Cables up to 72 kv Application Raychem s terminations up to 72 kv are suitable for all climates and environments, even severely polluted areas, and for all installation conditions, including top feed installation. The factory-engineered kits contain a proven termination system which saves space, facilitates installation and enhances system reliability. The special design of the termination, which incorporates pre-coated tracking resistant sealants that melt during the shrinking process, results in a reliable and lasting barrier against moisture and corrosion. Features The slim, compound-free Raychem Terminations are suitable for indoor and outdoor use on all polymeric cables for voltages from 42 kv up to 72 kv. Easy installation Non-tracking, heat-shrinkable outer insulation Heat-shrinkable stress control sleeves Pre-coated track resistant sealant Water and corrosion resistant Light-weight components Isolated base plate for sectionalisation High reliability 10

Outdoor Controlled torque lug Non-tracking heat-shrinkable outer insulation Heat-shrinkable sheds Heat-shrinkable stress-control sleeves Stress-relief material Indoor Major Design Elements Kit content: The kit contains a limited number of light- weight components with unlimited shelf life under normal storage conditions. The heat-shrinkable sleeves are extremely versatile, and accommodate a wide range of cable diameters. Four basic kits cover all cable sizes, permitting reduced inventories and efficient stocking policy. The lightweight of the components and limited volume of the kits facilitate safe and easy transportation and handling. All components are included in a single box. The set of pre-engineered components requires no special or expensive tools for installation. Installation involves a simple set of standard procedures with no soldering required. Neither does the termination require filling with oil or compound. Risk of leakage is avoided, and filling and topping-up time on the job site is saved. High Performance Material: Raychem terminations are made of a specially formulated material with excellent tracking and erosion resistance characteristics. Accelerated and natural weathering tests which have been carried out at Raychem facilities and independent test sites around the world have demonstrated that the terminations are UV and water resistant and perform reliably even when exposed to sudden temperature variations. A Tracking and Erosion Test as per ASTM D2303 showed no tracking. IEC 112 was also conducted with no erosion or tracking observed. Solderless grounding accessory High-voltage sealant 42 kv 52 kv 72 kv Indoor P P P P P Outdoor P P P P P Long Creepage P P Cable with wire shield Cable with metal tape or lead shield Cable with wire shield Cable with metal tape or lead shield Cable with wire shield Cable with metal tape or lead shield Electrical Stress Control: Screened or shielded power cables require electrical stress control in order to reduce the electrical stresses at the end of the screen and at the termination surface to avoid partial discharge and surface corona under all service conditions. Corona or electrical discharge can ultimately destroy the cable insulation, causing premature failure. Raychem s stress control sleeves have electrical properties that smooth out the electrical field at the end of the cable. This is achieved by the unique resistive and capacitive properties of the heat-shrinkable materials. A Universal System: The material used in these terminations is suitable for all climates and environments. It is not susceptible to damage from transportation or vandalism. The termination has a discreet, low profile which allows it to blend into landscapes. 11

Torque Controlled Lugs for Termination Systems up to 72 kv Features Torque controlled shear off bolts Application Range Lugs Benefits fast and safe installation excellent electrical performance excellent mechanical performance easy installation with standard box spanner pre-engineered design for perfect fit Cu and Al conductors up to 1600 mm 2 Variety of different palms available Body made of tinned aluminium alloy 12

Cable lug with 1-hole palm (EPPA-052-X/Y) Dimension: L = 190 mm A = 100 mm B = 50 mm D = 18 mm E = 25 mm F = 64 mm X Diameter over cable conductor Y Diameter over cable insulation Cable lug with 2-hole palm (EPPA-051-X/Y) Dimension: L = 190 mm A = 100 mm B = 27.5 mm C = 45 mm D = 18 mm E = 25 mm F = 64 mm X Diameter over cable conductor Y Diameter over cable insulation Cable lug with rod Dimension: X Diameter over cable conductor Y Diameter over cable insulation Stab Ø 30 mm (EPPA-050-X/Y) L = 190 mm A = 100 mm F = 64 mm Ø = 30 mm Stab Ø 40 mm (EPPA-053-X/Y) L = 264 mm A = 125 mm F = 106 mm Ø = 40 mm Cable lug with 4-hole palm (NEMA pad) (EPPA-054-X/Y) Stab Ø 50 mm (EPPA-061-X/Y) L = 264 mm A = 125 mm F = 106 mm Ø = 50 mm Dimension: Contact plate 100 mm x 100 mm L = 232 mm D = 14.5 mm A = 100 mm E = 25 mm B = 27,5 mm F = 112 mm C = 45 mm X Diameter over cable conductor Y Diameter over cable insulation Contact plate 80 mm x 80 mm L = 212 mm D = 14.5 mm A = 80 mm E = 25 mm B = 17.5 mm F = 112 mm C = 45 mm 13

Dry Self-Supporting Outdoor Termination OHVT up to 145 kv Application The dry self-supporting termination is designed for voltage classes up to 145 kv and operation under severe environmental conditions. It is free from any insulating liquid or gel. Polymeric insulated cables of various designs can be adopted with respect to shielding and metal sheath. The polymeric housing with long creepage length covers extreme pollution levels according to IEC 60071-1 1996, IEC 60071-2 1996 and IEEE-1313.1-1996. Its mechanical performance is similar to conventional oil-filled terminations with composite housing. The termination is easily separable and consists of a plug-in part and an epoxy resin insulator protected with directly moulded silicone shed housing. Due to the short cable cutback dimensions of the plug-in the time required to install the termination is very short and can be further reduced in case of short cable links by pre-installing the plug-in on the shop floor. The plug-in is similar to the plug-in used with Tyco s dry switchgear / transformer termination. Features Technical Data OHVT-145D Highest Voltage Um kv 145 Lightning Impulse Voltage kv 650 Length mm 1750 Cantilever Force N 5000 Flashover Distance mm 1320 Creepage Distance mm 4495 Pollution Level (IEC 60 137; 1995, VDE 0674, part 5) IV Weight approx. kg 130 Max. Conductor Size Cu/Al approx. mm 2 1200 Outer Diameter Cable Insulation mm 74 Outer Diameter Cable Oversheath mm 99 Dry interface, no oil-filling Self-supporting Pre-fabricated and factory tested silicone rubber stress control Torque-controlled multi-contact conductor bolt Fast and simple installation combining GIS plug-in technology with polymeric insulators No special tools required to install the termination Isolated cable gland for sectionalisation Long creepage length Type tested according to IEC 60840 14

Major Design Elements 1 The polymeric insulator (3) with embedded multi-contact electrode is attached to the support structure through the base plate (6) and the support insulators (7). The torque-controlled shear-off bolt connector (2) with multi contacts fits the cable conductor. The connector is suitable for stranded aluminium and copper conductors and can be modified to accept solid conductors as well. No special tool is required to install the connector. The silicone rubber stress cone (4) provides the electrical field control and can easily be applied on the cable without tools owing to its excellent elasticity. 2 3 4 5 A metal spring-loaded compression ring (5) presses the rubber stress cone into the specially shaped interior of the insulator housing, ensuring a uniform contact pressure and electrically sound interface. The cable outer serving is adapted through a gland system (8), which addresses the individual shielding and armouring. The gland system also secures the cable. 6 7 8 1 Upper metal fitting 2 Mechanical connector 3Resin body with silicone shed housing 4 Stress cone 5 Spring-loaded compression ring 6 Base plate 7 Support insulators 8 Gland and sealing 15

Outdoor Composite Termination OHVT for 123 kv up to 170 kv Application The termination is designed for voltage classes up to 170kV and to operate under severe environmental conditions. Polymeric insulated cables of various designs can be adopted with respect to shielding and metal sheath. Composite housings with different creepage lengths up to 50 mm/kv are available covering the most common and also extreme pollution levels according to IEC 60071-1 1996, IEC 60071-2 1996 and IEEE-1313.1 1996. Features Pressure-tight and light weight composite housing Pre-fabricated and factory tested Si-rubber stress cone Torque-controlled conductor bolt H/S components used for sealing No special tools required to install the termination Si-oil filling (filling from the top) Isolated base plate for sectionalisation Fittings made of corrosion resistant alloy Type tested according to IEC 60840 and IEEE 48 standards Technical Data OHVT-145 OHVT-170 Highest Voltage Um kv 145 170 Lightning Impulse Voltage kv 650 750 Length mm 1880 2100 Diameter over sheds S mm 294 355 Cantilever Force N 5000 5000 Flashover Distance mm 1430 1520 Creepage Distance mm 3392 5270 Pollution Level (IEC 60 137; 1995, VDE 0674, part 5) II IV Oil volume approx. l 35 50 Weight approx. kg 120 160 Max. Conductor Size Cu/Al approx. mm 2 1200 1200 Outer Diameter Cable Insulation mm 90 108 Outer Diameter Cable Oversheath mm 110 119 16

1 2 3 4 5 6 Major Design Elements The pressure-tight composite housing (4) is made of a glass fibre reinforced resin GFR tube with silicone rubber sheds moulded INSITU to the tube. The fittings (3) and the base plate (7) are made of non-corrosive alloy. To fit the cable conductor, mechanical connectors with torque-controlled shear-off bolts (1) or crimp-type connectors are available. The connector is suitable for stranded aluminium and copper conductors and can be modified to accept solid conductors as well. No special tool is required to install the mechanical connector. Heat-shrinkable polymeric tubing containing oil-resistant sealant encapsulates the connector barrel and the polymeric insulation transition. The silicone rubber stress cone (6) provides the electrical field control and can easily be applied without tools owing to its excellent elasticity. The interface between stress cone, cable insulation and inner GFR housing is filled with silicone oil (5) which could be easily filled from the top. 7 8 9 The cable outer serving is adapted through a gland system (9), which addresses the individual shielding and armouring of the cable. Heat shrinkable tubing is used to seal the cable gland. Support insulators (8) are supplied for sectionalisation and cross-bonding, when separate grounding is required. 1 Connector (mechanical or crimp) 2 Sealing system 3 Upper Metal fitting 4 Composite housing 5 Oil-filling 6 Stress cone 7 Base plate 8 Support insulators 9 Gland and sealing 17

Connectors for Outdoor Terminations up to 145 kv Terminal Pad (NEMA) C Description D B C L Reference D L Ø 14,3 16 B ROD 30 26 31 29 85 193 SIML-0-0707021-1 ROD 40 36 41 32 92 200 SIML-0-0707121-1 ROD 50 46 51 25 94 207 SIML-0-0718671-1 Dimensions in mm D 44,4 100 44,4 100 27,8 Straight Rod C C Description D B C L Reference ROD 30 26 31 84 85 180 SIML-0-0706684-1 D D ROD 40 36 41 92 102 195 SIML-0-0706685-1 Dimensions in mm D D B Straight Transition Rod D1 C1 L C2 D2 B1 D1 D2 B2 Description D1 D2 B1 B2 C1 C2 L Reference ROD 30/20 26 31 16 21 84 66 85 70 165 SIML-0-0706684-1 ROD 30/25 26 31 21 26 84 66 85 70 165 SIML-0-0706636-1 ROD 30/35 26 31 31 36 84 84 85 85 180 SIML-0-0706949-1 ROD 40/20 36 41 16 21 102 66 92 70 172 SIML-0-0706700-1 ROD 40/25 36 41 21 26 102 66 92 70 172 SIML-0-0706635-1 ROD 40/30 36 41 26 31 102 84 92 85 187 SIML-0-0706655-1 ROD 40/35 36 41 31 36 102 84 92 85 187 SIML-0-0706663-1 ROD 50/20 46 51 16 21 112 66 92 70 174 SIML-0-0712016-1 ROD 50/25 46 51 21 26 112 66 92 70 174 SIML-0-07163441-1 ROD 50/30 46 51 26 31 112 84 92 85 189 SIML-0-0711000-1 ROD 50/35 46 51 31 36 112 84 92 85 189 SIML-0-07110002-1 ROD 50/40 46 51 36 41 112 102 92 92 196 SIML-0-0711001-1 Dimensions in mm 18

T-Rod D1 C1 C2 D2 Description D1 D2 B1 B2 C1 C2 L Reference T-ROD 30/20 26 31 16 21 84 66 124 70 166 SIML-0-0716192-1 T-ROD 30/25 26 31 21 26 84 66 124 70 166 SIML-0-0706686-1 T-ROD 30/30 26 31 26 31 84 84 140 85 182 SIML-0-0706627-1 D1 T-ROD 30/35 26 31 31 36 84 84 140 85 182 SIML-0-0706638-1 T-ROD 30/40 26 31 36 41 84 102 143 92 195 SIML-0-0706667-1 B1 D2 B2 T-ROD 40/20 36 41 16 21 92 66 131 70 182 SIML-0-0716198-1 T-ROD 40/25 36 41 21 26 92 66 131 70 182 SIML-0-0716106-1 T-ROD 40/30 36 41 26 31 92 84 146 85 197 SIML-0-0706624-1 L T-ROD 40/35 36 41 31 36 92 84 146 85 207 SIML-0-0706623-1 T-ROD 40/40 36 41 36 41 92 102 151 92 207 SIML-0-0706622-1 T-ROD 50/20 46 51 16 21 94 66 135 70 191 SIML-0-0716203-1 T-ROD 50/25 46 51 21 26 94 66 135 70 191 SIML-0-0716342-1 T-ROD 50/30 46 51 26 31 94 84 151 85 207 SIML-0-0716342-1 T-ROD 50/35 46 51 31 36 94 84 151 85 207 SIML-0-0716204-1 T-ROD 50/40 46 51 36 41 94 102 158 92 214 SIML-0-0706664-1 Dimensions in mm Twin Straight Rod B1 B2 D2 D2 D2 Description D1 D2 B1 B2 B3 C1 C2 L Reference TWIN STRAIGHT ROD 50/30 46 51 36 41 184 100 112 94 85 214 SIML-0-0716192-1 C2 TWIN STRAIGHT ROD 50/35 46 51 31 36 184 100 122 94 85 214 SIML-0-0706686-1 L TWIN STRAIGHT ROD 50/40 46 51 36 41 207 105 112 94 85 230 SIML-0-0706627-1 C1 Dimensions in mm D1 D1 B3 Twin T-Rod B L1 Description D1 D2 B C1 C2 C3 C4 L1 L2 Reference C1 C2 D2 D1 D2 D2 D1 L2 TWIN T ROD 50/30 TWIN T ROD 50/35 TWIN T ROD 50/40 46 51 36 41 100 136 94 134 84 185 171 SIML-0-0706684-1 46 51 31 36 100 136 94 134 84 185 171 SIML-0-0706636-1 46 51 36 41 105 145 94 145 92 186 195 SIML-0-0706949-1 C4 C3 Dimensions in mm 19

