BETA ELECTRIC CABLES Catalogue compressed

ABLES Powering Your World with Quality Cables

BETA ELECTRIC CABLES Company operates its manufac-turing facility , specializing in the production of electrical power and control cables, flexible cables building wires, and overhead conduc-tors Committed to adhering to stringent international standards such as IEC, BS, and American standards, BETA ELECTRIC CABLES aspires to establish itself as a leading cable manufacturer in the Middle East. Customer satisfaction is paramount at BETA ELECTRIC CABLES , driving the compa- ny's ethos of getting it right the first time, every time. With a team of highly qualified and experienced personnel, BETA ELECTRIC CABLES has implemented efficient quality management systems across all operations. BETA ELECTRIC CABLES meticulously selects cutting-edge machinery at every stage of production, drawing upon European expertise and state-of-the-art tech- nology to consistently deliver high-quality products. From sourcing raw materials from reputable suppliers to conducting final product inspections, BETA ELECTRIC CABLES embeds quality into each step of the manufacturing process. The company exclusively utilizes raw materials from trusted suppliers, prioritizing electrolytic-grade copper with a minimum purity of 99.9% to guarantee superior conductivity. Employing advanced wire drawing and stranding techniques, BETA ELECTRIC CABLES achieves uniform conductor dimen- sions and optimal performance. Equipped with advanced machinery, BETA ELECTRIC CABLES can process a diverse range of insulating and sheathing materials, including PVC and XLPE, meeting global standards. Special flame-retardant materials are also incor- porated to enhance safety. Stringent quality controls ensure consistency in cable diameter, concentricity, and surface finish. In addition to stringent in-process testing, all finished products undergo comprehensive quality checks, including 100% high-voltage and other electrical tests. BETA ELECTRIC CABLES provides power cables in both standard and customized lengths, packaged securely for transportation. With a state-of-the-art laboratory boasting high-precision instruments, BETA ELECTRIC CABLES conducts thorough inspections of raw materials and finished products, reinforcing its unwavering commitment to quality and safety. BETA ELECTRIC CABLES stands ready to be your trusted partner, delivering reliable and safe power solutions with excellence ingrained in every cable produced. ABOUT THIS REPORT 01 ABLES Powering Your World with Quality Cables

BETA ELECTRIC CABLES POLICY At BETA ELECTRIC CABLES Company, we are committed to delivering exce tional quality in every aspect of our cable products and services. Our quality policy is founded on the following principles: 1. Compliance: We adhere rigorously to both local and international quality standards to ensure that our cable products meet or exceed regulatory requirements and customer expectations. 2. Continuous Improvement: We foster a culture of continuous improvement, constantly seeking ways to enhance the quality of our products, processes, and services through feedback, innovation, and technological advancements. 3. Customer Satisfaction: Our customers are at the heart of every- thing we do. We strive to understand their needs and preferences, delivering cable solutions that not only meet but surpass their expec- tations, ensuring their satisfaction and loyalty. 4. Employee Empowerment: We recognize that our employees are our greatest asset. Through training, education, and empowerment, we cultivate a skilled and motivated workforce dedicated to maintain- ing the highest standards of quality and excellence. 5. Environmental Responsibility: We are committed to minimizing our environmental footprint by adopting sustainable practices and tech- nologies throughout our operations, from sourcing raw materials to manufacturing processes and waste management. By upholding these principles, we aim to establish BETA ELECTRIC CABLES Company as a trusted leader in the cable industry, renowned for our uncompromising commitment to quality, reliability, and customer satis- faction." 02 ABLES Powering Your World with Quality Cables

By complying with all legal regulations and applicable laws in respect with environment our Company, uses the most convenient in terms of invironmental protections. tries to preclude pollution in itssources by taking environmental effects into consideration in the stage of manufacturing and manages trainings in order to protect environment and preclude pollution by providing promotions continually. The respects that are stated in above are our Company's policy. 03 OUR ENVIRONMENTAL POLICY ABLES Powering Your World with Quality Cables

CONTENTS V, 300/500 V, 450/750 V, PVC-Insulated Installation Cables 8-11 Page 0.6/1 kV CU PVC-insulated Low Voltage Power Cables 12-38 0.6/1 kV CU XLPE-insulated Low voltage Power Cables V, 300/500 V, 450/750 V Halogen-free Flame Retardant Installation Cables 39-44 45-54 Wooden bobbins specifications 65-66 Technical Information 67-97 55-65 ABLES Powering Your World with Quality Cables 07 This catalogue includes most of our standard products. For any further enquiries or if you require specific product specifications, please contact our company immediately for a tailored technical and financial offer. info@betaelectric.co 19015Hotline AL/PVC, AL/XLPE Aluminium Low Voltage Power Cables

