Station and Intermediate Class Surge Arresters Product Overview siemens.com/energy/arrester Answers for energy. High Voltage – Reliable Protection Siemens surge arresters have successfully defied high winds, severe weather, harsh environments and even earthquakes for decades. Our surge arresters exhibit the properties and provide the benefits that ensure they will p erform as intended – protecting equipment and systems from lightning and switching overvoltages. With decades of experience in the design and manufacturing of high voltage power supply components, Siemens also specializes in advanced Silicone Rubber (SR) insulated surge arresters providing the highest levels of mechanical strength, performance and safety even in the most demanding environments, such as in contaminated, industrially polluted, high seismic and vandal prone critical installations. The product family of our surge arresters offers the right solution to any specific need. They have a proven fit for protecting transmission lines and transformers, as well as complete switchgear from the hazards of high voltage start-up surges, line transients and lightning. Siemens surge arresters have been successfully tested to the latest ANSI/IEEE Standard C62.11. 2 As pioneers in the field of Silicone Rubber (SR) insulation and one of the few suppliers with comprehensive inhouse research and development capabilities in this industry, we can also provide surge arresters customized to very special requirements. The cost-effectiveness of our products is underscored by uncompromising quality ensuring the long service life and reliability of each application. Available off-the-shelf, the 3EL standard series of our SR surge arresters have been designed to meet the requirements of a wide range of common installation environments. For more demanding applications, our high-end 3EQ series will maintain at least 75 % of its nominal mechanical strength in the event of a pressure relief, and can thus also be used as a “regular” support (station post) insulator. Siemens Promise – System Reliability Silicone Rubber (SR) Insulation for Safety Siemens offers two different types of arresters with SR housing: The 3EL series for standard applications, and the advanced 3EQ series for the highest performance needs. Both are designed u sing the same glass collared MOV-blocks resulting in outstanding electrical performance. SR has been used as an outdoor insulation material for over 25 years, with excellent service experience even under severe climatic and environmental conditions. Today, it is among the most widely used materials for HV outdoor equipment. Further key advantages of SR especially compared to EPDM based alloy rubber include: ■■ High resistance to tracking erosion ■■ Excellent resistance to flashover ■■ Superior UV stability ■■ Self-extinguishing flame retardancy ■■ Adaptability to variable design and ease of processing For additional information call for our publication on Silicone Rubber insulation. Silicone is highly hydrophobic. While there are many polymeric materials with similar initial hydrophobic properties, most of them lose their hydrophobicity after a relatively short period such as EPDM based alloy rubber. Only the true SR is capable of maintaining its hydrophobicity throughout its entire lifetime. This ensures the long service life of our 3EL and 3EQ arresters. 3 One Goal – 3 Designs 3EL Silicone Rubber (SR) Surge Arresters with Cage Design™ 3EQ Silicone Rubber (SR) Surge Arresters with Tube Design 3EP Porcelain Surge Arresters The standard 3EL series is based on a cage of p restressed fiber glass reinforced rods for high mechanical strength. The SR insulation is molded directly onto the MOV-Blocks. The design provides an optimum price/performance ratio for applications up to 345 kV system voltage. The 3EL1 series as lower voltage station class surge arrester is an enhancement of our 3EL product line. The fiber reinforced plastic (FRP) tube material has been chosen to provide the highest possible mechanical strength. Due to its excellent processi bility, the SR insulation is molded directly onto the FRP tube. The 3EQ tube design is considered the best choice for applications up to 1200 kV system voltage, particularly in locations or installations with demanding environmental or extremely high mechanical/ seismic requirements. The high-quality porcelain housing of the 3EP as well as the special grade sulfur cement bonding of housing and flanges ensure outstanding mechanical strength, for applications up to 800 kV. 3EL Total encapsulation of all components to avoid partial discharges and moisture ingress ■■ High mechanical performance for standard applications ■■ Silicone Rubber shielding provides low-pressure release of the arc in the event of a short circuit ■■ Significant weight savings vs. comparable porcelain arresters, facilitating transport and installation of the arresters ■■ Suitable for use as substation and/or line surge arresters ■■ 4 3EQ FRP