Dry Compact Switchgear & Transformer Termination PHVS & PHVT from 72 kv up to 145 kv Application The dry compact switchgear termination for voltage classes up to 145 kv is designed to be installed in cable entry housings of gas-insulated switchgear (GIS). It complies with IEC 60859 standard, which essentially specifies the interfaces between the termination and the switchgear. Therefore the termination will fit into all GIS complying with IEC 60859. An adapter is available to match the dimensions of wet (oil-filled) type terminations, which are also specified in IEC 60859. The termination operates in SF 6 but also in insulating liquids like transformer oil. A corona shield at the top of the termination then provides the necessary shielding of the terminal. The termination is easily separable and consists of a plug-in part and an epoxy resin insulator. The insulator can be installed by the GIS or transformer manufacturer already at the factory saving installation time onsite and reducing the risk of contamination of the cable entry housing. In case of short cable links and due to the short length and light weight of the plug-in part it can be also preinstalled by the cable manufacturer further reducing the time required to install a substation. Features Technical Data PHVS-145 PHVT-145 Highest Voltage Um kv 145 145 Lightning Impulse Voltage kv 650 650 Length (with IEC Adapter) mm 470 (757) 470 (757) Weight approx. (with IEC Adapter) kg 38 (42) 38 (42) Operating Pressure SF6 6 bar 2 6 Max. Conductor Size Cu/Al approx. 800 (optional) mm 2 (1200) 800 (1200) Outer Diameter Cable Insulation mm 74 74 Outer Diameter Cable Oversheath mm 99 99 Dry interfaces, no oil-filling Dimensions comply with IEC 60859 Pressure-tight resin housing Operates in SF6 and insulating liquids Pre-fabricated and factory tested Si-rubber stress cone Torque-controlled multi-contact conductor bolt No special tools required to install the termination Isolated cable gland for sectionalisation Type tested according to IEC 60840 and IEC 60859 standards 20

1 2 4 5 6 7 1 Corona Shield 2 Adapter (optional) 3 Resin housing 4 Stress cone 5 Spring-loaded compression ring 6 Fixing ring 7 Gland and sealing 3 8 Major Design Elements The epoxy-resin insulator (4) with embedded multi-contact electrode forms the gas pressure-tight interface between GIS or transformer cable entry and the plug-in part of the termination. It is attached to the cable entry housing with the fixing ring (7). The torque-controlled shear-off bolt connector (3) with multi-contacts fits the cable conductor. The connector is suitable for stranded aluminium and copper conductors and can be modified to accept solid conductors as well. No special tool is required to install the connector. The silicone rubber stress cone (5) provides the electrical field control and can easily be applied without tools owing to its excellent elasticity. A metal spring-loaded compression ring (6) presses the rubber stress cone into the specially shaped interior of the resin housing, ensuring a uniform contact pressure and electrically sound interface. A corona shield (1) can be easily attached to the termination for use in insulating liquids. Compared with IEC 60859 wider clearances apply in this application. The cable outer serving is adapted through a gland system (8), which addresses the individual shielding and armouring. The gland system also secures the cable. An adapter (2) can be used to match the dimensions of wet type switchgear and transformer terminations which makes the termination the ideal choice for replacing oil-filled terminations. 21

Switchgear & Transformer Termination SHVT & THVT for 72 kv up to 170 kv Application The switchgear termination for voltage classes up to 170 kv is designed to be installed in cable entry housings of gas-insulated switchgear (GIS). It complies with IEC 60859 and IEEE 1300 standards, which essentially specify the interfaces between the termination and the switchgear. Therefore the termination will fit into all GIS complying with these standards. The termination operates in SF 6 but also in insulating liquids like transformer oil. A corona shield at the top of the termination then provides the necessary shielding of the terminal. Features Si-oil filling (no need for heating before filling) Dimensions comply with IEC 60859 and IEEE 1300 Pressure-tight resin housing Operates in SF 6 and insulating liquids Pre-fabricated and factory tested Si-rubber stress cone Torque-controlled conductor bolt No special tools required to install the termination Isolated cable gland for sectionalisation Type tested according to IEC 60840, IEC 60859 and IEEE 1300 standards Technical Data SHVS-170 OHVT-170 Highest Voltage Um kv 170 170 Lightning Impulse Voltage kv 750 750 Length mm 757 757 Cantilever Force N 6500 6500 Creepage Distance mm 650 650 Oil volume approx. l 12 12 Weight approx. kg 92 92 Operating Pressure SF 6 bar 2 6 Max. Conductor Size Cu/Al approx. mm 2 1200 1200 Outer Diameter Cable Insulation mm 84 84 Outer Diameter Cable Oversheath mm 105 105 22

Signature Not Verified Digitally signed by Radu Stancu DN: cn=radu Stancu, o=tyco Electronics Raychem GmbH, ou=hv Radu Stancu Cable Accessories, c=de Date: 2003.11.17 15:33:34 + 01'00' 1 2 3 4 5 6 7 8 Major Design Elements The epoxy-resin insulator (3) with embedded electrode forms the gas pressure-tight interface between GIS or transformer cable entry and the oil-filled cable compartment of the termination. It is attached to the cable entry housing with the fixing ring (6). To fit the cable conductor, torquecontrolled shear-off bolt connector (2) or crimp-type connectors are available. The connector is suitable for stranded aluminium and copper conductors and can be modified to accept solid conductors as well. No special tool is required to install the mechanical connector. The flexible double sealing system (2) is installerfriendly and ensures persistent leak tightness of the top assembly. Heat shrinkable polymeric tubing containing oil-resistant sealant encapsulates the connector barrel and the polymeric insulation transition. The silicone rubber stress cone (6) provides the electrical field control and can easily be applied without tools owing to its excellent elasticity. The interface between stress cone, cable insulation and inner GFR housing is filled with silicone oil (4) through a filling nozzle at the base plate. The cable outer serving is adapted through a gland system (9), which addresses the individual shielding and armouring of the cable. Heat shrinkable tubing is used to seal the cable gland. 1 Corona shield (THVT only) 2Connector (mechanical or crimp) 3 Resin housing 4 Oil-filling 5 Stress cone 6 Fixing ring 7 Base Plate 8 Gland and sealing 23

Joints 24

Joints from 42 kv up to 72 kv General 26 Connectors for Joints 29 Joints up to 170 kv Inline and Shield-Break Joints 30 25

Joints for Polymeric Insulated Cables EHVS from 42 kv up to 72 kv Application The elastomeric Raychem joints from 42 kv up to 72 kv are suitable for all type of polymeric cables and can accommodate various cross-bonding shield break and external grounding arrangements. Features Quick cable preparation No need for insulation pencilling Simplified installation No specialists required. A qualified medium-voltage jointer will be trained in one day. Pre-engineered wall thickness All product dimensions are set and checked at the factory before the product is shipped to the field. Time savings Due to short installation time outages are kept to a minimum in repair situations. High reliability The combination of long experience and rigorous testing to international standards leads to high joint reliability. 26

Major Design Elements Designed for easy jointing: The Raychem joint design comprises of a connector that allows even large cross-sections to be jointed and two dual-wall, heat-shrinkable sleeves. A heavy-walled co-extrusion of two layers of red insulation forms the inner sleeve. The outer sleeve consists of a thick layer of red insulation co-extruded under a black outer conductive layer which acts as the joint screen. Kit Content: The set of pre-engineered components and the Raychem connector require no special installation tools. After placing the heat-shrinkable components over the cable end, the connector is installed by tightening the special bolts, which shear off cleanly when the correct contact force is reached. Each sleeve in turn is placed over the connector area and shrunk down. Copper shielding mesh and an adhesive-coated outer sleeve for water sealing then complete the joint. Controlled-torque Connector: The connector design allows cables to be jointed without special tools, heat treatment as dressing/filing after installation. Shear-head bolts ensure a pre-engineered electrical connection. The shear-head bolts break off at a pre-determined level below the outer surface of the connector, at a defined torque. This ensures the correct contact pressure is reached every time. The stable voltage drop provided by this concept has been demonstrated in field installations which closely follow the predictions of long-term load-cycling tests. Comprehensive qualification procedures like IEC 61238-1996 and ANSI 119.4 1993 prove the excellent longterm performance. 27

Cross-bonding / shield break: The use of heat-shrinkable sleeves for stress control, insulation, and screening provides a location for the shield break at the end of the joint. Electrical Stress Control: A material with stress adjusting characteristics is applied onto the connector and cable screen ends. This heat-shrinkable sleeve incorporates a conductive coating in the connector area which equalizes potential in the manner of a Faraday cage. It extends over the dielectric to accommodate possible insulation shrink-back. Elastomeric Technology: Two dual-wall, heatshrinkable elastomeric sleeves shrink rapidly and deliver pre-engineered, uniform layers of thick insulation. The outer layer shrink to the pre-determined diameter and the elastomeric inner part confirms tightly to the joint. Outer Sealing: The cable oversheath is replaced with a thick-wall heat-shrinkable insulating sleeve, which provides the required dielectric strength and create an effective water seal and corrosion protection. 42 kv 52 kv 72 kv Joints P P P P P P P Cable with wire shield Cable with metal tape or lead shield Cable with wire shield and cross bonding module Cable with metal tape or lead shield and cross bonding module Cable with wire shield Cable with metal tape or lead shield Cable with wire shield and cross bonding module Cable with metal tape or lead shield and cross bonding module Cable with wire shield Cable with metal tape or lead shield Cable with wire shield and cross bonding module Cable with metal tape or lead shield and cross bonding module 28

Torque Controlled Connectors for Joints up to 72 kv Features Torque controlled shear off bolts fast and safe installation excellent electrical performance excellent mechanical performance easy installation with standard box spanner Application Range pre-engineered design for perfect fit Cu and Al conductors Up to 1600 mm 2 Connectors Straight and size transition type Body made of aluminium alloy Mechanical connector for straight connection (EPPA-047-X/Y-L) Dimension: L = 130 mm L = 180 mm X Diameter over cable conductor Y Diameter over cable insulation Mechanical connector for size transition (EPPA-047-X1/Y1-X2/Y2-L) Dimension: L = 130 mm L = 180 mm X1/X2 Diameter over cable conductor Y1/Y2 Diameter over cable insulation Mechanical connector for cables with small insulation thickness (EPPA-063-X1/Y1-X2/Y2-L) Dimension: L = 180 mm L = 230 mm X1/X2 Diameter over cable conductor Y1/Y2 Diameter over cable insulation 29

Inline and Shield-Break Joint EHVS for 123 kv up to 170 kv Application The joint is a pre-fabricated threepiece design for voltages from 123 kv up to 170 kv. Polymeric insulated cables of various designs can be adopted with respect to shielding and metal sheath. Features Pre-fabricated three-piece joint design Torque-controlled conductor sleeves Integrated moisture barrier using H/S components Short cut-back dimensions No special tools required to install the joint Can adapt shield-break applications Cable size transition is possible Factory tested Si-rubber parts Type tested according to IEC 60840 and IEEE 404 standards Technical Data EHVS-145-IL EHVS-170-IL EHVS-145-SB EHVS-170-SB Highest Voltage Um kv 145 170 145 170 Lightning Impulse Voltage kv 650 750 650 750 Length mm 1500 1900 2000 2400 Diameter mm 195 240 195 245 Weight approx. kg 40 60 45 75 Max. Conductor Size Cu/Al approx. mm 2 1200 1200 1200 1200 Outer Diameter Cable Insulation mm 75 84 75 108 Outer Diameter Cable Oversheath mm 105 105 105 140 IL: Inline Joint SB: Shield Break Join 30