PVC-INSULATED SOLID CABLES STRUCTURE : *Single copper conductor, * PVC isolated STANDARDS: IEC 60227, BS 50525 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 300 / 500 V & 450 / 750 V AC tesl voltage 2000 V - 2500 V THE PLACES OF USE: In closed and dry spaces, control panels, VIn fixed wirings inside cable channel and pipe 300/500 V & 450/750 V 0.5 0.75 1 1.5 2.5 3 4 6 10 36.00 24.50 18.10 12.10 7.41 6.1 4.61 3.08 1.83 8.0 11.0 14.0 20.0 31.0 25.78 46.0 54.0 108.0 2.10 2.30 2.50 2.80 3.40 3.60 3.90 4.40 5.60 ---- ---- 11 16 21 22 27 35 48 9 16 19 25 34 40 45 57 78 BETA ELECTRIC CABLES BETA ELECTRIC CABLES 08 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 450/750 V PVC-INSULATED INSULATED STRANDED CABLES STRUCTURE Multiple wire Stranded copper conductor, "PVC-Insulated STANDARDS: IEC 60227, BS 50525 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 450/750 V AC test voltage 2500 V THE PLACES OF USE: Can be used in indoors and dry areas, in cable duct or tray in power switching stations and in pipes. 1.5 2.5 4 3 6 10 16 25 35 50 70 95 120 150 185 240 300 400 12.10 7.41 4.61 6.06 3.06 1.83 1.15 0.727 0.524 0.387 0.268 0.193 0.153 0.124 0.0991 0.0754 0.0601 0.0470 21.0 32.0 46.0 44 66.0 111.0 170.0 260.0 355.0 505.0 694.0 938.0 1172.0 1465.0 1808.0 2343.0 2921.0 3875.0 3.00 3.60 4.10 3.92 4.70 6.10 7.10 8.60 9.70 11.50 13.20 15.20 16.80 18.80 21.00 24.40 27.00 31.20 16 21 27 35 48 65 88 110 140 175 210 250 ---- ---- ---- ---- ---- ---- ---- 25 34 45 57 78 104 137 168 210 260 310 365 415 475 560 ---- ---- 09 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 300/500 V & 450/750 V PVC-INSULATED, FLEXIBLE CABLES STRUCTURE : Multiple wire Flexiable copper conductor, * PVC-Insulated STANDARDS: IEC 60227, BS 50525 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 300/500 V & 450/750 V AC tesl voltage 2000 V - 2500 V THE PLACES OF USE: In the links of moving devices, closed and dry spaces, in flush mounted and surface mounted, in cable channel and inside pipes. 0,5 0,75 1 1,5 2,5 4 6 10 16 25 35 50 70 95 120 150 185 240 39,00 26,00 19,50 13,30 7,98 4,95 3,30 1,91 1,21 0,78 0,554 0,386 0,272 0,206 0,161 0,129 0,106 0,0801 9,0 11,0 14,0 20,0 32,0 48,0 68,0 116,0 174,0 270,0 368,0 524,0 717,0 971,0 1212,0 1514,0 1869,0 2415,0 2,10 2,30 2,50 3,00 3,60 4,20 4,80 6,70 7,90 9,70 11,10 13,30 15,20 17,70 19,60 21,90 24,30 27,50 ---- ---- 12 15 20 25 33 45 61 83 103 132 165 197 235 ---- ---- ---- 11 16 20 24 32 42 54 73 98 129 158 198 245 292 344 391 448 528 BETA ELECTRIC CABLES 10 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