tube design for outstanding mechanical stability (much stronger than porcelain), combined with an excellent sealing system for long-life protection against ingress of moisture and partial discharges ■■ Highest level of safety in the event of short circuits, no ejection of any internal components ■■ Retention of at least 75 % of initial mechanical strength even after short circuit, permits the use of the arrester as a support insulator ■■ Weight savings vs. comparable porcelain arresters ■■ Ideal for applications in areas exposed to high seismic activity, heavy wind loads and any other demanding mechanical requirements ■■ Available as single-unit arrester rated up to 300 kV or two-unit arresters for up to 550 kV, minimizing the required number of units ■■ High reliability over a wide range of temperatures and extreme temperature changes from – 67 °F to + 122 °F (– 55 °C to + 50 °C) ■■ 3EP Reliable technology with a proven history ■■ Optimized glass collared MOV-block design ■■ Pressure relief system for very fast venting, providing the highest possible means of safety in areas requiring special protection ■■ Very high cantilever strength ■■ Highly reliable sealing system and state of the art seal test set-up make Siemens arresters completely reliable ■■ Product Range We offer multiple models for each family of arresters. They differ mainly in diameter and length of the housings and size of the M OV-blocks to fulfill different customer requirements. 3EL5 3EL1 3EL2 3EQ1 3EQ4 Silicone Rubber 3EP5 3EP4 3EP6 Porcelain Reliable power transmission … ... even in extreme climates ... ... and high seismic impact locations Application: Fixed series capacitor protected by arrester banks, consisting of multi-column 3EP3 arresters connected in parallel Key benefits: Improved power trans mission quality. Application: Three advanced series 3-phase static compensators protected by arrester banks, consisting of multi- column arresters connected in parallel Key benefits: Enhanced power trans mission quality at high reliability under extreme climatic conditions. All of these arresters are capable of withstanding temperature extremes of – 67 °F to + 122 °F (– 55 °C to + 50 °C). Application: Innovative installation of 3EQ3 surge arresters for protection of hanging thyristor valves in a 500 kV HVDC long-distance power transmission system Key benefits: Superior resistance to seismic shock for optimum reliability of HVDC transmission. These arresters are capable of withstanding seismic forces up to 1 g. Customer: ENTERGY Services Inc. Project name: Jacinto Location: Near Cleveland, Texas Customer: Hydro-Québec Project name: Montagnais FSC Location: Montagnais, Quebec, Canada Customer: Los Angeles Department of Water and Power Project name: Sylmar East, Valve Reconstruction Location: Sylmar, California 5 Rating and Specifications Intermediate Class – Silicone Rubber Housed Arrester, Type 3EL5 Electrical Characteristics Duty cycle voltage MCOV TOV Capability w/o duty Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 250 A [kV cr] 45/90 µs 500 A [kV cr] [kV] [kV] for 0.1s [kV] 3 2.55 3.6 8.1 6.8 7.1 7.4 8.0 9.1 10.6 6.0 6.1 3EL5 003-0PB11-4YH5 6 5.1 7.1 16.2 13.5 14.2 14.8 15.9 18.3 21.1 11.9 12.2 3EL5 006-0PB11-4YH5 9 7.7 10.7 24.3 20.3 21.2 22.2 23.9 27.4 31.7 17.9 18.4 3EL5 009-0PB11-4YH5 10 8.4 11.7 27.0 22.5 23.6 24.6 26.5 30.5 35.2 19.9 20.4 3EL5 010-0PB11-4YH5 12 10.2 14.2 32.4 27.0 28.3 29.6 31.8 36.6 42.3 23.9 24.5 3EL5 012-0PC11-4YH5 15 12.7 17.7 40.5 33.8 35.4 37.0 39.8 45.7 52.9 29.8 30.6 3EL5 015-0PC11-4YH5 18 15.3 21.3 48.7 40.5 42.5 44.4 47.7 54.9 63.4 35.8 36.7 3EL5 018-0PD11-4YH5 21 17.0 23.7 56.8 47.3 49.5 51.8 55.7 64.0 74.0 41.7 42.9 3EL5 021-0PD11-4YH5 24 19.5 27.2 64.9 54.1 56.6 59.1 63.6 73.1 84.6 47.7 49.0 3EL5 024-0PE11-4YH5 27 22.0 30.7 73.0 60.8 63.7 66.5 71.6 82.3 95 53.7 55.1 3EL5 027-0PE11-4YH5 30 24.4 34.0 81.1 67.6 70.8 73.9 79.5 91.4 106 59.6 61.2 3EL5 030-0PF11-4YH5 36 29.0 40.5 97.3 81.1 84.9 88.7 95.4 110 127 71.6 73.5 3EL5 036-0PH11-4YH5 39 31.5 43.9 105 87.8 92.0 96.1 103 119 137 77.5 79.6 3EL5 039-0PH11-4YH5 45 36.5 50.9 122 101 106 111 119 137 159 89.4 91.8 3EL5 045-0PH11-4YH5 48 39.0 54.4 130 108 113 118 127 146 169 95.4 97.9 3EL5 048-0PH11-4YH5 54 42 58.6 146 122 127 133 143 165 190 107 110 3EL5 054-0PJ11-4YH5 60 48 67.0 162 135 142 148 159 183 211 119 122 3EL5 060-0PK11-4YH5 72 57 79.5 195 162 170 177 191 219 254 143 147 3EL5 072-0PH12-4YH5 90 70 97.7 243 203 212 222 239 274 317 179 184 3EL5 090-0PH12-4YH5 96 76 106 259 216 226 237 254 293 338 191 196 3EL5 096-0PH12-4YH5 Table 1: Intermediate Class – Silicone Rubber Housed Arrester, Type 3EL5 (The table shows only standard arresters, other special types are available on request.) 