4 2 3 5 6 1 9 11 12 1 Mechanical connector 2 Adapter 3 Main body 4 Stress cone 5 HV electrode 6 Fixing ring 7 Metal shielding clamp 8 Solderless shield connection 9 Conductive tubing 10 Copper mesh 11 Insulating tubing 12 Outer protection with integrated moisture barrier 7 10 8 4 2 3 5 6 1 7 9 10 11 12 Major Design Elements The joint consists of connector (1), cable adapters (2) including stress cones and main joint body (3) containing Faraday cage (7) and outer serving by heat-shrink technology (9,12). The conductors of the cable are connected by a mechanical connector sleeve (1) using torque controlled shear-off bolts. The connector sleeve is suitable for stranded aluminium and copper conductors but can be easily modified to accept solid conductors as well. The Si-rubber cable adapters (2), accommodating the various cable insulation diameters, build up the connection area to an almost constant diameter. This allows to cover different cable cross-sections with just one main insulation joint body (3). Therefore cross-section transitions are possible without any extra components. No extra tooling is needed to push-on the Si-rubber cable adapters (2) and the Si-rubber joint main body (3) due to its excellent elasticity. A metal shielding clamp (7) on top of the connector ensures perfect heat transmission and a smooth interface fit. The fixing rings (6) keep the cable adapter and the cable dielectric in position. During the installation the main body is parked on the over sheath of the cable. This keeps the cut back length and cable preparation time as short as possible. Mechanical solderless connector technologies (8) are used to connect metal shields copper wires, metal sheath and CAS. Heat-shrink technologies (9,12) replace the cable serving and the moisture barrier. The joint concept is similar for the shield break joints, despite the shield continuity. Special sealant components make it possible to use double-insulated ground leads, and thereby to utilise the proven heat-shrink technology. EHVS-IL (Inline Joint) EHVS-SB (Shield Break Joint) 31

Connection Boxes 32

Connection Boxes Link Boxes 34 Add-on Kits for 145 kv Cable Accessories 37 33

Link Boxes Cross bonding and sectionalisation for high-voltage cable systems Application Single point bonding Mid point grounding Direct grounding Grounding through SVL Cross bonding and transposition Features Compact design Stainless steel Hermetically sealed 1-phase and 3-phase boxes Sheath voltage limiters (SVL) IP65 / IP 68 Removable links For coaxial cable or single core cable Voltage withstand according to IEC 60840 Annex H 34

Link boxes and sheath voltage limiters Link boxes are used with cable joints and terminations to provide easy access to the screen of HV cables for testing purposes and to reduce induced voltages building up the sheath due to load and short circuit currents. Lightning and switching operations may cause transient over voltages on the cable sheath. Sheath voltage limiters (surge arresters) may be integrated into the link boxes in order to limit these over voltages. Depending on the application different link boxes are available. Mechanical design Made of stainless steel 1-phase and 3-phase link boxes With and without SVL Coaxial cables entry or single core cable entry Removable links Compact design available (no removable links) Hermetically sealed Tight up to a water level of 5 m Lugs and bonding cables sealed inside and outside the link box with heat shrink tubes coated with hot melt adhesive Suitable for Single point bonding Mid point grounding Direct grounding Grounding through SVL Cross bonding and transposition Electrical design Cross section of links up to 300 mm 2 Uc = 3 kv of 6 kv SVL Short circuit current withstand 1 s 31,5 ka BIL phase to ground / phase to phase 40 kv Application Installation in pits or vaults and on structures or poles 35

Available Link Boxes Description Comment Dimensions LxWxH (mm) HVLB-GND-0/4-41-1PH-4WAY HVLB-GND-1/6 HVLB-GND-6/4-41-1PH-4WAY HVLB-GND-0/4-41-3PH HVLB-GND-1/3 HVLB-GND-6/3 HVLB-GND-6/4-41-3PH HVLB-CRB-0/3-50-3PH HVLB-CRB-6/3-50-3PH EPPA-055-0/1 EPPA-055-3/1 EPPA-055-6/1 EPPA-055-0/3 EPPA-055-3/3 EPPA-055-6/3 1-Phase Link Box for Direct Grounding Assembly (4WAY) 1-Phase Link Box with 1 kv SVL Assembly (6WAY) 1-Phase Link Box with 6 kv SVL Assembly (4WAY) 3-Phase Link Box for Direct Grounding Assembly 3-Phase Link Box with 1 kv SVL Assembly 3-Phase Link Box with 6 kv SVL Assembly 3-Phase Link Box with 6 kv SVL Assembly 3-Phase Link Box Cross Bonding for Direct Grounding Assembly 3-Phase Link Box Cross Bonding with 6 kv SVL Assembly 1-Phase Link Box for Direct Grounding Assembly 1-Phase Link Box with 3 kv SVL Assembly 1-Phase Link Box with 6 kv SVL Assembly 3-Phase Link Box for Direct Grounding Assembly 3-Phase Link Box with 3 kv SVL Assembly 3-Phase Link Box with 6 kv SVL Assembly 496x862x320 340x725x293 496x862x320 469x725x320 310x310x255 310x310x255 496x725x320 355x883x621 355x883x621 300x190x165 300x190x165 300x190x165 310x310x255 310x310x255 310x310x255 Special properties 4 cable entries, IP68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, BIL 40kV, short circuit current 31,5 ka/1 s 6 cable entries, 1 kv SVL, compact design, no removable links, stainless steel 4 cable entries, IP68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, 6 kv SVL, BIL 40 kv, short circuit current 31,5 ka/1 s IP 68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, 6 kv SVL, BIL 40 kv, short circuit current 31,5 ka/1 s 1 kv SVL, compact design, no removable links, stainless steel removable links, 240 mm 2 tinned copper links, 6 kv SVL, stainless steel, compact design IP 68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, 6 kv SVL, BIL 40 kv, short circuit current 31,5 ka/1 s coaxial cable entry, IP 68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, BIL 40 kv, short circuit current 31,5 ka/1 s coaxial cable entry, IP 68, 3 mm stainless steel, removable links, 300 mm 2 tinned copper links, 6 kv SVL, BIL 40 kv, short circuit current 31,5 ka/1 s compact design, no removable links 3 kv SVL, compact design, no removable links 6 kv SVL, compact design, no removable links compact design, no removable links 3 kv SVL, compact design, no removable links 6 kv SVL, compact design, no removable links 36

Add-on Kits for 145 kv Cable Accessories Application: Add-on kits for HV cables with integrated glass fibres are available for all Raychem 145 kv terminations and joints. The add-on kits include all required components to reliably seal the cable and the glass fibre outlet as well as suitable tubes to protect the sensitive steel pipes carrying the glass fibres. The standard kit can be used for cables with up to two individual steel pipes. Glass fibre splicing kits may be included in the add-on kits as well. These kits are able to handle up to 12 individual glass fibres per steel pipe. The commonly used FOSC 500 splicing kit is able to take two steel pipes so up to 24 glass fibres can be spliced with this splice box. The box is isolated and is therefore suitable for cross bonding joints as well. The glass fibre outlet is arranged straight, which means the pipe doesn t need to be fold back. This saves the pipe from being snapped off because it s smallest permitted bending radius usually is bigger than the diameter of the power cable. For more details please contact your relevant Sales Representative. 37

Installation & Tools 38

Installation & Tools Installation, Training and Supervision 40 Installation Requirements 41 Toolbox for the installation of HV Cable Accessories 45 39

Installation, Training and Supervision Tyco Electronics Raychem is an independent supplier of HV cable accessories. We provide our products world wide to utilities having their own installations crews contractors providing installation services to utilities and industrial customers cable manufacturers Bild fehlt Depending on availability of our team and the experience of established local installation crews we are able to also offer services like Installations (accessories only) Trainings (on-site and in-house) Supervisions Installations Tyco has got well trained and experienced jointers which are able to carry out installation at constructions site. Usually they are supported by local helpers provided by the contractor or the local utility. In case there are no trained jointers available locally ordering installation services from Tyco is the first choice. Training Jointers with 5 years or more experience in HV cable preparation may be trained on-site during an installation. Less experience jointers should be first trained in Tyco s labs. In both cases well experienced supervisors from Tyco demonstrate how to install our products in order to ensure the high performance expected to be enjoyed over the whole life time of our products. At the end of the training the jointers will be able to carry out installations without or at least with a minimum of help provided by our supervisors. Supervision Jointers, which have been trained by Tyco supervisors prior to an installation but haven t yet got sufficient on-site experience in installing Tyco accessories, may need the help of a supervisor on-site. We recommend ordering this service for any installation. If ensures that all accessories are installed according to the instructions provided with the accessories. For the installation of the cable accessories the construction side must be prepared before. The installation requirements for the different products are described on the following pages. 40

Installation Requirements General Cable accessories from Tyco Electronics Raychem GmbH are very reliable in service and offer a long maintenancefree life cycle. In order to assure both the installation has to be carried out as described in our installation instruction. In addition to the process steps described in our installation instructions we recommend following commonly accepted installation practice. Joints EHVS Minimum requirements for the installation Access to installation site for motor vehicles / lorries. Complete readiness of cable routing. Joints may be directly buried (i.e. in a concrete tray) or installed in man holes. The size of the concrete tray or the man hole should be 4 m x 10 m in order to allow the joints to be staggered. In case the joints are to be installed in-plane then size may be reduced to 3 m x 5 m Cables to be jointed shall overlap by at least 2 m. Please consult the relevant installation instruction for details. Temporary electric lighting at the installation place (spot lights and fluorescent lamps) Free power sockets 230 V, min. 10 A Ambient temperature at installation place shall be 15 C min. In case of lower ambient temperature, gas or electric heaters are required. Two or more helpers per installation team Taking into account the technical complexity of accessories and their installation procedure we strongly recommend installations to be carried out and supervised by well trained and qualified installers only. Cable laying and jointing in a concrete duct. EHVS Installation The sketch besides shows an example for a concrete shelter in which the joints have been staggered. The cable is laid in a cable ducts installed on metal poles of several meters height 41

A similar arrangement to the sketch on the previous page is shown below. Due to the limited space and two systems to be jointed, the shelter has got two stories. The following sketch shows the top view of the two previous arrangements. The cables however are arranged in an underground cable duct. Qualität schlecht Terminations OHVT Minimum requirements for the installation Access to installation site for motor vehicles / lorries. Complete readiness of cable routing including fixing the cable to the termination platform. Depending on the dimension of the termination to be installed the cable end shall project above the termination base plate by 2 3 meters. Temporary electric lighting at the installation place (spot lights and fluorescent lamps) Free power sockets 230 V, min. 10 A Ambient temperature at installation place shall be 15 C min. In case of lower ambient temperature, gas or electric heaters are required. Two or more helpers per installation team. Taking into account the technical complexity of accessories and their installation procedure we strongly recommend installations to be carried out and supervised by well trained and qualified installers only. Platforms (permanent): Platforms have to be strong, tough and rigid enough to withstand all expected mechanical loads taking into consideration the weight of the terminations, dynamic forces caused by short circuit currents, wind loads, icing etc. and temporary loads like those taking effect during installations. The support structure shall be equipped with a sufficient number of non-metallic cable cleats fixing the cable to the support structure. Spacing between the cable cleats shall be coordinated with the cable manufacturer. The max. distance between the termination gland and the nearest cable cleat shall not exceed 1 m. The platform, to which the individual base plate of the termination is assembled to, shall be level and preferably horizontal. The mounting holes for the base plate shall be as per provided offer drawings. In case the platform is more than 3 m above ground we recommend contacting your relevant Sales Representative to provide you with additional details. Scaffolding (temporary): The use of scaffolding is strongly recommended. It shall be equipped with fences, handrails, stairs or firm ladders and shall follow common safety rules. The roof ridge shall be solid enough to carry a load of approx. 100 kg (composite insulator). The scaffolding shall have 2 levels. The lower level shall be approx. 700 mm below the termination s base plate, the upper level approx. 2 m above the lower one. The floors may be prepared using wooden planks or steel grids and shall be able to carry min. 250 kg/m 2. Depending on weather conditions the scaffolding may require to be protected from the elements with a tent or tarpaulin. The clearance between the top floor and the roof ridge shall be in the range of 3.0 m. The tarpaulin should be easy to remove to allow the insulator to be lifted over the prepared cable easily. The recommended size of the scaffolding is 4 m x 4 m with the termination in the center. In case the terminations are installed side by side the size shall be 8 m x 4 m. 42

OHVT platforms and scaffolding The sketch below shows an example for a platform including the scaffolding for 3 terminations assembled side by side. Special actions may have to be taken in case the vertical cable span exceeds 3 m. The cable may require more and/or special cable cleats to fix the cable reliably. Features: Weight-bearing capacity: 250kg/m 2 Lifting capacity of block and tackle: max. 5000 N Weatherproof covering (transparent tarpaulin) from the roof ridge down to the upper level (summer) Weatherproof covering (transparent tarpaulin) from the roof ridge down to the bottom level (winter) Chain block 2. platform Sealing End 1. platform Power Cable Cable Support Protection Pipe OHVT Mounting The termination s base plate shall be mounted on a horizontal steel structure similar to the one shown in the sketch beside: 43

OHVT Installation with Surge Arrester Similar platforms can be used for both, outdoor terminations and surge arresters installed together. The clearance between termination and arrester has to follow local regulations. By default it should be 1500 mm. Surge Arresters are shown in a separate chapter of this catalogue. Switchgear & Transformer terminations SHVT, THVT, PHVS, PHVT Minimum requirements for the installation Access to installation site for motor vehicles / lorries. Forklift Complete readiness of cable routing including fixing the cable to vertical cable duct (if any). The cable end shall project above the lower cover of the cable entry box by 1 meter. Cable ducts underneath the opening in the ceiling/floor for the cable shall be fixed temporarily only because the cables have to be pulled back by up to 3 meters for cable preparation. Temporary electric lighting at the installation place (spot lights and fluorescent lamps) Free power sockets 230 V, min. 10 A Ambient temperature at installation place shall be 15 C min. In case of lower ambient temperature, gas or electric heaters are required. Two or more helpers per installation team. Taking into account the technical complexity of accessories and their installation procedure we strongly recommend installations to be carried out and supervised by well trained and qualified installers only. For questions please contact your relevant Sales representative. 44