300/500 V PVC INSULATED MULTICORE CABLES BETA ELECTRIC CABLES 2x1,5 2x2,5 2x4 2x6 2x10 2x16 2x25 2x35 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 5x1,5 5x2,5 5x4 5x6 5x10 5x16 5x25 5x35 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,514 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 117,0 160,0 208,0 262,0 427,0 611,0 937,0 1245,0 138,0 191.0 252,0 341,0 537,0 777,0 1183,0 1556,0 164,0 236,0 313,0 432,0 662,0 984,0 1508,0 2020,0 192,0 280,0 383,0 520,0 815,0 1210,0 1855,0 2465,0 8,90 10,15 11,10 12,30 15,60 18,10 21,70 24,70 9,45 10,65 11,75 13,40 16,50 79,06 23,50 26,50 10,25 11,55 13,00 14,70 18,00 20,50 26,10 29,10 11,05 12,50 14,40 16,00 19,70 23,25 28,50 32,00 15 20 26 34 45 61 82 105 15 20 26 34 45 61 82 105 15 20 26 34 45 61 82 105 15 20 26 34 45 61 82 105 18 25 34 43 60 79 107 135 18 25 34 43 60 79 107 135 18 25 34 43 60 79 107 135 18 25 34 43 60 79 107 135 INSULATED PVC CABLES WITH OUTER SHEATH BETA CABLES11 STRUCTURE : "Singlecore or multicore flexible copper conductor, "PVC-Insulated *PVC sheath STANDARDS: IEC 60227, BS 50525 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 300/500 V AC tesl voltage 2000 V THE PLACES OF USE: In camp and closed spaces with no mechanical force, in flush mounted and surface mounted, BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 0,6/1 kV PVC INSULATED WITH PVC OUTER SHEATH SINGLECORE, LOW VOLTAGE POWER CABLES STRUCTURE *Copper conductor with single or Multiple twisted wires, "PVC Insulated *PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature Size < 300 mm² : 160°C Kesit 300 mm² 140 °C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: In places where no mechanical forces, energy grids, Inside and outside underground as lighting cable and Inside cable channels. 1x4 1x6 1x10 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 1x400 1x500 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 0,0366 101,0 125,0 176,0 243,0 340,0 444,0 594,0 795,0 1057,0 1300,0 1600,0 1990,0 2554,0 3168,0 4168,0 5100,0 8,10 8,60 9,80 10,90 12,20 13,40 14,70 16,60 18,80 20,40 22,70 25,10 28,10 31,10 35,20 39,00 ---- ---- ---- 125 160 195 230 280 336 380 428 480 560 630 730 823 ---- ---- ---- 108 135 165 195 238 285 326 366 414 480 542 622 696 44 55 77 101 135 167 205 260 320 372 426 494 590 678 817 940 36 47 65 88 115 145 175 222 271 312 360 412 484 549 657 749 BETA ELECTRIC CA 12 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 0,6/1 kV PVC INSULATED MULTICORE, LOW VOLTAGE POWER CABLES STRUCTURE : Copper conductor with single or multiple twisted wires, PVC Insulated, PVC Outer sheath STANDARDS: IEC 60502, BS 5467 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: In places where no mechanical forces, energy grids, Inside and outside underground as lighting cable and Inside cable channels. 2x1,5 2x2,5 2x4 2x6 2x10 2x16 2x25 2x35 2x50 2x70 2x95 2 x120 2x150 2x185 2x240 2x300 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 177 215 293 357 504 686 986 1266 1706 2273 3046 3717 4592 5679 7225 9070 11,60 12,40 14,20 15,20 17,60 19,80 23,20 25,60 29,00 33,00 38,00 41,40 45,80 51,00 57,00 62,00 42 54 68 90 116 150 181 215 264 318 360 406 458 537 600 2032 27 37 48 66 89 118 145 176 224 271 314 361 412 484 550 BETA ELECTRIC CABLES 13 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

: 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 200 247 343 425 610 847 1231 1598 2176 2950 3933 4821 6015 7370 9465 11855 12,10 12,90 14,90 15,90 18,50 20,90 24,50 27,10 30,80 35,40 40,60 42,40 49,30 54,50 61,30 66,00 34 44 56 75 98 128 157 185 228 275 313 353 399 464 520 1826 25 34 43 60 80 106 131 159 202 244 282 324 371 436 480 14 STRUCTURE Copper conductor with single or multiple twisted wires, PVC Insulated, PVC Outer Sheath STANDARDS: IEC 60502, BS 7629 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C (ts5 sn) Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: In places where no mechanical forces, energy grids, Inside and outside underground as lighting cable and Inside cable channels. BETA ELECTRIC CABLES 0,6/1 kV PVC INSULATED MULTICORE LOW VOLTAGE POWER CABLES BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 0.6/1 kV PVC INSULATED, MULTICORE, LOW VOLTAGE POWER CABLES STRUCTURE "Copper conductor with multiple twisted wires, "PVC insulated,"PVC fill *PVC outer sheath STANDARDS: IEC 60502, BS 7629 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1kV AC tesl voltage 3,5 KV THE PLACES OF USE: In places where no mechanical forces, energy grids, Inside and outside underground as lighting cable and Inside cable channels. 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3 x150+70 3x185+95 3x240+120 3x300+150 3x400+185 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 - - - - - - - - - - - - 1,83 1,15 1,15 0,727 0,524 0,387 0,268 0,268 0,193 0,153 0,124 0,0991 21,0 1424 1761 2457 3324 4460 5610 6732 8321 10625 13147 17110 22,00 25,80 28,00 32,20 37,00 42,40 47,00 51,00 56,70 63,60 70,30 78,50 128 157 185 228 275 313 353 399 464 520 600 8098 106 131 159 202 244 282 324 371 436 480 560 BETA ELECTRIC CABLES 15 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