6 8/20 µs 20 kA [kV cr] Arrester order number p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Energy (thermal) Creepage distance Height “H” Grading ring diameter Cantilever strength* (MDCL) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 20 4.5 15 7 – 3098 6 20 4.5 15 7 – 3098 6 20 4.5 15 7 – 3098 6 20 4.5 15 7 – 3098 7 20 4.5 19 8 – 3098 7 20 4.5 19 8 – 3098 7 20 4.5 24 9 – 3098 8 20 4.5 24 9 – 3098 8 20 4.5 31 11 – 3098 9 20 4.5 31 11 – 3098 9 20 4.5 35 12 – 3098 10 20 4.5 48 16 – 3098 11 20 4.5 48 16 – 3098 12 20 4.5 48 16 – 3098 13 20 4.5 48 16 – 3098 13 20 4.5 56 19 – 3098 14 20 4.5 63 20 – 3098 15 20 4.5 97 33 – 3098 20 20 4.5 97 33 – 3098 22 20 4.5 97 33 – 3098 22 H Mechanical Characteristics Short circuit current 0.2 s *MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters Fig. 1: Height of a surge arrester (applies to all surge arresters of this catalog) 7 Rating and Specifications Station Class – Silicone Rubber Housed Surge Arrester, Type 3EL1 Electrical Characteristics Duty cycle voltage MCOV TOV Capability w/o duty Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 250 A [kV cr] 45/90 µs 500 A [kV cr] [kV] [kV] for 0.1 s [kV] 3 2.55 4.0 8.6 6.6 6.9 7.3 7.8 8.7 10.0 5.9 6.0 3EL1 003-1PC21-4YH5 6 5.10 8.0 17.2 13.3 13.9 14.5 15.6 17.5 20.0 11.7 12.0 3EL1 006-1PC21-4YH5 9 7.65 11.9 25.7 19.9 20.8 21.8 23.4 26.2 30.0 17.6 18.0 3EL1 009-1PC21-4YH5 10 8.40 13.1 28.6 22.1 23.1 24.2 26.0 29.1 33.3 19.5 20.0 3EL1 010-1PC21-4YH5 12 10.2 15.9 34.3 26.5 27.8 29.0 31.2 34.9 39.9 23.4 24.0 3EL1 012-1PC21-4YH5 15 12.7 19.8 42.9 33.2 34.7 36.3 39.0 43.7 49.9 29.3 30.0 3EL1 015-1PC21-4YH5 18 15.3 23.9 51.5 39.8 41.7 43.5 46.8 52.4 59.9 35.1 36.0 3EL1 018-1PC21-4YH5 21 17.0 26.5 60.1 46.4 48.6 50.8 54.6 61.2 69.9 41.0 42.0 3EL1 021-1PC21-4YH5 24 19.5 30.4 68.6 53.0 55.5 58.0 62.4 69.9 79.9 46.8 48.0 3EL1 024-1PC21-4YH5 27 22.0 34.3 77.2 59.7 62.5 65.3 70.2 78.6 89.9 52.7 54.1 3EL1 027-1PE21-4YH5 30 24.4 38.1 85.8 66.3 69.4 72.5 78.0 87.4 99.8 58.5 60.1 3EL1 030-1PE21-4YH5 36 29.0 45.2 103 79.6 83.3 87.0 93.6 105 120 70.2 72.1 3EL1 036-1PE21-4YH5 39 31.5 49.1 112 86.2 90.2 94.3 101 114 130 76 78 3EL1 039-1PH21-4YH5 45 36.5 56.9 129 99.5 104 109 117 131 150 87.8 90.1 3EL1 045-1PH21-4YH5 48 39.0 60.8 137 106 111 116 125 140 160 93.6 96.1 3EL1 048-1PH21-4YH5 54 42.0 65.5 154 119 125 131 140 157 180 105 108 3EL1 054-1PH21-4YH5 60 48.0 74.9 172 133 139 145 156 175 200 117 120 3EL1 060-1PH21-4YH5 72 57.0 88.9 206 159 167 174 187 210 240 140 144 3EL1 060-1PK21-4YH5 72 57.0 88.9 206 159 167 174 187 210 240 140 144 3EL1 072-1PK21-4YH5 90 70.0 109 257 199 208 218 234 262 300 176 180 3EL1 090-1PK21-4YH5 96 76.0 119 275 212 222 232 250 280 319 187 192 3EL1 096-1PK21-4YH5 108 84.0 131 309 239 250 261 281 314 359 211 216 3EL1 108-1PN22-4YH5 120 98.0 153 343 265 278 290 312 349 399 234 240 3EL1 120-1PH22-4YH5 132 106 165 378 292 305 319 343 384 439 257 264 3EL1 132-1PH22-4YH5 144 115 179 412 318 333 348 374 419 479 281 288 3EL1 144-1PP22-4YH5 168 131 204 480 371 389 406 437 489 559 328 336 3EL1 168-1PQ22-4YH5 172 140 218 492 380 398 416 447 501 572 335 344 3EL1 172-1PQ22-4YH5 180 144 225 515 398 417 435 468 524 599 351 360 3EL1 180-1PK22-4YH5 192 152 237 549 424 444 464 499 559 639 374 384 3EL1 192-1PK22-4YH5 Table 2: Station Class – Silicone Rubber Housed Surge Arrester, Type 3EL1 (The table shows only standard arresters, other special types are available on request.) 8 8/20 µs 20 kA [kV cr] Arrester order number p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H” Grading ring diameter Cantilever strength* (MDCL) Weight [kA] [kJ/kV mcov} [inch] [inch] [inch] [inch-lbf] [lbs] 65 6.3 35 12 – 7435 13 65 6.3 35 12 – 7435 13 65 6.3 35 12 – 7435 14 65 6.3 35 12 – 7435 14 65 6.3 35 12 – 7435 14 65 6.3 35 12 – 7435 15 65 6.3 35 12 – 7435 15 65 6.3 35 12 – 7435 15 65 6.3 35 12 – 7435 15 65 6.3 55 18 – 7435 19 65 6.3 55 18 – 7435 19 65 6.3 55 18 – 7435 19 65 6.3 81 24 – 7435 23 65 6.3 81 24 – 7435 23 65 6.3 81 24 – 7435 23 65 6.3 81 24 – 7435 24 65 6.3 81 24 – 7435 25 65 6.3 121 35 – 7435 29 65 6.3 121 35 – 7435 30 65 6.3 121 35 – 7435 33 65 6.3 121 35 – 7435 34 65 6.3 136 42 – 7435 41 65 6.3 161 49 – 7435 45 65 6.3 161 49 – 7435 47 65 6.3 176 53 – 7435 50 65 6.3 202 60 – 7435 56 65 6.3 242 71 – 7435 60 65 6.3 242 71 – 7435 61 65 6.3 242 71 – 7435 63 *MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters 9 Rating and Specifications Station Class – Silicone Rubber Housed Surge Arrester, Type 3EL2 Electrical Characteristics Duty cycle voltage MCOV TOV Capability w/o duty Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 20 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 250 A [kV cr] [kV] [kV] 3 2.55 4.0 7.8 6.2 6.5 6.8 7.2 8.0 9.1 5.6 6 5.10 8.0 15.7 12.4 13.0 13.5 14.4 16.0 18.1 11.2 16.8 9 7.65 11.9 23.5 18.6 19.4 20.3 21.6 24.0 27.2 10 8.4 13.1 26.2 20.6 21.6 22.6 24.0 26.6 30.2 18.7 12 10.2 15.9 31.4 24.8 25.9 27.1 28.8 32.0 36.3 22.5 15 12.7 19.8 39.2 31.0 32.4 33.8 36.0 40.0 45.4 28.1 18 15.3 23.9 47.1 37.2 38.9 40.6 43.2 48.0 54.4 33.7 21 17.0 26.5 54.9 43.3 45.4 47.4 50.4 55.9 63.5 39.3 24 19.5 30.4 62.8 49.5 51.8 54.1 57.6 63.9 72.6 44.9 27 22.0 34.3 70.6 55.7 58.3 60.9 64.8 71.9 81.6 50.5 30 24.4 38.1 78.5 61.9 64.8 67.7 72.0 79.9 90.7 56.2 36 29.0 45.2 94.2 74.3 77.8 81.2 