Toolbox for the installation of HV Cable Accessories For the installation of the HV Cable accessories we recommend using our toolbox equipped with about 70 different tools (see right column). (Cable stripping tool and straightening set tool have to be ordered separately, available as an extension set as well) For details on how to use the tools during installation please contact your Sales Representative and ask for a price quotation on training/supervision. Photo of toolbox available from Tyco Semicon Stripping and insulation cutting tool List of Standard Tools and Auxiliary Materials: Cable Saw with Blade Small Sanding Machine Big Sanding Machine Extension Cable Drum Cordless Impact Wrench Drill Machine Set of Fork/Ring Spanners Set of Hexagon Spanners Big Screw Clamp Small Screw Clamp Pinch Bar Big Box Spanner Assembly Small Box Spanner Assembly Big Sliding Caliper Torque Wrench Set of Files Small Sliding Caliper Wood Rasp Set of Dowel Pin Fasteners Big Hammer Small Hammer Club Hammer Plastic Hammer Set of Screw drivers Engineers pliers Edge Cutter Pincers Set of Ring Spanner Halogen Radiator Plastic Tarpaulin Pressing Tool Crane Rope Spirit Level Pipe Cutter Adjustable Wrench Set of Eyelet Pliers Chain Host Metal Saw Set of Drills to unscrew Bolts Set of White Marker Pens Tape Ruler Hook Knife Jacket Removal Tool Carton Abrasive Paper Cleaning Paper Roll Kitchen Foil Roll Package of Latex gloves Slide Rail for Cable Alignment* Bottles with Cleaning Solvent* Cable Knife* Cable Stripper* Screw Tap** Electric Torch** Metal Angle** Precision Angle** Water pump pliers** Set of Mandrel and Chisel** Rolls of Crepe Paper** First Aid Box** * Extension Set ** not included but recommended Cable Straightening Set 45

Substation 46

Substation Surge Arrester 48 High Voltage Connection System (HVCS) 72 47

Surge Arrester 48

Surge Arrester Introduction 51 Application 51 Benefits 51 Design Concept I. Single Modules for single column and series parallel surge arresters 52 A. Construction 52 B. Housing material 52 II. The Single Column Design III. The Module Series Parallel Design 53 A. Voltage distribution and stress grading 53 B. Thermal ageing and partial discharge 54 C.Comparison between Series Parallel and single column design 54 D.Electrical tests for Series Parallel surge arrester 54 E. Advantages of the Series Parallel design 54 Appropriate Surge Arrester Selection I. Electrical performance and housings 55 II. Surge Arresters for System Voltages 123 kv and 170 kv 56 III. Surge Arresters for System Voltages 245 kv and 362 kv 58 IV. Surge Arresters for System Voltages 420 kv and 550 kv 60 V. Accessories 62 VI. Transmission Line Surge Arresters for Overhead Poles and Overhead Lines up to 150 kv 68 Additional Equipment Surge Counter 70 Installations 71 49

4P11SR396 Series Parallel Surge Arrester 50

Introduction Benefits Tyco Electronics has been manufacturing surge arresters for over 60 years. Our knowledge and experience we use to develop our surge arrester range today. Tyco Electronics is well known for their insulation and protection products worldwide. The range of HV surge arresters up to 550 kv and line discharge classes from 2 up to 5 operates in 130 countries in diverse climates from the artic circle to the tropics. Since 1988 Tyco Electronics have designed the patented series parallel metal oxide surge arrester which unique in construction and provides many advantages over conventional single column and multiple columns porcelain and polymeric housed arresters. They were designed and tested to meet defined abnormal service conditions as detailed in Annex A of IEC 60099-4 (1991). The unique construction of this series parallel surge arrester provides electrical and mechanical properties that cannot be obtained with single or multiple column types. In particular the geometry and unitary construction provides inherent voltage grading that does not require additional grading rings or further correction of the maximum continous operating voltage (Uc) required for arresters of conventional construction. Low residual voltages Superior protection margins Superior TOV performance Inbuilt stress grading along the full length More effective grading per unit length than a single column type Similar stress distribution like single column type, but without stress grading ring Resistant against Radial stress based on the gap free Bowthorpe patented construction Safe non-shattering short circuit behavior to higher current levels High-energy handling Direct molded housing to prevent moisture ingress Hydrophobic and tracking and erosion resistant silicone housing Superior pollution performance Excellent cantilever and tensile performance Excellent mechanical, vibration and impact withstand capability Extremely strong mechanical strength Low thermal ageing of varistor insulation Smaller footprint than equivalent single column SA with grading ring Modular design for quick installation and commission Light weight Capable to withstand seismic condition Uniform current sharing Maintenance free Tested in accordance with IEC60099-4 at independent accredited laboratories Certified to GOST requirements and has accreditation in Russian Federal network and Ukraine Power Ministry Quality design and manufacturing, ISO 9001 and 14001 compliant For voltages up to 220 kv Tyco Electronics offers two types of Polymeric Single Column Surge Arrester which also have their benefits based on the construction and design. Application This range of Silicone Rubber housed surge arresters is applicable for substation equipment and transmission lines. Because of their high cantilever strength, they can be used to replace the cable support insulators on HV terminations. This results in simplified installation for HV terminations at reduced cost which is aesthetically more acceptabie to the general pubiic. It should be noted that this type of installation can not be achieved with other surge arresters of lower strength construction. 51

Design Concept 1-column porcelain housed and non-integrated polymeric housed type surge arresters have a lot of weaknesses. A few of them are the control of uniform stress grading and the radial field strength which are the most important issues in these surge arrester design types. The high radial field would lead to discharge in the surge arrester enclosure between the porcelain inside and the metal oxide varistors. I. Single Modules for Single Column and Series Parallel Surge Arrester A. Construction The Tyco Electronics Bowthorpe patented surge arrester construction overcame this weakness by eliminating this air gap by direct moulding of the silicone rubber housing onto the wrapped ZnO varistor elements and the terminal assembly. The applied ZnO varistors ensure a very good electrical behaviour. The polymeric housing and the shed form (figure 1a) shows a good performance in salt-fog tests. B. Housing material Housing material is a service proven formulation of Silicone Rubber. The silicone housing was developed using the knowledge accumulated over 35 years of internal Tyco Electronics materials science expertise and experience, resulting in an optimum shed profile and a material with excellent tracking and erosion resistance. This range of Silicone Rubber housed surge arresters has been fully tested to meet the very severe pressure- relief tests. C. Application The advantages of the construction and the housing material are used for the Tyco Electronics Polymeric Surge Arrester independant if they are build in a single column design or in the series parallel design. Excellent hydrophobicity Stainless Steel Terminal Block Aluminium End Block Corona Ring Silicone Rubber Housing Intermediate metal work Safe non-shattering failure mode Heat Sink ZnO Varistor Element Die Cast Aluminium Sealing End Insulated base Figure 1a: Tyco Electronics Bowthorpe surge arrester core and series parallel surge arrester. Track and Erosion Resistant 52

II. The Single Column Design Tyco Electronics offers two types of single column Surge Arrester. The construction of the arrester type HSR is manufactured with the above described modules. These arresters are available for voltages up to 132 kv as a class 2 Surge Arrester. The type named PCA is designed as a class 3 Surge Arrester for voltages from 30 kv up to 220 kv. III. The Module Series Parallel Design Especially for higher voltages are some features like voltage distribution, stress grading, thermal ageing, partial discharge and the weight important for the design of the Surge Arrester. Tyco Electronics developed the Module Series Parallel Design to build up the advantages for these higher voltages. A. Voltage distribution and stress grading The voltage distribution is largely governed by the surge arrester geometry and intermediate plates. The intermediate connection plates of the series parallel surge arresters provide additional natural grading capacitance. The intermediate connection plates have stray capacitances which cascade and shunt to earth. Furthermore, the resistance and capacitance of the non-linear varistors also provide voltage grading. The equivalent cascade capacitance network (Fig. 1c) gives more uniform electric field distribution when compared it with a single column porcelain or non-porcelain house surge arrester with or without grading ring. Intermediate connecting plates assist the reduction in radial stress at the highest voltage sections. The overall geometry of the modular surge arrester is such that both radial and longitudinal voltage stress was at an acceptable value at the highest system operating voltage. Figure 1b: Single column surge arrester and core in cage design (type PCA) Key R MO,X Voltage-dependent resistance of section x C MO,X Capacictance of section x C e, X Stray Capacitance to earth at node x n number of sections Figure 1c: Equivalent electric circuit network and the additional capacitance introduced by the series parallel surge B. Thermal ageing and partial discharge An exponential longitudinal voltage grading of a surge arrester is undesirable phenomenon for varistor disks especially for those which are in top of the Surge Arrester. Low energy ionisation of the parallel air gap due to the high electrical stress would lead to ageing and failure of the varistor insulation. It has been established that partial discharge activity in close proximity to metal oxide varistors will lead to rapid ageing and premature failure. Therefore, the conventional single column arrester requires a grading ring for the additional reasons other than uneven field or thermal considerations. Aluminium End Fitting Cage Design Moulded Silicone Sheds ZnO Blocks Pedestal Base Equivalent circuit network (Fig. 2a) can only handle the varistor element in its linear model either before or after the threshold turn on point. For the former, varistors have high resistance and it s capacitance that dictates the surge arrester voltage grading. Beyond the turn on point the varistors have low resistance and this dominates the voltage grading. Further more for the former case, although the varistor or varistors are seeing high stress, the equivalent network as shown in figure 2a, has high source impedance (Z). Under these conditions the voltage across the varistor will collapse as soon as any significant current commences to flow. The high equivalent source impedance effectively limited the voltage and current that can be applied to the varistor elements located in top surge arrestor section high stress region. It is in this context that further consideration must be given to actual ageing mechanism. Thermal ageing of the varistor would be caused by the lack of self limiting under the combination of high stress and low source impedance. The series parallel surge arrester design has eliminated both, thermal and partial discharge ageing to the metal oxide arrester. The Series Parallel surge arrester has no internal air gaps and therefore requires no grading ring to avoid internal ionisation. Figure 2b shows the coaxial circuit approximation model l and figure 2c shows typical results obtained and confirmed the near uniform longitudinal voltage stress distribution. Unlike other designs the Series Parallel surge arrester does not require external means such as grading rings, to aid the voltage distribution. 53

Current (2.0 ka/div) CH1 Current (2.0 ka/div) CH2 Current (2.0 ka/div) CH3 Trace Zeros 0 10 20 30 40 50 60 70 80 90 100 Time (µs) Figure 2a: Equivalent network D. Series Parallel surge arrester electrical tests The following standard IEC routine testing for every series parallel surge arrester units: Reference voltage measurement Partial discharge measurement Leakage current measurement Residual voltage measurement C. Comparison between series parallel and single column design There are differences and similarities between the field plot to a single column porcelain house surge arrester and the Series Parallel design. They are summarized as follows: The Series Parallel arrester has more effective grading per unit length than the single column type Figure 2b: Field plot of series surge arrester using a coaxial circuit approximation model Figure 2c: Field plot result of series parallel surge arrester A Varistor non-conduct B Varistor partially conduct C Varistor fully conduct Specially a Series Parallel 4P type exhibits similar stress distribution to the IEC example calculations, but without use the oversize diameter voltage grading rings Radial stress is an issue for porcelain housed design due to the inbuilt air gap between the varistor and the housing inner wall but not for the gap free (integrated housing) Tyco Electronics patented construction In addition, a proprietary internal procedure was introduced to check the current sharing of parallel columns within a series parallel surge arrester. A proprietary process ensures that between parallel columns the lowest practical differences in characteristics can be employed in one complete series parallel surge arrester. Therefore, residual voltages, energy absorption and heat dissipation are shared among the parallel units. E. Installation and maintenance advantages of the series parallel design Good stress grading without the need of oversize grading ring Light weight no heavy lifting equipment is required for installation Light weight no heavy duty foundation is required for the surge arrester Modular design quick installation and commission Lattice structure exceptional strong mechanical strength Non shatter of the surge arrester housing transportation easiness Non shatter of the surge arrester housing no damage to personal and nearby expensive equipments Good pollution performance-maintenance free Environmental acceptable materialmaintenance free The series parallel design is capable to withstand seismic condition set in the current international standards which guarantees reliable maintenance in all regions. 54