16 0,6/1 kV PVC INSULATED, MULTICORE, LOW VOLTAGE POWER CABLES 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 12.10 7.41 4.61 3,08 1,83 1.15 0,727 0.524 0.387 0.268 0.193 0.153 0.124 0.0991 0.0754 0.0601 233 292 411 517 751 1052 1542 2015 2809 3782 5027 6220 7725 9529 12162 15220 12,80 13,80 16,00 17,20 20,10 22,70 26,80 29,70 34,40 39,40 45,00 49,30 55,00 61,00 68,10 73,20 34 44 56 75 98 128 157 185 228 275 313 353 399 464 520 1826 25 34 43 60 80 106 131 159 202 244 282 324 371 436 480 BETA ELECTRIC CABLES STRUCTURE : *Copper conductor with multiple twisted wires, "PVC Insulated *PVC Outer sheath STANDARDS: IEC 60502, BS 7629 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 k V AC tesl voltage 3,5 kV THE PLACES OF USE: In places where no mechanical forces, energy grids, Inside and outside underground as lighting cable and Inside cable channels. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 0,6/1 kV PVC INSULATED STRUCTURE : *Copper conductor with single or multiple twisted wires, "PVC Insulated, "armoured with PVC fill "PVC Outer sheath STANDARDS: IEC 60502, BS 50525 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 450/750 v AC tesl voltage 2.5 kV THE PLACES OF USE: In places where no mechanical forces and as automation and Control cable in energy centers, in industrial plants, inside and Outside underground and surface ground. CONTROL CABLES 5x1,5 7x1,5 10x1,5 12x1,5 14x1,5 19x1,5 21x1,5 24x1,5 30x1,5 40x1,5 48x1,5 61x1,5 5x2,5 7x2,5 10x2,5 12x2,5 14x2,5 19x2,5 21x2,5 24x2,5 30x2,5 40x2,5 48x2,5 61x2,5 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 270 320 470 520 570 700 780 920 1060 1350 1600 2000 350 420 620 680 750 950 1050 1250 1430 1850 2250 2750 13,0 14,0 17,0 18,0 19,0 20,0 21,0 23,0 25,0 27,0 30,0 33,0 14,0 15,0 19,0 19,5 20,0 22,0 23,0 26,0 27,0 30,0 34,0 37,0 18 16 13 12 12 10 10 9 9 8 7 7 24 20 17 16,0 15,0 14,0 13,0 12,0 11,0 10,0 10,0 9,0 14 12 10 10 9 8 8 7 7 7 6 6 19 16 14 13 13 11 11 10 9 9 8 8 BETA ELECTRIC CABL 17 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

450/750 v & 0.6/1 kv PVC-INSULATED POWER CABLES WITH PVC SHEATH CONCENTRIC CONDUCTIVE LOW VOLTAGE 3x1,5/1,5 3x2,5/2,5 3x4/4 3x6/6 3x10/10 3x16/16 3x25/16 3x35/16 3x50/25 3x70/35 3x95/50 3x120/70 3x150/70 3x185/95 3x240/120 3x300/150 12,10/12,10 7,41/7,41 4,61/4,61 3,08/3,08 1,83/1,83 1,15/1,15 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 225 281 388 489 709 998 1383 1752 2424 3290 4392 5458 6775 8232 10555 12890 13,5 14,3 16,3 17,3 20,0 22,3 26,0 28,5 32,5 37,0 42,0 45,6 50,9 55,9 62,7 67,5 34 44 56 75 98 128 157 185 228 275 313 353 399 464 520 18,526 25 34 43 60 80 106 131 159 202 244 282 324 371 436 480 :STRUCTURE *Copper conductor with single or multiple twisted wires, *PVC Insulation, *Concentric Nuteral Copper Wire and Copper Tape , "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C (ts5 sn) Nominal voltage 0,6/1 kV & 450/750 v AC tesl voltage 3,5 kV & 2.5 kv THE PLACES OF USE: They are used in industry plants, switching stations and mains. As different from other cables they sense mechanical strikes coming from outside and activate protection systems by sending information swiftly. In this way they protect the systems from every kind of damages. BETA ELECTRIC CABLES 18 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