86.4 95.9 109 67.4 39 31.5 49.1 102 80.5 84.2 88.0 93.6 104 118 73.0 45 36.5 56.9 118 92.9 97.2 102 108 120 136 84.2 48 39.0 60.8 126 99.1 104 108 115 128 145 89.9 54 42.0 65.5 141 111 117 122 130 144 163 101 60 48.0 74.9 157 124 130 135 144 160 181 112 72 57.0 88.9 188 149 156 162 173 192 218 135 90 70.0 109 235 186 194 203 216 240 272 168 96 76.0 119 251 198 207 217 230 256 290 180 108 84.0 131 283 223 233 244 259 288 327 202 111 88.0 137 290 229 240 250 266 296 336 208 120 98.0 153 314 248 259 271 288 320 363 225 132 106 165 345 272 285 298 317 352 399 247 144 115 179 377 297 311 325 346 384 435 270 168 131 204 439 347 363 379 403 448 508 314 172 140 218 450 355 372 388 413 458 520 322 180 144 225 471 372 389 406 432 480 544 337 192 152 237 502 396 415 433 461 511 581 359 228 180 281 596 471 492 514 547 607 689 427 240 190 296 628 495 518 541 576 639 726 449 258 209 326 675 533 557 582 619 687 780 483 264 212 331 691 545 570 596 634 703 798 494 276 220 343 722 570 596 623 662 735 835 517 264 212 331 698 528 546 571 607 668 729 480 276 220 343 730 552 571 597 635 698 762 501 288 230 359 762 576 596 623 662 729 795 523 294 235 367 778 588 609 636 676 744 811 534 312 245 382 825 624 646 675 718 789 861 567 Table 3: Station Class – Silicone Rubber Housed Arrester, Type 3EL2 (The table shows only standard arresters, other special types are available on request.) 10 8/20 µs 5 kA [kV cr] for 0.1 s [kV] p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Arrester order number 45/90 µs 500 A [kV cr] Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (MDCL) Weight [kA] [kJ/kV mcov] [lbs] [inch] [inch] [inch] [inch-lbf] 5.8 3EL2 003-2PC31-4XH5 65 10.0 58 19 – 24782 32 11.5 3EL2 006-2PC31-4XH5 65 10.0 58 19 – 24782 32 17.3 3EL2 009-2PC31-4XH5 65 10.0 58 19 – 24782 32 19.2 3EL2 010-2PC31-4XH5 65 10.0 58 19 – 24782 32 23.0 3EL2 012-2PC31-4XH5 65 10.0 58 19 – 24782 33 28.8 3EL2 015-2PC31-4XH5 65 10.0 58 19 – 24782 33 34.6 3EL2 018-2PC31-4XH5 65 10.0 58 19 – 24782 35 40.3 3EL2 021-2PC31-4XH5 65 10.0 58 19 – 24782 35 46.1 3EL2 024-2PC31-4XH5 65 10.0 58 19 – 24782 36 51.8 3EL2 027-2PC31-4XH5 65 10.0 58 19 – 24782 36 57.6 3EL2 030-2PC31-4XH5 65 10.0 58 19 – 24782 36 69.1 3EL2 036-2PC31-4XH5 65 10.0 58 19 – 24782 37 74.9 3EL2 039-2PC31-4XH5 65 10.0 58 19 – 24782 38 86.4 3EL2 045-2PF31-4XH5 65 10.0 92 28 – 24782 45 92.2 3EL2 048-2PF31-4XH5 65 10.0 92 28 – 24782 45 104 3EL2 054-2PF31-4XH5 65 10.0 92 28 – 24782 47 115 3EL2 060-2PF31-4XH5 65 10.0 92 28 – 24782 48 138 3EL2 072-2PF31-4XH5 65 10.0 92 28 – 24782 49 173 3EL2 090-2PJ31-4XH5 65 10.0 150 42 – 24782 62 184 3EL2 096-2PJ31-4XH5 65 10.0 150 42 – 24782 63 207 3EL2 108-2PJ31-4XH5 65 10.0 150 42 – 24782 66 213 3EL2 111-2PJ31-4XH5 65 10.0 150 42 – 24782 66 230 3EL2 120-2PJ31-4XH5 65 10.0 150 42 – 24782 67 253 3EL2 132-2PM31-4XH5 65 10.0 177 49 – 24782 74 276 3EL2 144-2PM31-4XH5 65 10.0 177 49 – 24782 76 323 3EL2 168-2PQ32-4XH5 65 10.0 243 70 – 24782 104 330 3EL2 172-2PQ32-4XH5 65 10.0 243 70 – 24782 104 346 3EL2 180-2PQ32-4XH5 65 10.0 243 70 – 24782 105 369 3EL2 192-2PQ32-4XH5 65 10.0 243 70 – 24782 108 438 3EL2 228-2PJ32-4XH5 65 10.0 301 84 – 24782 123 461 3EL2 240-2PJ32-4XH5 65 10.0 301 84 – 24782 126 495 3EL2 258-2PW32-4XH5 65 10.0 327 91 24 24782 134 507 3EL2 264-2PM32-4XH5 65 10.0 354 98 31 24782 140 530 3EL2 276-2PM32-4XH5 65 10.0 354 98 31 24782 142 492 3EL2 264-6PW42-4XH5 65 12.5 327 91 24 24782 140 514 3EL2 276-6PM42-4XH5 65 12.5 354 98 31 24782 146 537 3EL2 288-6PM42-4XH5 65 12.5 354 98 31 24782 149 548 3EL2 294-6PX43-4XH5 65 12.5 393 111 31 24782 167 581 3EL2 312-6PX43-4XH5 65 12.5 393 111 31 24782 173 * MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters 11 Rating and Specifications Station Class – Silicone Rubber Arrester, Type 3EQ1 Electrical Characteristics Duty cycle voltage [kV] MCOV [kV] TOV Capability w/o duty for 0.1 s [kV] Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 15 kA [kV cr] 8/20 µs 20 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 500 A [kV cr] 45/90 µs 1 kA [kV cr] 10 8.4 13.1 28.6 22.1 23.1 24.2 26.0 27.8 29.1 33.3 20.0 20.8 27 22.0 34.3 77.2 59.7 62.5 65.3 70.2 75.1 78.6 89.9 54.1 56.2 30 24.4 38.1 85.8 66.3 69.4 72.5 78.0 83.5 87.4 99.8 60.1 62.4 30 24.4 38.1 78 61.9 64.8 68 72 76 80 91 57.6 59.0 36 29.0 45.2 103 79.6 83.3 87.0 93.6 100 105 120 72.1 74.9 39 31.5 49.1 112 86.2 90.2 94.3 101 108 114 130 78.1 81.1 45 36.5 56.9 118 92.9 97.2 102 108 114 120 136 86.4 88.6 48 39.0 60.8 126 99.1 104 108 115 122 128 145 92.2 94.5 54 42.0 65.5 141 111 117 122 130 137 144 163 104 106 60 48.0 74.9 157 124 130 135 144 153 160 181 115 118 72 57.0 88.9 188 149 156 162 173 183 192 218 138 142 90 70.0 109 235 186 194 203 216 229 240 272 173 177 96 76.0 119 251 198 207 217 230 244 256 290 184 189 108 84.0 131 283 223 233 244 259 275 288 327 207 213 111 88.0 137 290 229 240 250 266 282 296 336 213 218 120 98.0 153 314 248 259 271 288 305 320 363 230 236 132 106 165 345 272 285 298 317 336 352 399 253 260 144 115 179 377 297 311 325 346 366 384 435 276 283 168 131 204 439 347 363 379 403 427 448 508 323 331 172 140 218 450 355 372 388 413 438 458 520 330 338 180 144 225 471 372 389 406 432 458 480 544 346 354 192 152 237 502 396 415 433 461 488 511 581 369 378 228 180 281 596 471 492 514 547 580 607 689 438 449 240 190 296 628 495 518 541 576 611 639 726 461 472 258 209 326 675 533 557 582 619 656 687 780 495 508 276 220 343 722 570 596 623 662 702 735 835 530 543 Table 4: Station Class – Silicone Rubber Arrester, Type 3EQ1 (The table shows only standard arresters, other special types are available on request.) 