Surge Arrester Selection Electrical Performance System Voltage (kv) Rated Voltage (kv) Line Discharge Class Long Duration Current (A) Nominal Discharge Current (4/10 µs) (ka) Rated Short Circuit Current (ka) Energy Capability at Ur acc. to IEC 60099-4 (kj/kv) 123 84 120 7.8 PCA 8 Type Page 84 126 2 450 10 40 4.5 HSR 8 96 126 3 750 10 40 7.0 2PH 8 96 120 4 1100 20 63 10.8 3P 8 108 120 5 1500 20 63 12.5 4P 8 Neutral Ground 75 2 450 10 40 4.5 HSR 8 170 132 150 7.8 PCA 8 132 150 3 750 10 40 7.0 2PH 8 132 150 4 1100 20 63 10.8 3P 8 132 5 1500 20 63 12.5 4P 8 Neutral Ground 96 2 450 10 40 4.5 HSR 8 Neutral Ground 96 3 750 10 40 7.0 2PH 8 245 180 198 7.8 PCA 10 180 214 4 920 20 63 10.8 3P 10 180 214 5 1500 20 63 12.5 4P 10 Neutral Ground 168 3 750 10 40 7.0 2PH 10 362 240 290 4 1100 20 63 10.8 3P 10 260 290 5 1500 20 63 12.5 4P 10 Neutral Ground 180 3 920 20 63 9.4 3P 10 420 336-360 4 1100 20 63 10.8 3P 12 330 393 5 1500 20 63 12.5 4P 12 336 360 5 1500 20 63 16.4 5P 12 550 396-444 5 1500 20 63 12.5 4P 12 420 468 5 1800 20 63 16.4 5P 12 High current inpulse (4/10 µs) 100 ka (for all Surge Arrester types) PCA HSR 2PH 3P 4P 55

Surge Arrester for System Voltages 123 kv and 170 kv Protective Characteristics System Voltage Ur* Uc** Line Discharge Class Max. U res tested with current wave Switching surge Lightning Current 30/60 µs 8/20 µs 250 A 1000 A 5 ka 10 ka 20 ka Steep Current 1/20 µs 10 ka (kv) (kv) (kv) (kv) (kv) (kv) (kv) (kv) (kv) 123 84 67.2 169 180 209 219 240 238 96 76.8 189 201 234 245 268 266 108 86.4 209 222 259 270 296 294 120 96.0 239 254 296 209 339 336 84 67.0 2 171 183 209 225 248 256 87 70.0 2 178 192 219 235 259 267 91 73.0 2 183 197 225 242 266 273 95 76.0 2 193 208 237 255 281 288 96 76.8 2 193 208 237 255 281 288 98 79.0 2 198 213 243 261 288 295 102 82.0 2 208 224 256 275 303 309 106 85.0 2 216 232 265 285 314 320 108 86.4 2 218 235 268 288 317 323 110 88.0 2 221 237 271 291 321 327 120 96.0 2 241 259 296 318 350 355 126 101.0 2 253 272 311 334 369 373 95 76.0 3 191 203 227 241 261 272 96 76.8 3 191 203 227 241 261 272 98 79.0 3 198 210 235 250 271 281 103 82.4 3 205 218 244 260 281 291 106 84.8 3 213 226 253 269 291 301 108 86.4 3 213 226 253 269 291 301 110 88.0 3 220 234 262 278 301 311 114 91.2 3 227 242 270 287 311 321 120 96.0 3 235 249 279 297 321 331 121 96.8 3 242 257 288 306 311 340 126 101.0 3 249 265 296 315 341 351 96 76.8 4 188 198 219 232 249 262 98 79.0 4 195 206 228 241 258 272 103 82.4 4 202 213 236 250 268 281 105 84.0 4 202 213 236 250 268 281 108 86.4 4 209 221 245 259 278 291 120 96.0 4 231 244 270 285 306 319 108 86.4 5 207 218 240 253 271 283 120 96.0 5 229 241 265 280 299 311 Neutral Ground 75 60.0 2 151 162 185 199 219 223 170 132 106.0 252 267 311 325 356 354 138 110.0 269 286 333 348 381 378 150 120.0 299 318 370 386 423 420 132 106.0 3 264 280 314 334 361 374 138 110.0 3 274 291 325 346 374 388 140 112.0 3 274 291 325 346 374 388 144 115.0 3 284 301 337 358 388 401 150 120.0 3 293 312 349 371 401 414 132 106.0 4 260 274 304 321 345 362 138 110.0 4 270 285 315 333 357 375 144 115.0 4 279 295 326 345 370 388 150 120.0 4 289 305 338 357 383 400 132 105.0 5 257 271 298 314 337 353 Neutral Ground 96 76.8 2 193 208 237 255 281 288 Neutral Ground 96 76.8 3 191 203 227 241 261 272 * Ur Rated Voltage Surge Arrester with other characterstics are available on request ** Uc Cont. Operating voltage *** TOV curves are given in Technical data for selected Surge Arrester (on request) **** Accessories selection see on the pages 14 19 56

Temporary Overvoltage capability for 1 sec*** Creepage length Overall height Rec. Min distance between phase centers (mm) Rec. Min distance between phase to earth (mm) Max. Cantilever load Weight Product code**** (kv) (mm) (mm) (N) (kg) 96.6 PCA3-84 110.0 PCA3-96 124.0 PCA3-108 138.0 PCA3-120 97.7 3975 1428 841 455 600 17 3HSRC(P)84L1E1M0(5) 102.0 3975 1428 1133 475 600 17 3HSRC(P)87L1E1M0(5) 106.0 3975 1428 1168 495 600 17 3HSRC(P)91L1E1M0(5) 111.0 3975 1428 1203 516 600 17 3HSRC(P)95L1E1M0(5) 112.0 3975 1428 1212 518 600 17 3HSRC(P)96L1E1M0(5) 115.0 3975 1428 1238 536 600 17 3HSRC(P)98L1E1M0(5) 120.0 3975 1428 1274 556 600 17 3HSRC(P)102L1E1M0(5) 124.0 3975 1428 1309 577 600 17 3HSRC(P)106L1E1M0(5) 127.0 3975 1428 1325 586 600 17 3HSRC(P)108L1E1M0(5) 128.0 3975 1428 1344 597 600 17 3HSRC(P)110L1E1M0(5) 140.0 3975 1428 1438 651 600 17 3HSRC(P)120L1E1M0(5) 147.0 3975 1428 1494 684 600 17 3HSRC(P)126L1E1M0(5) 109.0 3975 1454 1337 516 1000 35 2P3HSRC95L2E2M4 110.0 3975 1454 1346 521 1000 35 2P3HSRC96L2E2M4 113.0 3975 1454 1373 536 1000 35 2P3HSRC98L2E2M4 118.0 3975 1454 1412 559 1000 35 2P3HSRC103L2E2M4 121.0 3975 1454 1440 575 1000 35 2P3HSRC106L2E2M4 124.0 3975 1454 1459 586 1000 35 2P3HSRC108L2E2M4 126.0 3975 1454 1478 597 1000 35 2P3HSRC110L2E2M4 131.0 3975 1454 1516 619 1000 35 2P3HSRC114L2E2M4 138.0 3975 1454 1572 652 1000 35 2P3HSRC120L2E2M4 139.0 3975 1454 1581 657 1000 35 2P3HSRC121L2E2M4 145.0 3975 1454 1628 684 1000 35 2P3HSRC126L2E2M4 115.0 3975 1500 1612 521 2000 65 3P3SR96L2E2M7-4 117.0 3975 1500 1639 536 2000 65 3P3SR98L2E2M7-4 122.0 3975 1500 1678 559 2000 65 3P3SR103L2E2M7-4 124.0 3975 1500 1697 570 2000 65 3P3SR105L2E2M7-4 128.0 3975 1500 1725 586 2000 65 3P3SR108L2E2M7-4 141.0 3975 1500 1838 651 2000 65 3P3SR120L2E2M7-4 119.0 3975 1838 1725 586 2875 64 4P3SR108L2E2M7 132.0 3975 1838 1838 651 2875 64 4P3SR120L2E2M7 87.5 2650 950 759 407 900 11 2HSRC(P)75L1E1M0(5) 152.0 PCA3-132 159.0 PCA31-138 173.0 PCA31-150 151.0 2650 952 1685 716 900 46 2P4HSRC132L2E2M4 159.0 5300 1936 1741 749 500 46 2P4HSRC138L2E2M4 160.0 5300 1936 1760 760 500 46 2P4HSRC140L2E2M4 166.0 5300 1936 1798 782 500 46 2P4HSRC144L2E2M4 172.0 5300 1936 1854 814 500 46 2P4HSRC150L2E2M4 159.0 5300 2000 1951 717 1875 84 3P4SR132L2E2M7 162.0 5300 2000 2007 749 1875 84 3P4SR138L2E2M7 170.0 5300 2000 2064 782 1875 84 3P4SR144L2E2M7 176.0 5300 2000 2120 814 1875 84 3P4SR150L2E2M7 145.0 5300 1951 1951 716 2750 86 4P4SR132L2E2L7 112.0 3975 1428 1212 521 600 17 3HSRC(P)96L1E1M0(5) 110.0 3975 1454 1346 521 1000 35 2P3HSRC96L2E2M4 57

Surge Arrester for System Voltages 245 kv and 362 kv Protective Characteristics System Voltage (kv) Ur* (kv) Uc** (kv) Line Discharge Class Max. U res tested with current wave Switching surge 30/60 µs 250 A (kv) 1000 A (kv) 5 ka (kv) Lightning Current 8/20 µs 10 ka (kv) 20 ka (kv) Steep Current 1/20 µs 245 180 144 350 372 433 453 496 492 192 154 379 402 468 489 536 532 10 ka (kv) 196 157 389 413 480 502 550 546 198 158 389 413 480 502 550 546 180 144 4 349 368 408 431 463 484 183 146 4 361 381 422 446 479 500 186 149 4 361 381 422 442 479 500 192 154 4 373 394 436 461 495 516 194 155 4 385 407 450 475 511 532 198 158 4 385 407 450 471 511 532 201 161 4 397 419 464 490 527 548 205 164 4 397 419 464 486 527 548 214 171 4 421 445 492 520 558 580 180 144 5 345 364 401 422 452 472 183 146 5 357 377 414 437 468 487 186 149 5 357 377 414 437 468 487 192 154 5 369 389 428 451 483 503 198 158 5 381 402 442 466 499 517 201 161 5 393 414 456 480 514 533 204 153 5 393 414 456 480 514 533 214 171 5 393 414 456 480 514 564 Neutral Ground 168 134 3 332 353 395 420 454 466 362 240 192 4 472 498 552 582 625 656 264 211 4 522 551 611 645 692 723 268 214 4 522 551 611 645 692 723 271 217 4 522 551 611 645 692 723 276 221 4 539 569 630 666 715 745 279 223 4 539 569 630 666 715 745 283 226 4 556 587 650 686 737 767 286 229 4 556 587 650 686 737 767 288 230 4 556 587 650 680 737 767 290 232 4 573 605 670 707 760 789 260 208 5 495 522 575 606 648 682 264 211 5 514 542 597 629 673 705 268 214 5 514 542 597 629 673 705 271 217 5 533 562 619 652 698 731 276 221 5 533 562 619 652 698 731 279 223 5 533 562 619 652 698 731 283 226 5 552 583 641 675 723 756 288 230 5 552 583 641 675 723 756 290 232 5 552 583 641 675 723 756 Neutral Ground 180 144 3 349 368 408 431 463 484 * Ur Rated Voltage Surge Arrester with other characterstics are available on request ** Uc Cont. Operating voltage *** TOV curves are given in Technical data for selected Surge Arrester (on request) **** Accessories selection see on the pages 14 19 58

Temporary Overvoltage capability for 1 sec*** (kv) Creepage length (mm) Overall height (mm) Rec. Min distance between phase centers (mm) Rec. Min distance between phase to earth (mm) Max. Cantilever load (N) Weight 207 PCA32-180 221 PCA33-192 225 PCA33-196 228 PCA33-198 (kg) Product code**** 210 6625 2500 2402 978 1750 103 3P5SR180L2E2M7-4 216 6625 2500 2430 993 1750 103 3P5SR183L2E2M7-4 219 6625 2500 2458 1009 1750 103 3P5SR186L2E2M7-4 225 6625 2500 2515 1042 1750 103 3P5SR192L2E2M7-4 229 6625 2500 2534 1053 1750 103 3P5SR194L2E2M7-4 232 6625 2500 2571 1075 1750 103 3P5SR198L2E2M7-4 237 6625 2500 2599 1091 1750 103 3P5SR201L2E2M7-4 242 6625 2500 2637 1113 1750 103 3P5SR205L2E2M7-4 250 6625 2500 2722 1161 1750 103 3P5SR214L2E2M7-4 198 6625 2500 2402 977 2625 108 4P5SR180L2E2M4-5 201 6625 2500 2430 993 2625 108 4P5SR183L2E2M4-5 204 6625 2500 2458 1009 2625 108 4P5SR186L2E2M4-5 211 6625 2500 2515 1042 2625 108 4P5SR192L2E2M4-5 218 6625 2500 2571 1075 2625 108 4P5SR198L2E2M4-5 221 6625 2500 2599 1091 2625 108 4P5SR201L2E2M4-5 224 6625 2500 2628 1107 2625 108 4P5SR204L2E2M4-5 235 6625 2500 2722 1161 2625 108 4P5SR214L2E2M4-5 193 5300 1936 2023 912 500 46 2P4HSRC168L2E2M4 283 9275 3500 2966 1303 1500 141 3P7SR240L2E2M7-4 312 9275 3500 3192 1433 1500 141 3P7SR264L2E2M7-4 316 9275 3500 3229 1454 1500 141 3P7SR268L2E2M7-4 320 9275 3500 3257 1471 1500 141 3P7SR271L2E2M7-4 326 9275 3500 3304 1498 1500 141 3P7SR276L2E2M7-4 329 9275 3500 3333 1514 1500 141 3P7SR279L2E2M7-4 334 9275 3500 3370 1536 1500 141 3P7SR283L2E2M7-4 337 9275 3500 3398 1552 1500 141 3P7SR286L2E2M7-4 339 9275 3500 3417 1563 1500 141 3P7SR288L2E2M7-4 342 9275 3500 3436 1574 1500 141 3P7SR290L2E2M7-4 286 10600 4000 3154 1411 2250 170 4P8SR260L2E2M7 290 10600 4000 3192 1433 2250 170 4P8SR264L2E2M7 295 10600 4000 3229 1454 2250 170 4P8SR268L2E2M7 298 10600 4000 3257 1471 2250 170 4P8SR271L2E2M7 303 10600 4000 3304 1498 2250 170 4P8SR276L2E2M7 307 10600 4000 3333 1514 2250 170 4P8SR279L2E2M7 311 10600 4000 3370 1536 2250 170 4P8SR283L2E2M7 317 10600 4000 3417 1563 2250 170 4P8SR288L2E2M7 319 10600 4000 3436 1574 2250 170 4P8SR290L2E2M7 210 6625 3500 2402 977 1750 103 3P5SR180L2E2M7 59