: 0,6/1 kV PVC INSULATION LOW VOLTAGE POWER CABLES WITH PVC SHEATHS AND ROUND STEEL WIRE-ARMOUR STRUCTURE *Copper conductor with multiple wires, "PVC Insulation, *Galvanised steel wire-armour, "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cables in energy centers, switching stations, local energy distribution, Open and closed spaces, in direct underground applications and in heavy operational conditions. As special product they may be used in fresh and salt water. 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268 /0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 1590 2150 2570 3530 4600 5950 7660 8900 10900 13700 16550 25,0 28,0 30,5 35,5 39,5 45,0 50,5 54,0 60,0 66,5 74,0 128 157 185 228 275 313 353 399 464 520 8098 106 131 159 202 244 282 324 371 436 480 BETA ELECTRIC CABLES BETA ELECTRIC C 19 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

20 0,6/1 kV PVC INSULATION, LOW VOLTAGE AND STEEL WIRE-ARMOUR POWER CABLES WITH PVC SHEATHS 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 12,10 7,14 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 430 510 667 797 1100 1675 2280 22850 3920 5100 6780 8330 9990 12270 15400 18770 15 16 18,2 19,4 22,5 22,5 29,0 32,0 37,5 41,5 48,5 53,0 58,0 64,0 71,0 79,5 34 44 56 75 98 128 157 185 228 275 313 353 399 464 520 18,526 25 34 43 60 80 106 131 159 202 244 282 324 371 436 480 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 128 157 185 228 275 313 353 399 464 520 8098 106 131 159 202 244 282 324 371 436 480 23,0 26,7 29,3 33,2 37,8 43,0 46,6 51,7 57,0 63,7 70,0 1260 1732 2160 2815 3710 4789 5767 7038 8560 10808 13167 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

0,6/1 kV PVC INSULATION, LOW VOLTAGE AND STEEL WIRE-ARMOUR STRUCTURE *Copper conductor with single or multiple twisted wires, "PVC Insulation, Galvanised steel wire-armour, *PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cables in energy centers, switching stations, local energy distribution, Open and closed spaces, in direct underground applications and in heavy operational conditions. As special product they may be used in fresh and salt water. POWER CABLES WITH PVC SHEATHS BETA ELECTRIC CA : 21 BETA ELECTRIC CABLES

22 128 157 185 228 275 313 353 399 464 520 80 75 60 98 106 131 159 202 244 282 324 371 436 480 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 1136 1497 2078 2650 3537 4633 6000 7288 8916 10845 13633 16690 22,3 25,0 29,0 32,1 36,8 41,8 47,3 51,7 57,2 63,3 70,5 77,6 4 x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 AND STEEL WIRE-ARMOUR STRUCTURE : * Copper conductor with multiple wires, “PVC *Galvanised fat stee! wire armour * Galvanised blocker stee!tape,"PYC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cables in energy centers, switching stations, local energy distribution, Open and closed spaces, in direct underground applications and in heavy operational conditions. As special product they may be used in fresh and salt water. 0,6/1 kV PVC INSULATED, LOW VOLTAGE POWER CABLES WITH PVC SHEATHS BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

0,6/1 kV PVC INSULATED, LOW VOLTAGE POWER CABLES WITH PVC SHEATHS AND GALVANISED STEEL TAPE ARMOUR STRUCTURE : *Copper conductor with multiple wires," PVC *Galvanised double steel tape armour, *PVC extemal sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cables in energy centers, switching stations, local energy distribution, Open and closed spaces, in direct underground applications and in heavy operational conditions. As special product they may be used in fresh and salt water. 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 1200 1680 2050 1700 3660 5100 6350 7450 9250 11850 14560 23,0 26,0 28,5 32,5 36,5 42,5 47,0 51,0 56,5 63,0 69,0 128 157 185 228 275 313 353 399 464 520 8098 106 131 159 202 244 282 324 371 436 480 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 23 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

24 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 970 1300 1800 2300 3050 4350 5750 6950 8450 10500 13450 16600 21,5 23,5 27,0 30,0 34,5 39,5 45,5 49,5 54,5 60,5 68,0 74,0 4 x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 128 157 185 228 275 313 353 399 464 520 80 75 60 98 106 131 159 202 244 282 324 371 436 480 AND GALVANISED STEEL TAPE ARMOUR STRUCTURE : *Copper conductor with multiple wires, "PVC Insulated, Galvanised double steel tape armour, *PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cables in energy centers, switching stations, local energy distribution, Open and closed spaces, in direct underground applications and in heavy operational conditions. As special product they may be used in fresh and salt water. 0,6/1 kV PVC INSULATED, LOW VOLTAGE POWER CABLES WITH PVC SHEATHS BETA ELECTRIC CABLES BETA ELECTRIC CABL THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