12 8/20 µs 10 kA [kV cr] p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Arrester order number 45/90 µs 2 kA [kV cr] Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (MDCL) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 21.8 3EQ1 010-1PB21-4XH5 50 6.3 82 35 – 37173 51 59.0 3EQ1 027-1PB21-4XH5 50 6.3 82 35 – 37173 53 65.5 3EQ1 030-1PB21-4XH5 50 6.3 82 35 – 37173 53 61.9 3EQ1 030-2PB31-4XH5 50 10 82 35 – 37173 54 78.6 3EQ1 036-1PB21-4XH5 50 6.3 82 35 – 37173 54 85.2 3EQ1 039-1PB21-4XH5 50 6.3 82 35 – 37173 54 92.9 3EQ1 045-2PB31-4XH5 50 10 82 35 – 37173 58 99.1 3EQ1 048-2PB31-4XH5 50 10 82 35 – 37173 58 111 3EQ1 054-2PB31-4XH5 50 10 82 35 – 37173 59 124 3EQ1 060-2PB31-4XH5 50 10 82 35 – 37173 60 149 3EQ1 072-2PB31-4XH5 50 10 82 35 – 37173 61 186 3EQ1 090-2PE31-4XH5 40 10 104 41 – 37173 70 198 3EQ1 096-2PE31-4XH5 40 10 104 41 – 37173 71 223 3EQ1 108-2PJ31-4XH5 40 10 133 49 – 37173 78 229 3EQ1 111-2PJ31-4XH5 40 10 133 49 – 37173 78 248 3EQ1 120-2PJ31-4XH5 40 10 133 49 – 37173 79 272 3EQ1 132-2PJ31-4XH5 40 10 133 49 – 37173 82 297 3EQ1 144-2PP31-4XH5 40 10 170 58 – 37173 87 347 3EQ1 168-2PP31-4XH5 40 10 170 58 – 37173 94 355 3EQ1 172-2PS31-4XH5 40 10 193 64 – 37173 98 372 3EQ1 180-2PS31-4XH5 40 10 193 64 – 37173 99 396 3EQ1 192-2PS31-4XH5 40 10 193 64 – 37173 102 471 3EQ1 228-2PJ32-4XH5 40 10 267 97 31 37173 152 495 3EQ1 240-2PJ32-4XH5 40 10 267 97 31 37173 155 533 3EQ1 258-2PP32-4XH5 40 10 341 117 31 37173 168 570 3EQ1 276-2PP32-4XH5 40 10 341 117 31 37173 171 * MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters 13 Rating and Specifications Station Class – Silicone Rubber Arrester, Type 3EQ4 Silicone Rubber type 3EQ4 (500 kV) Electrical Characteristics Duty cycle voltage [kV] MCOV [kV] TOV Capability w/o duty for 0.1 s [kV] Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 15 kA [kV cr] 8/20 µs 20 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 500 A [kV cr] 45/90 µs 1 kA [kV cr] 108 84 131 283 223 233 244 259 275 288 327 207 213 180 144 225 471 372 389 406 432 458 480 544 346 354 180 144 225 486 372 385 400 423 444 461 503 351 362 258 209 326 675 533 557 582 619 656 687 780 495 508 258 209 326 697 534 552 573 606 637 661 721 503 518 264 212 331 691 545 570 596 634 672 703 798 507 520 264 212 331 713 546 565 586 620 651 676 738 515 530 276 220 343 722 570 596 623 662 702 735 835 530 543 276 220 343 746 571 590 613 649 681 707 772 538 555 288 230 359 753 594 622 650 691 733 767 871 553 567 288 230 359 778 596 616 640 677 711 738 805 562 579 294 235 367 769 607 635 663 706 748 783 889 564 579 294 235 367 795 608 629 653 691 725 753 822 573 591 312 245 382 843 645 667 693 733 770 799 873 609 627 396 318 496 1070 819 847 879 931 977 1014 1107 772 796 396 318 487 1025 784 811 842 891 936 971 1060 740 762 420 335 523 1135 869 898 933 987 1036 1076 1175 819 844 420 335 513 1087 832 860 893 945 992 1030 1125 784 808 444 353 551 1200 918 949 986 1043 1096 1137 1242 866 892 444 353 540 1149 879 909 944 999 1049 1089 1189 829 854 468 372 569 1211 927 958 995 1053 1106 1148 1253 874 900 588 470 719 1521 1164 1204 1250 1323 1389 1442 1574 1098 1131 Table 5: Station Class – Silicone Rubber Arrester, Type 3EQ4 (The table shows only standard arresters, other special types are available on request.) 14 8/20 µs 10 kA [kV cr] p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Arrester order number 45/90 µs 2 kA [kV cr] Short circuit current 0.2 s** Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (MDCL) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 223 3EQ4 108-2PK31-4XH5 65 10 156 57 – 130106 225 372 3EQ4 180-2PN31-4XH5 65 10 200 69 – 130106 243 372 3EQ4 180-3PR41-4XH5 65 12.5 244 81 – 130106 292 533 3EQ4 258-2PV31-4XH5 65 10 304 97 – 130106 287 534 3EQ4 258-3PV41-4XH5 65 12.5 304 97 – 130106 326 545 3EQ4 264-2PV31-4XH5 65 10 304 97 – 130106 288 546 3EQ4 264-3PV41-4XH5 65 12.5 304 97 – 130106 328 570 3EQ4 276-2PV31-4XH5 65 10 304 97 – 130106 290 571 3EQ4 276-3PN42-4XH5 65 12.5 400 139 39 130106 445 594 3EQ4 288-2PN32-4XH5 65 10 400 139 39 130106 404 596 3EQ4 288-3PN42-4XH5 65 12.5 400 139 39 130106 449 607 3EQ4 294-2PN32-4XH5 65 10 400 139 39 130106 405 608 3EQ4 294-3PN42-4XH5 65 12.5 400 139 39 130106 451 645 3EQ4 312-3PN42-4XH5 65 12.5 400 139 39 130106 457 819 3EQ4 396-3PS42-4XH5 65 12.5 519 170 47 130106 509 784 3EQ4 396-4PR52-4XH5 65 17.5 489 162 47 130106 535 869 3EQ4 420-3PV42-4XH5 65 12.5 607 194 59 130106 533 832 3EQ4 