Surge Arrester for System Voltages 420 kv and 550 kv Protective Characteristics System Voltage (kv) Ur* (kv) Uc** (kv) Line Discharge Class Max. U res tested with current wave Switching surge 30/60 µs 250 A (kv) 1000 A (kv) 5 ka (kv) Lightning Current 8/20 µs 10 ka (kv) 20 ka (kv) Steep Current 1/20 µs 420 336 269 4 655 691 765 808 868 902 10 ka 336 269 4 650 686 760 802 862 901 360 288 4 693 732 810 856 919 958 360 288 4 698 737 816 862 925 969 330 264 5 629 663 729 769 823 855 360 288 5 686 723 796 839 898 934 336 269 5 643 678 746 786 842 883 360 288 5 691 728 801 844 904 945 381 305 5 810 854 939 990 1060 1098 385 308 5 810 854 939 990 1060 1098 389 311 5 810 854 939 990 1060 1098 393 314 5 857 904 994 1048 1122 1161 336 269 5 643 678 746 786 842 915 360 288 5 686 723 769 839 898 934 550 396 317 5 857 904 994 1048 1122 1161 400 320 5 857 904 994 1048 1122 1161 404 323 5 857 904 994 1048 1122 1161 408 326 5 857 904 994 1048 1122 1161 411 329 5 857 904 994 1048 1122 1161 396 317 5 864 912 1003 1057 1132 1175 400 320 5 864 912 1003 1057 1132 1175 404 323 5 864 912 1003 1057 1132 1175 408 326 5 864 912 1003 1057 1132 1175 411 329 5 864 912 1003 1057 1132 1175 415 332 5 864 912 1003 1057 1132 1175 419 335 5 891 939 1033 1089 1166 1208 420 336 5 891 939 1033 1089 1166 1208 423 338 5 891 939 1033 1089 1166 1208 444 355 5 943 994 1094 1153 1235 1341 405 324 5 886 934 1028 1083 1160 1208 409 327 5 886 934 1028 1083 1160 1208 413 330 5 886 934 1028 1083 1160 1208 416 333 5 886 934 1028 1083 1160 1208 420 336 5 886 934 1028 1083 1160 1208 424 339 5 886 934 1028 1083 1160 1208 428 342 5 943 994 1094 1153 1235 1282 431 345 5 943 994 1094 1153 1235 1282 435 348 5 943 994 1094 1153 1235 1282 444 355 5 943 994 1094 1153 1235 1282 420 336 5 891 939 1033 1089 1166 1208 444 355 5 934 994 1094 1153 1235 1277 420 336 5 886 934 1028 1083 1160 1208 444 355 5 943 994 1094 1153 1235 1282 468 374 5 972 1025 1127 1188 1272 1319 (kv) * Ur Rated Voltage Surge Arrester with other characterstics are available on request ** Uc Cont. Operating voltage *** TOV curves are given in Technical data for selected Surge Arrester (on request) **** Accessories selection see on the pages 14 19 60

Temporary Overvoltage capability for 1 sec*** (kv) Creepage length (mm) Overall height (mm) Rec. Min distance between phase centers (mm) Rec. Min distance between phase to earth (mm) Max. Cantilever load (N) Weight (kg) Product code**** 388 10600 4000 3868 1824 1375 159 3P8SR336L2E2M7-4 397 11925 4500 3868 1824 1250 178 3P9SR336L2E2M7-4 423 11925 4500 4094 1954 1250 178 3P9SR360L2E2M7-4 426 13250 5000 4094 1954 1125 197 3P10SR360L2E2M7-4 364 10600 3812 3812 1791 2250 170 4P8SR330L2E2M7 397 11925 4575 4094 1954 2125 190 4P9SR360L2E2M7 370 13250 5075 3868 1824 2000 210 4P10SR336L2E2M7 397 13250 5075 4094 1954 2000 210 4P10SR360L2E2M7 419 13250 5075 4291 2068 2000 210 4P10SR381L2E2M7 424 13250 5075 4329 2089 2000 210 4P10SR385L2E2M7 428 13250 5075 4367 2111 2000 210 4P10SR389L2E2M7 432 13250 5075 4404 2133 2000 210 4P10SR393L2E2M7 370 11925 4575 3868 1824 2400 236 5P9SR336L2E2M7 396 11925 4575 4094 1954 2400 236 5P9SR360L2E2M7 436 13250 5075 4432 2149 2000 210 4P10SR396L2E2M7 440 13250 5075 4470 2171 2000 210 4P10SR400L2E2M7 444 13250 5075 4508 2193 2000 210 4P10SR404L2E2M7 449 13250 5075 4545 2214 2000 210 4P10SR408L2E2M7 452 13250 5075 4573 2231 2000 210 4P10SR411L2E2M7 436 14575 5575 4432 2149 1875 230 4P11SR396L2E2M7 440 14575 5575 4470 2171 1875 230 4P11SR400L2E2M7 444 14575 5575 4508 2193 1875 230 4P11SR404L2E2M7 449 14575 5575 4545 2214 1875 230 4P11SR408L2E2M7 452 14575 5575 4573 2231 1875 230 4P11SR411L2E2M7 457 14575 5575 4611 2252 1875 230 4P11SR415L2E2M7 461 14575 5575 4649 2274 1875 230 4P11SR419L2E2M7 463 14575 5575 4658 2279 1875 230 4P11SR420L2E2M7 465 14575 5575 4686 2296 1875 230 4P11SR423L2E2M7 488 14575 5575 4884 2410 1875 230 4P11SR444L2E2M7 446 14575 5575 4517 2198 1875 250 4P12SR405L2E2M7 450 15900 6075 4555 2220 1750 250 4P12SR409L2E2M7 454 15900 6075 4592 2241 1750 250 4P12SR413L2E2M7 458 15900 6075 4620 2258 1750 250 4P12SR416L2E2M7 463 15900 6075 4658 2279 1750 250 4P12SR420L2E2M7 466 15900 6075 4696 2301 1750 250 4P12SR424L2E2M7 471 15900 6075 4733 2323 1750 250 4P12SR428L2E2M7 474 15900 6075 4761 2339 1750 250 4P12SR431L2E2M7 479 15900 6075 4799 2361 1750 250 4P12SR435L2E2M7 486 15900 6075 4884 2410 1750 250 4P12SR444L2E2M7 462 14575 5575 4658 2279 2200 250 5P11SR420L2E2M7 488 14575 5575 4884 2410 2200 250 5P11SR444L2E2M7 462 15900 6075 4658 2279 2000 250 5P12SR420L2E2M7 488 15900 6075 4884 2410 2000 250 5P12SR444L2E2M7 512 15900 6075 5109 2540 2000 250 5P12SR468L2E2M7 61

Modular Single Column Polymeric Surge Arrester Type HSR Line lead accessories L1 50 mm stud with washers and nut M 16 L2 Line clamp to suit conductors up to Ø 16 mm L5 Line clamp to suit conductors up to Ø 35 mm L6 Aluminium stem Ø 30 mm x 80 mm high Arrester Type = Rated Voltage Ur in kv 2HSRC 48.00 60.00 72.00 75.00 83.75 87.50 91.25 95.00 2HSRCP 96.00 98.75 102.50 106.25 108.00 110.00 HSRC HSRCP Earthing accessories Mounting accessories E1 2 x M 10 x 20 mm Hexagonal headed set screws and spring washers E2 Earth clamp to suit conductors up to Ø 16 mm E5 Earth clamp to suit conductors up to Ø 35 mm M5 4 Hole Pedestal Base 127-140 PCD (Pitch Circle Diameter) M3 Set of 4 Poly- fibre Base Insulators supplied with M5 M0 Without fixing accessories M10 Single Polyfibre Insulator Sample: 3 HSRC 110 L2 E2 M4 Parallel Paths Arrester Housing Voltage Mounting Earth Terminal Line Terminal 62

Modular Polymeric Surge Arresters Type 2PH L5 Line clamp to suit cables up to Ø 35 mm L3 Line clamp to suit cables up to Ø 16 mm Silicone Rubber Housed Arrester Module L2 Aluminium stem Ø 30 mm x 80 mm high Aluminium Connection Strap E5 Earth clamp to suit cables up to Ø 35 mm E2 Earth clamp to suit cables up to Ø 16 mm M4 Set of 2 Polyfibre Base Insulators E1 2 x M10 x 20 mm Hexagonal headed set screws and spring washer Sample: 2P 3HSRC 110 L2 E2 M4 Parallel Paths Series Stages Voltage Mounting Earth Terminal Line Terminal 63

Modular Polymeric Surge Arresters Type 3P Corona Ring L5 Line clamp to suit cables up to Ø 35 mm Silicone Rubber Housed Arrester Module L3 Line clamp to suit cables up to Ø 16 mm Silicone Aluminium intersection cross-arm L2 Aluminium stem Ø 30 mm x 80 mm high Corona Shield E5 Earth clamp to suit cables up to Ø 35 mm E2 Earth clamp to suit cables up to Ø 16 mm M7 3 Polyfibre Base Insulators connected to galvanised steel plate E1 2 x M10 x 20 mm Hexagon headed set screws and spring washers Sample: 3P 8SR 336 L2 E2 M7 Parallel Paths Series Stages Voltage Mounting Earth Terminal Line Terminal 64

Modular Polymeric Surge Arresters Type 4P Corona Ring L5 Line clamp to suit cables up to Ø 35 mm Silicone Rubber Housed Arrester Module L3 Line clamp to suit cables up to Ø 16 mm Silicone Aluminium intersection cross-arm L2 Aluminium stem Ø 30 mm x 80 mm high Corona Shield E5 Earth clamp to suit cables up to Ø 35 mm E2 Earth clamp to suit cables up to Ø 16 mm M7 4 Polyfibre Base Insulators connected to galvanised steel plate Sample: 4P 8SR 336 L2 E2 M7 E1 2 x M10 x 20 mm Hexagon headed set screws and spring washers Parallel Paths Series Stages Voltage Mounting Earth Terminal Line Terminal 65

Line Accessories L5 L3 2P L2 HSR L6 Earthing accessories E5 3P E5 2P E5 2P E2 3P E2 / HSRP E2 66

Mounting accessories HSR M10 HSR M3 M5 M0 No mounting 4P M7 3P M7 67

Transmission Line Surge Arresters TLA Lightning is responsible for approximately 65% of all of the non-scheduled outages occurring on transmission lines. Power supply utilities have verified the load losses due to voltage sags in their systems from transitory outages caused by lightning activity and in some regions they have found serious permanent damages on important lines. The effect of transitory disturbances on transmission lines can also be more critical in areas with high ground resistivity when associated with high lightning activity. Although a fault time is shorter than 1 minute, in many cases this is still unacceptable. This loss of supply is critical for all modern industries, electronical equipment and especially production processes. In most cases line arresters (TLA), electrically connected in parallel with the insulating string, have been considered as the most effective method currently applied to improve transmission line performance, especially when associated with improvements of the grounding system and usually presents the best benefit versus cost relationship in reducing flashovers of the insulator string due to excessive voltages. Generic Technical data Specification IEC600099-4 Classification 10 ka Voltage Rating 10 to 192 kv High Current Performance 100 ka Line Discharge Class 2 Minimum Energy Capability acc. to IEC 60099-4 at Ur 4,5 kj/kv Disconnect Device tested in accordance with IEC 60099-4 Insulation Material Silicone Rubber Vibration Tested Report No. BOE002000 Features & Benefits HV arrester suspended from a transmission line giving enhanced transmission line performance Increasing system line voltage on standard insulated transmission lines Minimising circuit beaker operation with possible system outage resulting from back flashover on the transmission line Switching overvoltages are absorbed over the length of the line reducing the severity of surge at the substation Transmission systems can be operated even where sub-soil gives poor tower footing resistance Eliminating interrupted power supply for sensitive industrial processes Installing TLA on a standard 3 phase voltage system along the line, at calculated intervals, allows for optimum performance of the TLA, to give an increased system line voltage. Therefore eliminating the need to increase the standard insulation level required on conventional system upgrade. Accessories TLA Pivot Suspension Clamp Galvanic Steel Clamp Straps & Podings Galvanised Steel Line palm M 16 x 35 Min. Full Thread Suspension Clamp Grading Ring for voltages above 150 kv Silicone Rubber Insulation Disconnect Device Earth Cable with Strain Relief Aluminium Line Clamp M 12 Connection For Shoring Braid/Cable Earthing Configuration TLA Disconnect E1 TLA Strain Relief System E2 Suspension Clamp Assembly Copper Shoring Braid/Cable TLA Surge Arrestor TLA Surge Arrester Disconnect Device Earth Connection TLA Surge Arrester Disconnect Device Earth Connection TLA Surge Arrester Strain Relief Wire Connection Clamp Conductor Dimensions in mm U Bolt Weight Range A B C D Torque Diameter L2 9.5 19 mm 180 80 90 40 45 Nm 1.8 kg L3 18 30 mm 217 90 110 50 45 Nm 3.0 kg L4 30 45 mm 267 100 120 64 75 Nm 4.3 kg L5 45 65 mm 320 120 140 86 75 Nm 6.0 kg 68