0,6/1 kV XLPE-INSULATED, SINGLECORE, LOW VOLTAGE POWER CABLES CONSTRUCTION: *Single or stranded copper conductor, "XLPE insulation, PVC outer sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90° C Max short circuit temperature 250° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. 1x4 1x6 1x10 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 1x400 1x500 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 0,0366 80 100 140 200 300 400 510 700 1000 1200 1500 1900 2400 3100 3900 4950 6,5 7,0 8,5 9,0 11,0 12,0 13,5 15,0 17,0 19,0 21,0 23,0 26,0 28,0 32,0 36,0 66 82 109 139 179 213 251 307 366 416 465 526 610 689 788 889 55 56 44 68 90 115 149 178 211 259 310 352 396 449 521 587 669 748 71 96 128 173 212 258 328 404 471 541 626 749 864 1018 1173 57 77 102 139 170 208 265 326 381 438 507 606 697 816 933 BETA ELECTRIC CABL 25 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

26 2x1,5 2x2,5 2x4 2x6 2x10 2x16 2x25 2x35 2x50 2x70 2x95 2x120 2x150 2x185 2x240 12,10 7,14 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 170 210 255 320 450 620 900 1170 1500 2100 2800 3500 4300 5400 7000 11,0 12,0 12,5 13,5 16,0 17,5 21,0 23,0 26,0 29,5 34,0 37,5 41,5 47,0 52,0 49 64 79 106 137 176 213 252 310 361 412 464 525 608 2637 35 46 58 79 104 141 174 212 268 331 385 440 507 595 : 0,6/1 kV XLPE-INSULATED, MULTICORE, LOW VOLTAGE POWER CABLES STRUCTURE *Single or multiple wire copper conductor, "XLPE-insulated, "PVC fill *PVC Outer sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

0,6/1 kV XLPE-INSULATED, MULTICORE, STRUCTURE : *Single or multiple wire copper conductor, "XLPE-insulated, "PVC fill *PVC external sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C (ts5 sn) Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. 3x1,5 2x2,5 3x4 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 3x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 14400 180 230 300 380 540 760 1100 1480 1900 2750 3600 4500 5600 7000 9100 11350 67,0 11,0 12,0 13,0 14,0 16,0 18,0 22.0 24,0 28,0 32,0 35,0 40,0 43,0 49,0 54,0 61,0 663 746 40 25 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CABL LOW VOLTAGE POWER CABLES 27 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

28 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 0,0470/0,0991 850 1300 1600 2200 3000 4000 5100 6100 7750 10100 12600 16000 20,0 23,0 25,0 30,0 34,0 38,0 43,0 46,0 52,0 58,0 64,0 72,0 143 173 205 252 303 346 390 441 511 580 96111 130 160 195 247 305 355 407 496 551 638 663 746 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 3x400+185 STRUCTURE : *Multiple wire copper conductor, "XLPE-insulated, *PVC Outer sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. BETA ELECTRIC CABLES 0,6/1 kV XLPE-INSULATED, MULTICORE, LOW VOLTAGE POWER CABLES BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