420-4PV52-4XH5 65 17.5 607 194 59 130106 564 918 3EQ4 444-3PV42-4XH5 65 12.5 607 194 59 130106 541 879 3EQ4 444-4PV52-4XH5 65 17.5 607 194 59 130106 573 927 3EQ4 468-4PV52-4XH5 65 17.5 607 194 59 130106 584 3EQ4 588-4PS57-4XH9 R4C 65 17.5 778 255 83 235430 746 1164 * MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters ** 80 kA short circuit current available on request 15 Rating and Specifications Station Class – Porcelain Arrester, Type 3EP5 and 3EP4 Electrical Characteristics Duty cycle voltage [kV] MCOV [kV] TOV Capability w/o duty for 0.1 s [kV] Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 40 kA [kV cr] 8/20 µs 20 kA [kV cr] 45/90 µs 500 A [kV cr] 45/90 µs 1 kA [kV cr] 45/90 µs 2 kA [kV cr] 10 8.4 13.1 28.6 22.1 23.1 24.2 26.0 29.1 33.3 20.0 20.8 21.8 27 22.0 34.3 77.2 59.7 62.5 65.3 70.2 78.6 89.9 54.1 56.2 59.0 30 24.4 38.1 85.8 66.3 69.4 72.5 78.0 87.4 99.8 60.1 62.4 65.5 36 29.0 45.2 103 79.6 83.3 87.0 93.6 105 120 72.1 74.9 78.6 39 31.5 49.1 112 86.2 90.2 94.3 101 114 130 78.1 81.1 85.2 45 36.5 56.9 118 92.9 97.2 102 108 120 136 86.4 88.6 92.9 48 39.0 60.8 126 99.1 104 108 115 128 145 92.2 94.5 99.1 54 42.0 65.5 141 111 117 122 130 144 163 104 106 111 60 48.0 74.9 157 124 130 135 144 160 181 115 118 124 72 57.0 88.9 188 149 156 162 173 192 218 138 142 149 MCOV TOV Capability w/o duty Electrical Characteristics Duty cycle voltage Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 20 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 500 A [kV cr] 45/90 µs 1 kA [kV cr] 45/90 µs 2 kA [kV cr] [kV] [kV] for 0.1 s [kV] 90 70.0 109 235 186 194 203 216 240 272 173 177 186 96 76.0 119 251 198 207 217 230 256 290 184 189 198 108 84.0 131 283 223 233 244 259 288 327 207 213 223 111 88.0 137 290 229 240 250 266 296 336 213 218 229 120 98.0 153 314 248 259 271 288 320 363 230 236 248 132 106 165 345 272 285 298 317 352 399 253 260 272 144 115 179 377 297 311 325 346 384 435 276 283 297 168 131 204 439 347 363 379 403 448 508 323 331 347 172 140 218 450 355 372 388 413 458 520 330 338 355 180 144 225 471 372 389 406 432 480 544 346 354 372 192 152 237 502 396 415 433 461 511 581 369 378 396 228 180 281 596 471 492 514 547 607 689 438 449 471 240 190 296 628 495 518 541 576 639 726 461 472 495 258 209 326 675 533 557 582 619 687 780 495 508 533 264 212 331 691 545 570 596 634 703 798 507 520 545 Table 6: Station Class – Porcelain Arrester, Type 3EP5 and 3EP4 (The table shows only standard arresters, other special types are available on request.) 16 p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (UMS-static) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 3EP5 010-1PC21-3XH5 40 6.3 26 14 – 21242 46 3EP5 027-1PE21-3XH5 40 6.3 50 22 – 21242 63 3EP5 030-1PE21-3XH5 40 6.3 50 22 – 21242 63 3EP5 036-1PE21-3XH5 40 6.3 50 22 – 21242 64 3EP5 039-1PE21-3XH5 40 6.3 50 22 – 21242 64 3EP5 045-2PE31-3XH5 40 10 50 22 – 21242 68 3EP5 048-2PE31-3XH5 40 10 50 22 – 21242 68 3EP5 054-2PH31-3XH5 40 10 74 30 – 21242 83 3EP5 060-2PH31-3XH5 40 10 74 30 – 21242 84 3EP5 072-2PH31-3XH5 40 10 74 30 – 21242 86 Arrester order number Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (UMS-static) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 3EP4 090-2PD31-3XH5 65 10 98 41 – 47794 108 3EP4 096-2PD31-3XH5 65 10 98 41 – 47794 109 3EP4 108-2PE31-3XH5 65 10 134 52 – 47794 138 3EP4 111-2PE31-3XH5 65 10 134 52 – 47794 138 3EP4 120-2PE31-3XH5 65 10 134 52 – 47794 139 3EP4 132-2PE31-3XH5 65 10 134 52 – 47794 142 3EP4 144-2PF31-3XH5 65 10 151 57 – 47794 155 3EP4 168-2PD32-3XH5 65 10 196 83 – 47794 227 3EP4 172-2PD32-3XH5 65 10 196 83 – 47794 227 3EP4 180-2PD32-3XH5 65 10 196 83 – 47794 228 3EP4 192-2PD32-3XH5 65 10 196 83 – 47794 231 3EP4 228-2PE32-3XH5 65 10 268 104 31 47794 291 3EP4 240-2PF32-3XH5 65 10 302 115 31 47794 320 3EP4 258-2PF32-3XH5 65 10 302 115 31 47794 324 3EP4 264-2PF32-3XH5 65 10 302 115 31 47794 325 Arrester order number Mechanical Characteristics * MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters 17 Rating and Specifications Station Class – Porcelain Arrester, Type 3EP6 Electrical Characteristics Duty cycle voltage MCOV TOV Capability w/o duty Protective Level Maximum discharge voltage FOW [kV cr] 8/20 µs 1.5 kA [kV cr] 8/20 µs 3 kA [kV cr] 8/20 µs 5 kA [kV cr] 8/20 µs 10 kA [kV cr] 8/20 µs 20 kA [kV cr] 8/20 µs 40 kA [kV cr] 45/90 µs 500 A [kV cr] 45/90 µs 1 kA [kV cr] 45/90 µs 2 kA [kV cr] [kV] [kV] for 0.1 s [kV] 108 84.0 131 283 223 233 244 259 288 327 207 213 223 111 88.0 137 290 229 240 250 266 296 336 213 218 229 120 98.0 153 314 248 259 271 288 320 363 230 236 248 132 106.0 165 345 272 285 298 317 352 399 253 260 272 144 115.0 179 377 297 311 325 346 384 435 276 283 297 168 131.0 204 439 347 363 379 403 448 508 323 331 347 172 140.0 218 450 355 372 388 413 458 520 330 338 355 180 144.0 225 471 372 389 406 432 480 544 346 354 372 192 152.0 237 502 396 415 433 461 511 581 369 378 396 228 180.0 281 596 471 492 514 547 607 689 438 449 471 240 190.0 296 628 495 518 541 576 639 726 461 472 495 