TLA 1: 15 45 kv TLA 2: 40 96 kv TLA 3: 108 144 kv TLA 4: 150 192 kv Protective Characteristics Ur* (kv) Uc** (kv) Max. U res tested with current wave Switching surge 30/60 µs 125 A (kv) 500 A (kv) 5 ka (kv) Lithtning Current 8/20 µs 10 ka (kv) 20 ka (kv) Seep Current 1/20 µs 10 ka (kv) Temporary Overvoltage capability for 1 s*** (kv) Creepage length (mm) Overall height (mm) Product code**** 15 12.0 31.1 33.3 41.4 45.9 51.6 46.7 17.1 930 321 TLA1B15L1E1M2 18 14.0 39.2 41.7 50.5 54.4 61.8 59.5 20.5 930 321 TLA1B18L1E1M0 21 17.0 43.8 46.5 56.4 61.4 69.0 67.1 24.0 930 321 TLA1B21L1E1M0 24 19.0 50.1 53.2 64.5 69.5 78.9 75.6 27.4 930 321 TLA1B24L1E1M0 27 22.0 54.8 58.2 70.6 76.3 86.4 83.3 30.8 930 321 TLA1B27L1E1M0 30 24.0 60.9 64.8 78.5 84.6 96.0 92.0 34.2 1310 476 TLA1C30L1E1M0 36 29.0 71.8 76.3 92.4 100.0 113.0 108.0 41.1 1310 476 TLA1C36L1E1M0 39 31.0 76.4 81.2 98.4 106.0 120.0 115.0 44.5 1310 476 TLA1C39L1E1M0 42 34.0 82.7 87.8 106.0 115.0 130.0 125.0 47.9 2000 476 TLA1E42L1E1M0 45 36.0 88.8 94.4 114.0 123.0 140.0 134.0 51.3 2000 476 TLA1E45L1E1M0 48 38.4 93.9 100.0 121.0 130.0 148.0 142.0 54.8 2620 952 TLA2C48L1E1M0 60 48.0 115.0 122.0 148.0 160.0 182.0 174.0 68.4 2620 952 TLA2C60L1E1M0 72 57.6 137.0 146.0 176.0 190.0 216.0 207.0 82.0 2620 952 TLA2C72L1E1M0 75 60.0 144.0 153.0 186.0 200.0 227.0 218.0 85.5 2620 952 TLA2C75L1E1M0 84 67.2 159.0 169.0 204.0 220.0 250.0 240.0 95.8 4000 952 TLA2E84L1E1M0 96 76.8 182.0 193.0 234.0 252.0 286.0 275.0 109.0 4000 952 TLA2E96L1E1M0 108 86.4 202.0 215.0 260.0 281.0 319.0 305.0 123.0 3930 1428 TLA3C108L1E1M0 120 96.0 225.0 239.0 286.0 312.0 354.0 339.0 137.0 3930 1428 TLA3C120L1E1M0 138 110.0 261.0 277.0 336.0 362.0 411.0 394.0 157.0 6000 1428 TLA3E138L1E1M0 144 115.0 271.0 288.0 349.0 377.0 427.0 410.0 164.0 6000 1428 TLA3E144L1E1M0 150 120.0 285.0 303.0 367.0 396.0 449.0 430.0 171.0 5240 1904 TLA4C150L1E1M0 168 134.0 314.0 333.0 404.0 435.0 494.0 474.0 192.0 8000 1904 TLA4E168L1E1M0 180 144.0 338.0 359.0 435.0 470.0 533.0 511.0 205.0 8000 1904 TLA4E180L1E1M0 192 154.0 376.0 399.0 484.0 521.0 594.0 591.0 219.0 8000 1904 TLA4E192L1E1M0 * Ur Rated Voltage Surge Arrester with other characterstics are available on request ** Uc Cont. Operating voltage *** TOV curves are given in Technical data for selected Surge Arrester (on request) **** Accessories selection see on left page 69

Surge Counters Type SC 12 & SC 13 The Tyco Electronics Bowthorpe EMP range of Surge Arrester monitoring instruments are fully tested for use with any manufacturers surge arrester. The SC 12 is a Surge Counter only, whilst the SC 13 provides the additional measurement of total leakage current. The analogue instrument provides a means of monitoring the current through the arrester and the leakage current over the surface of the arrester housing. Significant changes after installation may indicate a deterioration in the arrester or a build up of surface contamination. These instruments, which require no auxiliary supply, are designed for installation in the earth connections of a single surge arrester or alternatively the SC 12 may be used with the common earth of a three phase set. Fully weatherproofed and sealed for life they are housed in a one piece gravity die cast aluminium case coated to enhance its already high degree of resistance to surface corrosion. The glass viewing window is sealed in place, using a silicon rubber adhesive, and a desiccator is enclosed to ensure any residual moisture trapped during sealing is absorbed for the service life of the counter. Mounting is effected by means of an integrally cast lug at the rear of the case providing a single clearance hole for the galvanized steel M 12 bolt supplied. The SC 12 and SC 13 are service proven and require no special maintenance or servicing apart from general cleaning of the glass viewing window and the moulded epoxy resin line bushing. Line termination M12 nickel plated brass fitted with 2-nickel plated brass locknuts Moulded resin insulator Hermetically sealed glass display panel M12 x 35 galvanized steel with full nut and springwasher Ground terminal M12 Nickel plated brass fitted with 2-nickel plated brass locknuts Meter: 6 digit cyclometer at least 5 counts/second Minimum count current: 200 A 8/20 microsecond wave Maximum High Current Withstand 100 ka 4/10 microsecond wave Nominal Residual Voltage withstand at 100 ka with 4/10 µs Wave 5 kv peak Meter scale: 0 30 ma Peak (bilinear scale) Ref SC 13 2 SC 13 leakage: 0 50 ma Peak (bilinear scale) Ref SC 13L 2 Both counters can be supplied with an auxiliary contact rated 1,0 A 250V for connection to remote signaling equipment. If required put suffix e.g. SC 12/AC. 70

Installations 66 kv Surge Arresters Statkraft, Norway 110 kv Surge Arresters Estonia 132 kv Surge Arresters Statkraft, Norway 300 kv Surge Arrester Statnet 400 kv Surge Arrester Damhead Creek, UK 500 kv Surge Arrester Indonesia 400 kv Surge Arrester Statnet 71

HV Connection System 72

HV Connection System Introduction 74 Connectors for Copper or Aluminium conductors & Copper or Aluminium terminals 220 kv Bronze, Aluminium & Bimetal Range 75 Connectors for Aluminium conductors & Aluminium or Copper terminals 330 kv Sinemex Range 76 Connectors for Aluminium conductors & Aluminium or Copper terminals 550 kv Anti-Corona Range 77 Connectors for Aluminium conductors & Aluminium or Copper terminals 800 kv Extra High Voltage Connectors 78 UNIVERSAL Connectors 79 73

Introduction For more than 60 years, Tyco Electronics SIMEL has been continuously expanding and manufacturing connectors for Grid Stations in France and throughout the world. The various ranges of: Bronze, Aluminium & Bimetallic connectors up to 220 kv Connectors according to NEMA-CC1 Standard up to 330 kv Connectors for Aluminium cables or tubes up to 550 kv Connectors up to 800 kv UNIVERSAL connectors are shown in the following pages as a small overview. These pages are only a capability of available connectors. Therefore we recommend the customer to contact us with his requirements and we should be in position to find the right solution for his application. It is necessary to know the conditions of the substation project like: Operating Voltage Conductor type (Material, Diameter) Nominal Current Short-circuit current Applicable Standards Connection type (bolted, crimped, welded) Working conditions Tyco Electronics SIMEL has expertise level into the substation fields and can provide technical support to customers engineering teams in order to establish the best selection of products fit for each application. To find a product for your application, please contact your representative Sales Engineer. The products are subject to strict controls during the manufacturing, according to our quality control manual, in order to meet the requirements of the ISO 9001: 2000 & ISO 14001: 2004. All our connectors comply with criteria of standards such as IEC, VDE, NEMA, ANSI, etc The tests requested by the main worldwide standards like Heating test Electrical Resistance test Mechanical Cantilever test Short-Circuit current test RIV/Corona test have already been performed on our connectors. SIMEL laboratory is COFRAC accredited as an independent lab following ISO CEI 1725 and can perform usual required type tests such as temperature rise, resistance & mechanical 74

Connectors for Copper or Aluminium conductors & Copper or Aluminium terminals 220 kv Bronze, Aluminium & Bimetal Range Bolted Applications: Standard capacities: Connectors are available such as: Bronze connectors for Copper conductors to Copper conductors or copper terminals, Aluminium connectors for Aluminium conductors to Aluminium conductors or Aluminium terminals, Bimetal connectors for Aluminium or Copper conductors to Aluminium or Copper conductors or terminals. Principle is provided by assembling a bimetallic sheet in between Aluminium and bronze part. Al or Cu tube diameter: 20 to 120 mm Cu cable cross section: 50 to 600 mm 2 Al cable cross section: 75 to 1144 mm 2 Al or Cu stud diameter: M12 to 60 mm Al or Cu palm: 50, 60, 80, 100, 125, 100x200 mm or whatever required conductor fittings rigid, sliding & expansion busbar connectors & supports terminal connectors on stud or palms earthing & grounding applications possibility of providing 330 kv copper alloy range Al. straight expansion terminal pad Bi-metallic straight terminal pad Bronze tee connector Al. tee connector Bi-metallic straight connector pad Bronze straight expansion connector 75

Connectors for Aluminium conductors & Aluminium or Copper terminals 330 kv Sinemex Range Applications: This range meets the requirements of NEMAC-CC1 1984 and 107 standards for a maximum operating voltage of 330 kv. It allows a bolted connection from: Aluminium conductors to Aluminium conductors or Aluminium terminals, Aluminium conductors to copper terminals wherever applicable. Standard capacities: Al Tube diameter: 50 to 250 mm Al cable cross section: 75 to 1144 mm 2 Al or Cu stud diameter: 20 to 80 mm Al or Cu palm: 50, 60, 80, 100, 125, 100x200 mm or whatever required Bundle spacing: 100, 200 mm, or whatever required Connectors are available such as: conductor fittings terminal connectors on stud or palms earthing applications Al. tee connector Al. straight connector 76

Connectors for Aluminium conductors & Aluminium or Copper terminals 550 kv Anti-Corona Range Applications: This range of connectors can be used up to 550 kv operating voltage It allows a bolted, welded or crimped connection from: Aluminium conductors to Aluminium conductors or Aluminium terminals Aluminium conductors to copper terminals wherever applicable Standard capacities: Al Tube diameter: 100 to 250 mm Al cable cross section: 75 to 2000 mm 2 Al or Cu stud diameter: 20 to 60 mm Al or Cu palm: 50, 60, 80, 100, 125, 100x200 mm or whatever required Bundle spacing: 100, 200, 400 mm or whatever required Connectors are available such as: conductor fittings rigid, sliding & expansion busbar connectors & supports terminal connectors on stud or palms conductors spacers earthing applications Al. spacer Al. straight expansion connector Al. straight connector Al. Straight compression type terminal pad 77

Connectors for Aluminium conductors & Aluminium or Copper terminals 800 kv Extra High Voltage Connectors 800 kv Connectors for EHV Grids Al. tee connector Al. Straight terminal pad 78

Universal Connectors Advantages: Adjustable on site Easy to install Controlled tightening (shear head bolt) High electrical contact efficiency & stability Al. UNIVERSAL terminal pad 79

Transmission 80

Transmission Tension Insulators 82 Transmission Line Hardware 90 Distribution Line Hardware 96 81

Tension Insulators 82

Tension Insulators Introduction 84 Tension Insulators up to 52 kv 86 Tension Insulators up to 72 kv 88 83

Introduction Construction High strength pultruded fiber glass rod Field proven interfacial sealing Non tracking, UV resistant EVA housing Tyco Electronics Tension Insulators were built as composite insulators. They are based on Raychem s 30 years experience in the field of crosslinked polymers for medium and high voltage applications. They consist of a polymeric housing of ethylene vinyl acetate (EVA) over pultruded fiberglass rod to which galvanized steel or aluminium end fittings are attached. By molding directly over the end fitting, or by using a track resistant polyurethane, moisture ingress to the fiberglass rod is prevented. Composite Insulators are available for applications up to system voltages of 72 kv. They provide a reliable solution for power utilities and railway companies with installations in severely polluted environments all over the world. The core of a composite insulator is a pultruted fiber glass rod which provides a high mechanical strength. In a direct injection molding process a non-tracking, erosion and UV resistant polymeric housing is molded directly onto the fiberglass rod. A corrosion resistant metal fitting is crimped onto each end to the rod to provide a high mechanical strength. A new developed crimping control technology monitors the assembly process of the metal fittings and ensures that crimping forces cause no damage to the fiberglass rod while achieving a crimp that will withstand the highest possible mechanical loads. Sealed with a tracking and erosion resistant polyurethane barrier, the core is protected from deterioration due to moisture ingress. Corrosion resistant crimped end fittings 84