0,6/1 kV XLPE-INSULATED, MULTICORE, LOW VOLTAGE POWER CABLES STRUCTURE : *Single or stranded copper conductor, "XLPE-insulated, *PVC Outer sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. 29 BETA ELECTRIC CABLES 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 4x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 17700 210 270 350 450 650 920 1400 1800 2400 3450 4550 5700 7050 8800 11500 14400 77,0 12,0 13,0 14,0 15,0 18,0 20,0 24,0 27,0 30,0 35,0 40,0 45,0 50,0 56,0 62,5 68,0 663 746 40 25 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CA THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 30 5x1,5 7x1,5 10x1,5 12x1,5 14x1,5 19x1,5 21x1,5 24x1,5 30x1,5 40x1,5 48x1,5 61x1,5 5x2,5 7x2,5 10x2,5 12x2,5 14x2,5 19x2,5 21x2,5 24x2,5 30x2,5 40x2,5 48x2,5 61x2,5 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 250 300 450 460 510 640 700 850 950 1200 1450 1800 310 390 570 620 690 870 950 1150 1300 1700 2100 2500 12,0 13,0 16,0 16,0 17,0 19,0 20,0 22,0 23,0 26,0 28,0 31,0 13,0 14,0 18,0 18,0 19,0 21,0 22,0 24,0 26,0 29,0 32,0 34,0 21 18 15 14 14 12 11 11 10 9 8 8 28 24 20 19 18 16 15 14 13 12 11 10 18 16 13 13 12 11 10 10 9 8 8 7 24 21 18 17 16 14 14 13 12 11 11 10 : 0,6/1 kV XLPE-INSULATED, CONTROL CABLES STRUCTURE *Single or multiple wire copper conductor, "XLPE-insulated, "PVC fill *PVC Outer sheath STANDARDS: IEC 60502, BS 7889 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 31 0,6/1 kV XLPE-INSULATED CONCENTRIC LOW VOLTAGE POWER CABLES WITH PVC SHEATH STRUCTURE : *Single or multiple wire copper conductor, "XLPE-insulated, *Concentric copper wire conductor, "copper tape, "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in industry plants, switching stations and mains. As different from other cables they sense mechanical strikes coming from outside and activate protection systems by sending information swiftly. In this way they protect the systems from every kind of damages. 3x1,5/1,5 3x2,5/2,5 3x4/4 3x6/6 3x10/10 3x16/16 3x25/16 3x35/16 3x50/25 3x70/35 3x95/50 3x120/70 3x150/70 3x185/95 3x240/120 3x300/150 12,10/12,10 7,41/7,41 4,61/4,61 3,08/3,08 1,83/1,83 1,15/1,15 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 230 285 365 475 690 950 1280 1600 2160 3070 4080 5250 6250 7950 10250 12660 12,8 13,7 14,7 15,8 18,6 20,6 25,0 26,0 29.5 34,0 39,0 44,0 49,0 55,0 60,0 67,0 40 52 64 86 111 143 173 205 252 303 346 390 441 511 575 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 635 BETA ELECTRIC CABLE THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA CABLES BETA ELECTRIC CABLES 32 0,6/1 kV XLPE-INSULATED WIRE-ARMOURED LOW VOLTAGE POWER CABLES WITH PVC SHEATHS 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 1400 1950 2360 3030 4350 5500 6750 8400 10250 12900 15675 22,0 26,5 29,0 32,5 38,0 42,0 46,5 52,0 57,0 63,5 71,0 143 173 205 252 303 346 390 441 511 580 96111 130 160 195 247 305 355 407 496 551 635 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 STRUCTURE : * Multiple wire copper conductor, "XLPE-insulated, *"Galvanised steel wire armour, *PVC Outer sheath STANDARDS: IEC 60502,BS 5467 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

33 : 0,6/1 kV XLPE-INSULATED WIRE-ARMOURED LOW VOLTAGE POWER CABLES WITH PVC SHEATHS STRUCTURE *Single or stranded copper conductor, "XLPE-insulated, *"Galvanised round steel wire armour, *PVC Outer sheath STANDARDS: IEC 60502, 5467 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CABLES 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 4x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 23000 350 450 540 780 1000 1350 2100 2600 3300 4800 6100 7900 9400 11500 14500 17600 84,0 13,0 15,0 16,0 18,0 20,0 23,0 28,0 31,0 35,0 41,0 44,0 41,0 55,0 61,0 68,0 74,0 663 746 40 25 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CABL THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

34 0,6/1 kV XLPE-INSULATED WIRE-ARMOURED LOW VOLTAGE POWER CABLES WITH PVC SHEATHS BETA ELECTRIC CABLES 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 1160 1620 2050 2550 3500 4400 5450 6700 8200 10500 12850 21,5 25,0 27,0 30,0 35,0 39,0 43,0 48,0 53,0 59,0 66,5 143 173 205 252 303 346 390 441 511 580 96111 130 160 195 247 305 355 407 496 551 638 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 STRUCTURE : *Multiple wire copper conductor, "XLPE-insulated, *"Galvanised steel wire armour *Galvanised steel tape, "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

35 BETA ELECTRIC CABLES : 0,6/1 kV XLPE-INSULATED WIRE-ARMOURED LOW VOLTAGE POWER CABLES WITH PVC SHEATHS STRUCTURE *Multi wire copper conductor, "XLPE-Insulated, * "Galvanised steel wire armour, *Galvanised steel tape, "PVC Outer sheath STANDARDS: EC 60502 T ECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: As power cable in power centers, switching and industrial stations, Local energy distribution, in closed and open spaces, direct underground Applications and in heavy operational conditions. They are used in the Systems having rapid load changes as they have less dielectric losses. 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 1300 1780 2200 2850 3850 4950 6130 7300 9020 11530 14150 22,5 26,0 28,0 31,5 36,0 40,5 45,0 49,0 55,0 61,0 67,0 143 173 205 252 303 346 390 441 511 580 96111 130 160 195 247 305 355 407 496 551 638 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