258 209.0 326 675 533 557 582 619 687 780 495 508 533 258 209 326 697 534 552 573 606 661 721 503 518 534 264 212.0 331 691 545 570 596 634 703 798 507 520 545 264 212 331 713 546 565 586 620 676 738 515 530 546 276 220.0 343 722 570 596 623 662 735 835 530 543 570 276 220 343 746 571 590 613 649 707 772 538 555 571 288 230.0 359 753 594 622 650 691 767 871 553 567 594 288 230 359 778 596 616 640 677 738 805 562 579 596 294 235.0 367 769 607 635 663 706 783 889 564 579 607 294 235 367 795 608 629 653 691 753 822 573 591 608 312 245 382 843 645 667 693 733 799 873 609 627 645 396 318 496 1070 819 847 879 931 1014 1107 772 796 819 396 318 487 1025 784 811 842 891 971 1060 740 762 784 420 335 523 1135 869 898 933 987 1076 1175 819 844 869 420 335 513 1087 832 860 893 945 1030 1125 784 808 832 444 353 551 1200 918 949 986 1043 1137 1242 866 892 918 444 353 540 1149 879 909 944 999 1089 1189 829 854 879 468 372 580 1265 968 1001 1039 1100 1199 1309 913 940 968 468 372 569 1211 927 958 995 1053 1148 1253 874 900 927 576 462 707 1490 1140 1179 1225 1296 1413 1542 1076 1108 1140 588 470 719 1521 1164 1204 1250 1323 1442 1574 1098 1131 1164 588 470 719 1521 1164 1204 1250 1323 1442 1574 1098 1131 1164 Table 7: Station Class – Porcelain Arrester, Type 3EP6 (The table shows only standard arresters, other special types are available on request.) 18 p.u. MCOV 1.8 1.7 Preheating to 140 °F/60 °C no prior duty Preheating to 140 °F/60 °C prior duty 1.6 1.5 1.4 1.3 1.2 1.1 t/s 1 0.01 0.1 1 10 100 1000 10000 Mechanical Characteristics Short circuit current 0.2 s Energy (thermal) Creepage distance Height “H“ Grading ring diameter Cantilever strength* (UMS-Static) Weight [kA] [kJ/kV mcov] [inch] [inch] [inch] [inch-lbf] [lbs] 3EP6 108-2PC31-4XH5 65 10 155 51 – 191175 338 3EP6 111-2PC31-4XH5 65 10 155 51 – 191175 338 3EP6 120-2PC31-4XH5 65 10 155 51 – 191175 339 3EP6 132-2PC31-4XH5 65 10 155 51 – 191175 341 3EP6 144-2PC31-4XH5 65 10 155 51 – 191175 344 3EP6 168-2PD31-4XH5 65 10 177 57 – 191175 378 3EP6 172-2PD31-4XH5 65 10 177 57 – 191175 378 3EP6 180-2PF31-4XH5 65 10 229 69 – 191175 440 3EP6 192-2PF31-4XH5 65 10 229 69 – 191175 442 3EP6 228-2PG31-4XH5 65 10 249 74 – 191175 475 3EP6 240-2PJ31-4XH5 65 10 302 86 – 191175 542 3EP6 258-2PJ31-4XH5 65 10 302 86 – 191175 553 3EP6 258-3PJ41-4XH5 65 12.5 302 86 – 191175 593 3EP6 264-2PJ31-4XH5 65 10 302 86 – 191175 554 3EP6 264-3PJ41-4XH5 65 12.5 302 86 – 191175 595 3EP6 276-2PD32-4XH5 65 10 355 115 31 191175 698 3EP6 276-3PD42-4XH5 65 12.5 355 115 31 191175 741 3EP6 288-2PN32-4XH5 65 10 406 127 39 191175 766 3EP6 288-3PN42-4XH5 65 12.5 406 127 39 191175 810 3EP6 294-2PP32-4XH5 65 10 427 131 39 191175 794 3EP6 294-3PP42-4XH5 65 12.5 427 131 39 191175 840 3EP6 312-3PF42-4XH5 65 12.5 457 138 39 191175 886 3EP6 396-3PJ42-4XH5 65 12.5 604 173 47 191175 1093 3EP6 396-4PS52-4XH5 65 17.5 551 160 47 191175 1058 3EP6 420-3PJ42-4XH5 65 12.5 604 173 47 191175 1101 3EP6 420-4PJ52-4XH5 65 17.5 604 173 47 191175 1133 3EP6 444-3PF43-4XH5 65 12.5 686 207 59 191175 974 3EP6 444-4PF53-4XH5 65 17.5 686 207 59 191175 1006 3EP6 468-3PF43-4XH5 65 12.5 686 207 59 191175 983 3EP6 468-4PF53-4XH5 65 17.5 686 207 59 191175 1017 3EP6 576-4PJ53-4XH5 65 17.5 906 259 83 191175 1322 3EP6 588-4PJ53-4XH5 65 17.5 906 259 83 191175 1322 3EP6 588-4PJ57-4XH9 R4A 65 17.5 880 259 83 318627 1789 Arrester order number * MDCL-static (Maximum design cantilever load-static) = Designed to continuously carry working load, and this applies to polymer housed arresters UMS-static (Ultimate mechanical strength-static) = Ultimate Cantilever Strength (Design Load), and this applies to porcelain housed arresters 19 Accessories All types are equipped with NEMA 4-hole HV-terminal and cable clamp DIN/NEMA terminal 3EL5/1 DIN/NEMA terminal 3EL2 3.94" 1.57" 0. 55 " 1.97" 4.49" 0. 55 " 4.1" 1.6" 2.0" 3.15" 1.57" 2.0" 1.6" 0.98" 1.97" 3.15" DIN/NEMA terminal 3EQ1/3EP4 DIN/NEMA terminal 3EQ4 3.94" 1.97" 3.94" 1.97" 4.49" 1.97" 1.57" 4.5" " 55 0. DIN/NEMA terminal 3EP5 1.57" 1.97" 1.57" " 55 0. 1.57" DIN/NEMA terminal 3EP6 3.94" 1.97" 1.97" All dimensions in inches 20 0. 55 " 1.57" 1.97" 3.94" 1.57" 1.97" 3.15" 1.57" 4.49" 0. 55 " 1.57" Adapter Plates for Varying Mounting Requirements Mounting base 3EL5/1 grounded ∅ 10 7.8 .0" 7" m m ax. in. ∅ ∅ 10. 7. 0" 87 " 0.5 5" M12 2.36" max. 0.63" 12 0° 1.75" 1.97" 0.98" 1.75" 2.36" M12 3.46" 1.5" ∅ insulated 12 0° 3xM12 Mounting base 3EL2 grounded m mi ax. Ø n. Ø 10.8 7.8 7 1" " 10 .8 Ø 7 7" .81 " M12 120° 120° M12 max. 0.59" Ø 0.55" insulated 3xM12 5" 1.7 6" 2.3 5" 1.7 6" 2.3 All dimensions in inches 21 Mounting base 3EQ1 insulated grounded 3xM12 10.24" 11.73" max. 0.59" 1.75" 0" Ø1 2.36" M12 10.24" max. 0.59" 1.75" 0" Ø1 3x1 20 ° 2.36" 10.24" 3x1 20 ° 10.24" 11.73" M12 3xM12 Mounting base 3EQ4 insulated grounded 6xØ 0.87" 14.96" 6x6 0° 0° 6x6 All dimensions in inches 22 6.3" 0.79" 4.33" 6xØ 0.87" 0.79" Ø1 0" Ø 10" Ø 11.8" 14.96" Ø 11.8" Mounting base 3EP5 insulated 11.5" M12 1.5" max. 0.59" M12 0.55" 1.75" 11.5" 2.36" 10 " Ø7 .87 " 1.75" m m ax. in. Ø Ø 10 7. " 87 " 0.5 5" Ø 2.36" grounded 11.5" 11.5" 3xM12 Mounting base 3EP4 insulated grounded 10.24" 11.73" 3xM12 10.24" 11.73" M12 1.18" max. 0.59" 2.36" 0" Ø1 1.75" M12 10.24" max. 0.59" 2.36" 0" Ø1 3x1 20 ° 1.75" 10.24" 3x1 20 ° 3xM12 All dimensions in inches 23 Mounting base 3EP6 grounded insulated ⃞ 11.61" Ø 11.97" 0.79" 0.79" ⃞ 11.61" M12 4.37" 4.37" M12 " 10 1.75" Ø 2.36" 6xØ 0.87" 6x6 0° 1.75" Ø " 10 2.36" 6x6 0° 6xØ 0.87" Ø 11.97" Accessories All types are equipped with a cable clamp Standard cable clamp Grounding eye-bolt terminal for all arresters 1.75" 1.18" Ø 0. 