Application Composite insulators are available as tension (suspension), line post and station post insulators. For railway applications, tension and strut composite insulators are available in a large variety of configurations. The maintenance free characteristics of Raychem s EVA material have been demonstrated during service experience of more than 30 years. The Tension insulators are qualified to the requirements of the IEC 61109. New products up to 230 kv A range of High Voltage silicone tension insulators from 69 kv to 230 kv will be available shortly. These insulators will cover normal, high and extra pollution levels. They will be available with a variety of end fitting options, ball, socket, eye, clevis, tongue and Y-Clevis. They will also available with corona rings where required. 85

Composite Tension Insulator up to 52 kv RST-DS46R-xx General Technical Data Physical Properties Creepage Distance [mm] 1300 Dry Arc Distance [mm] 450 Type of Sheds Alternating Core Diameter [mm] 21 End Fittings Mechanical Connection Galvanised Steel Electrical Properties [kv] AC Wet Withstand Voltage 130 AC Dry Withstand Voltage 148 AC Wet Flashover Voltage 158 AC Dry Flashover Voltage 193 Impulse Withstand Voltage 310 Impulse Flashover Voltage 347 Housing Color Grey Color Red Available on request Available on request Type Specific Technical Data RST-DS46R- BS SB CC CC CT CT TC TC TT TT Physical Properties Number of 13 18 18 13 13 13 13 13 13 13 Sheds Housing Material INS0532 INS0345 Available on request Available on request Available on request Available on request Available on request Available on request Available on request Available on request End Fittings Top Ball Socket Clevis Clevis Clevis Clevis Tongue Tongue Tongue Tongue Bottom Socket Ball Clevis Clevis Tongue Tongue Clevis Clevis Tongue Tongue Orientation N/A N/A parallel perpendicular parallel perpendicular parallel perpendicular parallel perpendicular Drawing INS0532 Available on request Mechanical Properties [kn] Specified Mechanical Load Routine Test Load Drawing Dimensions [mm] Available on request Available on request Available on request INS0345 Available on request Available on request Available on request 120 120 75 75 75 75 75 75 75 75 60 60 37,5 37,5 37,5 37,5 37,5 37,5 37,5 37,5 A 650 650 613 613 613 613 650 613 613 613 B 360 360 360 360 360 360 360 360 360 360 C 112.5 112.5 112.5 112.5 112.5 112.5 112.5 112.5 112.5 112.5 D 92 92 92 92 92 92 92 92 92 92 E 28 28 28 28 28 28 28 28 28 28 F 450 450 450 450 447 447 450 450 450 450 The Clevis and Tongue fittings can be supplied in any orientation. The Ball and Socket fittings are according to the IEC 120-16A. The product range is available in pollution class II and III according to IEC 815. Available on request 86

Composite Tension Insulator up to 52 kv RST-DS46R-xx Example: Top: Bottom: RST-DS46R-BS Ball Socket End Fittings: Ball Socket Clevis Tongue 87

Composite Tension Insulator up to 72 kv RST-DS69R-xx General Technical Data Physical Properties Creepage Distance [mm] 1810 Dry Arc Distance [mm] 610 Type of Sheds Alternating Number of Sheds 18 Core Diameter [mm] 21 Housing Material Available on request End Fittings Mechanical Connection Drawing Galvanised Steel Available on request Mechanical Properties [kn] Specified Mechanical Load 75 Routine Test Load 37.5 Electrical Properties [kv] AC Wet Withstand Voltage 180 AC Dry Withstand Voltage 180 AC Wet Flashover Voltage 191 AC Dry Flashover Voltage Impulse Withstand Voltage 350 Impulse Flashover Voltage 434 Housing Color Grey Color Red Available on request Available on request Type Specific Technical Data RST-DS69R- BS SB CC CC CT CT TC TC TT TT End Fittings Top Ball Socket Clevis Clevis Clevis Clevis Tongue Tongue Tongue Tongue Bottom Socket Ball Clevis Clevis Tongue Tongue Clevis Clevis Tongue Tongue Drawing Dimensions [mm] parallel parallel parallel A 796 796 759 759 759 759 759 759 759 759 B 510 510 510 510 510 510 510 510 510 510 C 112 112 112 112 112 112 112 112 112 112 D 92 92 92 92 92 92 92 92 92 92 E 28 28 28 28 28 28 28 28 28 28 F 596 596 596 596 596 596 596 596 596 596 The Clevis and Tongue fittings can be supplied in any orientation. The Ball and Socket fittings are according to the IEC 120-16A. The product range is available in pollution class II and III according to IEC 815. Orientation N/A N/A parallel perpendicular perpendicular perpendicular perpendicular 88

Composite Tension Insulator up to 72 kv RST-DS69R-xx Example: Top: Bottom: RST-DS69R-BS Ball Socket End Fittings: Ball Socket Clevis Tongue 89

Hardware for Transmission Lines 90

Hardware for Transmission Lines Introduction, Project Support 92 Vibration Dampers 93 Spacer Dampers and Spacers 93 Pole Hardware 94 Suspension Clamps 95 Dead Ends 95 Compression Fittings 95 91

Introduction Project Support Tyco Electronics developed Hardware for Overhead Transmission lines since over 20 years and has a lot of field experience in these products. On the following pages we present an overview of our product ranges for Overhead Transmission Lines. Spacer Dampers Vibration Dampers Spacers Pole Hardware Suspension Clamps With the products on the following pages we want to give you an overview of available product types. For these product ranges we concern to work close together with the customers on their projects to define the right product from the wide product range. Therefore we do not present details of the products in this catalogue, which are available in different sizes and materials for a wide range of applications. If you are interested in products from the following pages, please contact your relevant sales representative. He will find together with you the correct product for your special application. Dead Ends Compression Fittings 92

Vibration Dampers General Recommendations Vibration dampers are designed to eliminate conductor fatigue damage and line maintenance costs by effectively diminishing aeolian vibration, thereby allowing increased line tensions. All Tyco Electronics damping devices are designed for the single purpose of reducing vibration. This unitary function is entirely different from that of protecting against: (1) stress concentrations, (2) fretting of abrasion and (3) arc-over burning. Stockbridge Vibration Dampers Dogbone Vibration Dampers Spiral Vibration Dampers The Stockbridge vibration dampers are constructed with a 7 strand messenger cable to improve the damping. Damper weight and length will be optimized for maximum efficiency. The Dogbone vibration dampers are constructed with a 19 strand messenger cable to improve damping and fatigue performance. The design of the zinc weights eliminates water entrapment. The messenger cable has improved energy dissipation at low amplitude of flexure. Spiral Vibration Dampers are exceptionally effective against high frequency aeolian vibration of EHS of Alumoweld shield wires. Spacer Dampers 2 Bundle Posilok Spacer Damper Spacer Dampers are recommended for multi-conductor bundles with industry standard spacing. The Spacer Damper is designed to withstand the forces and movements caused by transient conditions such as short circuit, differential icing, and wind loading without either causing damage themselves. 3 Bundle Posilok Spacer Damper The design accommodates both longitudinal movement of the subconductors, vertical sag differences, as well as compressive and tensile forces. The Spacer Damper can constitute a system which replaces conventional spacers and vibration dampers. 4 Bundle Bolted Spacer Damper Spacer Dampers will control both Aeolian vibration and subconductor oscillation to levels recognized as acceptable within the industry and to the customers expressed needs. Tyco Electronics will tailor the recommendations to terrain and design parameters. Posilok Spacer Posilok spacers are designed to maintain specified subconductor spacing. Furthermore, they are designed to withstand the forces and movements caused by transient conditions such as short circuit differential icing and wind loading without either causing damage to the subconductors or sustaining damage themselves. The Posilok spacer is flexible enough to allow some longitudinal movement between subconductors and yet rigid enough to restrain the subconductors under adverse conditions. They provide a smooth, unitized construction which minimizes corona and presents a low level of RIV. 93

Pole Hardware Yoke Plates and Clevis Eyes Ball Clevis Ball Eye Links Bow Shackles (Anchor Shackles) Ball Clevis Extension Links Ball Eye Extension Links Ball Hooks Socket Clevis Socket Tongues D Shackle Socket Clevis Extension Links Clevis Tongues Clevis Suspension Clamps Trunnion Suspension Clamps Suspension Clamp for Steel and Copper Conductors Turnbuckles Aluminium Angle Clamp The devices above are available in different designs and sizes. Other devices of pole hardware are available on request. For more details please contact your relevant sales representative. 94

Suspension Clamps Heliformed Suspension Unit Forged / Cast Bolted Suspension Clamp Bildqualität schlecht Suspension clamps are designed to reduce the static stresses at the support point, as well as insure that the conductor is cushioned against the dynamic stresses of aeolian vibration. They also protect the conductor in the support area against impulse and power flashover. Dead Ends Wegde Tension Clamp Bolted Tension Clamp Dead Ends are designed to fix the transmission line at the pole. There are two possibilities to fix the cable into the Clamp: the wedge and the bolted solution. Compression Fittings Full Tension Fittings Full Tension Fittings are designed to hold a minimum of 95% of the specific conductor breaking load. Bildqualität schlecht Non-Tension Fittings Non-Tension Fittings are designed to hold nominally 10% of the conductor breaking load. Spacers Spacers are designed to maintain conductor separation. 95

Hardware for Distribution Lines 96

Hardware for Distribution Lines Ties 98 Splices 98 Armor Rods 98 Line Guards 98 Heliformed Suspension Unit 98 Fiber Optic Dead Ends 99 Optical Tension Device 99 Fiber Optic Suspension Unit 99 97

Ties To insure proper fit and service life, it is recommended that only insulators corresponding to C Neck, F Neck, or J Neck be used. The neck diameters and groove height dimensions appear in ANSI Standard for low and medium voltage pin type insulators and also at the beginning of each listing. Ties are recommended as an improvement over Armor Rods secured with hand tie wire. Ties are available as: Longspan Ties Distribution Ties Double Support Ties Side Ties Double Support Ties Spool Ties Quick Spool Ties Splices Splices are designed for joining ACSR or repairing ACSR when damage to the core is suspected. Full Tension Splice will hold the full rated breaking strength and restore conductivity. Conductor Splices are designed as a single component outer layer assembly for sub-ehv conductor. All conductors, new or weathered, must be thoroughly scratch brushed until bright and clean and an inhibitor applied immediately prior to installation of the splice. Armor Rods Armor Rods are intended to protect the conductor on which they are being applied against bending and compression stresses, abrasion, and arc-over. The degree of protection needed on a specific line depends upon a number of factors such as line design, temperature, tension, exposure to wind flow, and vibration history on similar construction in the same area. Armor Rods should be considered as minimum protection for clamp style supports of bolted suspension arrangements. Armor Rods do not act as vibration dampers. They are designed to provide an extra degree of protection to the conductor at support points. Line Guards Line Guards are intended to protect the conductor against abrasion and arc-over and to provide repair. The degree of protection needed on a specific line depends upon a number of factors such as line design, temperature, tension, exposure to wind flow, and vibration history on similar construction in the same area. Line Guards are recommended as minimum for use with hand-tied spans of less than 300 feet in urban construction having no experience of vibration. Line Guards alone are not recommended for use in areas of suspected vibration. They are designed to provide an extra degree of protection to the conductor at support points. Heliformed Suspension Unit Heliformed suspension is intended for use on aluminium based conductors, alumoweld and galvanized steel strands. They are designed to reduce the static stresses at the support point, as well as insure that the conductor is cushioned against the dynamic stresses of aeolian vibration. They also protect the conductor in the support area against impulse and power flashover. Although Heliformed suspension provides improved protection over armor clamp or bare clamp attachments, in the case of known vibration, vibration dampers will be necessary. Consult Tyco Electronics for recommendations concerning Dogbone vibration dampers. 98

Fiber Optic Dead End For ADSS cable Fiber Optic dead ends may be installed once as a temporary (less than 30 days) pulling device prior to its final installation; as long as it is not stressed over 50% of its rated strength. The dead ends are sold as an assembly including reinforced rods, a dead end, clevis thimble, extension link and oval eye nut. Fiber Optic Dead End For OPGW cable The fiber optic dead end may be installed once as a temporary (less than 30 days) pulling device prior to its final installation; as long as it is not stressed over 50% of its rated strength. A ground clamp may be ordered with the dead end. Clamping over the OPDE or the OPRR assemblies is not permitted. Maximum Rated Holding Strength is 95% of the OPGW RTS. Optical Tension Device (OTD) For OPGW Fiber Cable Tyco Electronics new Optical Tensioning Device is designed for pulling OPGW fiber cable to final sag tension. Once the final sag has been achieved, a permanent type dead end device should be installed promptly, followed by the removal of the tensioning device. This device should not be subjected to sag tension for an extended time period and it should never be utilized as permanent dead end device. Fiber Optic Suspension Units The fiber optic fixed suspension unit is a low cost assembly for installing ADSS cable. The aluminium housing is joined with stainless steel roll pins, which ensure positive alignment. The housing is cushioned on the inside with an EPDM liner which is specially sized to provide excellent slip strength ability and yet not impart any undue clamping stresses on the cable. A grounding lug, consisting of a 10 mm aluminium bolt tapped in the housing, is available as an option. 99