52 " Ø 0.89" 3.15" 1.75" 4.13" 0,39" 2.56" All dimensions in inches 24 0.16" 4xM12 ASME 1/2-13 min.Ø 0 max.Ø .59" 1.34” Monitoring devices for surge arresters These monitoring devices can be connected to all surge arresters shown in this catalog ACM basic ACM advanced Arrester Condition Monitor (ACM) basic Order number: 3EX5 080-0 Arrester Condition Monitor (ACM) advanced Order number: 3EX5 080-1 Order number: 3EX5 085 (USB wireless module) Surge counter Surge counter with leakage current meter Surge counter Order number: 3EX5 030-0 Surge counter with leakage current meter Order number: 3EX5 050-0 Sensor Order number: 3EX5 060-1 Sensor Display Display Order number: 3EX5 062-1 Connecting lead* Order number: 3EX5 963-xx Up to 600 ft Connecting leads available in fixed lengths from 3 to 30 meters. You can also order a connector and a socket and configure a connecting lead on your own up to 600 feet. Connector and socket Order number: 3EX5 960-0 *Required for operation Available in different lengths 25 Part number (example) 3 E L Silicone rubber-housed surge arrester cage design 3 E L Silicone rubber-housed surge arrester tube design 3 E Q Porcelain-housed surge arrester 3 E P Surge arrester type Rated voltage in kV 2 132 – 2 P M 3 1 – 4 X H 5 2 132 – – Long-duration current max. values, energy (thermal) 550 A, 4.5 kJ/kV MCOV 0 1 750 A, 6.3 kJ/kV MCOV 1 2 1100 A, 10.0 kJ/kV MCOV 2 3 1600 A, 12.5 kJ/kV MCOV 3 4 2000 A, 17.5 kJ/kV MCOV 4 5 1200 A, 12.5 kJ/kV MCOV 6 4 Application Phase surge arrester P Neutral point surge arrester S Line surge arrester L Housing size of single unit M Number of sections 1 section 1 2 sections 2 3 sections 3 1 section, increased MDCL resp. UMS 5 2 sections, increased MDCL resp. UMS 6 3 sections, increased MDCL resp. UMS 7 – – Form of sheds Standard sheds 3 Alternating sheds 4 High-voltage terminal NEMA 4 hole pad, hot-dip galvanized X NEMA 4 hole pad, stainless steel Y Name plate English IEEE/ANSI H Mounting 3EL, 3EP5, 3 hole insulated, Ø 8.75”–10.00” 1 3EL/3EP5, 3 hole not insulated, Ø 8.75”–10.00”, 3EP4/6, 3EQ, 3 hole not insulated Ø 10.00” 5 3EQ4, 3 hole not insulated Ø 16.5” 6 3EP4/6/3EQ, 3 hole insulated Ø 10.00” 7 3EQ4, 3 hole insulated, Ø 16.5” 8 3EP6, 270x270 mm, insulated, increased cantilever strength 9 R4A 3EQ4, 310x310 mm, insulated, increased cantilever strength 9 R4C The top row shows an example of the build-up on our complete part numbers. 26 GENERELL IEC STATT ANSI!!!! Europe North America Burlington, Ontario Richland, Mississippi Oslo Moscow Gebze, Kocaeli Espoo Vienna Athens Dublin Grenoble Bucharest Manchester Ljubljana Barcelona Asia Upplands Väsby, Huizingen Sofia Almaty Seoul Stockholm Bratislava Madrid Gurgaon Shanghai Den Haag Zagreb Amadora Hanoi Hong Kong Istanbul Berlin Bangkok Dhaka Manila Abu Dhabi Petaling Jaya Riyadh Jakarta Wuxi El Marques, Querétaro Santo Domingo San Jose Ciudad de Guatemala Africa South America Bogota Algiers Casablanca Tunis Quito Cairo Lima Isolo, Lagos Santa Cruz de la Sierra Douala Australia Jundiaí, São Paulo Addis Ababa Macquarie Park, NSW, Santiago Nairobi Buenos Aires Ngaliema, Kinshasa Sydney Ingombota Luanda Maputo Halfway House Siemens Global Presence Siemens Surge Arrester Production Center Marking and nameplate of high-voltage surge arresters A nameplate is installed on each high-voltage surge arrester when it s uccessfully passes the mechanical routine test. It is a weather- and UV-proof blue name plate placed at the flange of a surge arrester. 27 Published by and copyright © 2013: Siemens AG Energy Sector Freyeslebenstrasse 1 91058 Erlangen, Germany US Location Siemens Energy, Inc. Power Transmission Division 444 Highway 49 South Richland, MS 39218 siemens.com/energy/arrester Please contact us at: Toll-free: +1 (877) 742-3309 Phone: +1 (601) 932-9800 Power Transmission Division Order No. E50001-F630-A128-V3-4AUS | Printed in Germany | Dispo 30002 | TH 263-130349 | WÜ | 473442 | WS | 10131.0 Printed on elementary chlorine-free bleached paper. All rights reserved. Trademarks mentioned in this document are the property of Siemens AG, its affiliates, or their respective owners. Subject to change without prior notice. The information in this document contains general descriptions of the technical options available, which may not apply in all cases. The required technical options should therefore be specified in the contract.