36 WIRE-ARMOURED LOW VOLTAGE POWER CABLES WITH PVC SHEATHS BETA ELECTRIC CABLES 143 173 205 252 303 346 390 441 511 580 96 86 73 111 130 160 195 247 305 355 407 496 551 638 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 1055 1370 1920 2430 3100 4300 5500 6800 8250 10200 13100 16100 21,0 23,0 26,5 29,5 33,0 38,0 43,0 48,0 52,5 59,0 65,0 71,0 4 x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 0,6/1 kV XLPE-INSULATED STRUCTURE : *Multiple wire copper conductor, "XLPE-insulated, *Galvanised steel wire armour, *Galvanised steel tape, PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 37 0,6/1 kV XLPE-INSULATED STEEL TAPE ARMOURED, LOW VOLTAGE POWER CABLES WITH PVC SHEATHS STRUCTURE : *Multiple wire copper conductor, "XLPE-insulated, *Galvanized double steel tape armoured "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 1100 1550 1900 2500 3450 4710 5900 7050 8750 11200 13800 21,5 24,5 27,0 30,5 35,0 40,0 45,0 49,0 54,5 61,0 66,5 143 173 205 252 303 346 390 441 511 580 96111 130 160 195 247 305 355 407 496 551 638 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

38BETA ELECTRIC CABLES 0,6/1 kV XLPE-INSULATED 143 173 205 252 303 346 390 441 511 580 96 86 73 111 130 160 195 247 305 355 407 496 551 638 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 860 1150 1650 2150 2750 4100 5300 6570 7000 9850 12700 15700 20,0 22,0 25,5 28,5 32,0 38,0 42,5 47,5 52,5 58,5 65,0 71,0 4 x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 : STEEL TAPE ARMOURED, LOW VOLTAGE POWER CABLES WITH PVC SHEATHS STRUCTURE *Multiple wire copper conductor, "XLPE-insulated *Galvanized double steel tape armoured "PVC Outer sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are preferable in energy applications in industrial and settlement regions, especially in energy systems with much load charges as their dielectric losses are less than other cables. They are used inside and outside, undergound and surface ground. BETA ELECTRIC CAB THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 39 The cables including any halogen elements such as fluorine, chlorine, bromine and iodine in their bodies, poduced by using Insulation, filing and sheath materials. Operating Temperature: 90 °C XLPE , 70 plasic (on PVC ) For example, cables that are produced by using PE, PP, EPR, EVA, SR (silicon) are called halo- gen-free cables. However, the materials such as PE, PP, EPR may be easily flamed up without halogens. By applying various processes on these materials, for example by adding flame retardant materials such as HFFR to them, halogen-free flame retardant cables are produced. HFFR materials never give toxic gases when they are burned but give only water and cartondi- These cables are produced with the following codes in product groups of Installation Cable and 0.6/1kV Low Voltage power cable (with or without armours): H0521-U, H0721-U, H0721-R, H0521-K, H032121-+052121-F HO3Z121H2-F, H052121H2-F, NHMH-JO, NEDOMH-JD, NHXHX-JO, NHSLH LIHH, ILIHCH, LIHIS- TICH, N2XH, N2XCH, N2XRH *Flame Transmission Test (IEC 60332-1/EC 60332-3VDE 0472 SECTION 804-BIC) By this test performance properties of cables in single threaded and in bunchy cables are tested in terms of flame transmission. *Test of Resistence to Fire (IEC 60331/VDE 0472 SECTION 814) Performance property of the cable is tested in terms of working in fire. *Smoke Density Test (IEC 61034 SECTION 1VDE 0472 SECTION 816 BS 6724 EK:F) Smoke density values of the cables are tested. Smoke density causes decreasing in visibility range and suffocations in HFFR cables. *Test of Toxic and Corrosive Gases (IEC 60754-1/2 VDE 472 SECTION:813) Toxic and corrosive gas values that have not to be in HFFR cables are tested. They prevent spreading of smoke during buming and give no rise to dense smoke that lower visibility range. The never cause suffocations as they do not give up toxic and corrosive gases. On the other hand, they assure living and management security by giving no damage to machines and devices with electronic and metal parts. They secure electrical transmission Task during fire in even 800 50s in approximately 180 minutes. They provide opportunities to maintenance of various security and other activities. They are used in the spaces that are not enough ventilated such as planes, ships, railway cars, underground railways and in the electric installations of shopping centers, hospitals, airports, multi- storey buildings, movie theatres as well as in fire alarm systems. HALOJEN FREE CABLES PROPERTIES OF FLAME RETARDANT CABLES AREA OF USE OF HALOGEN- FREE FLAME RETARDANT CABLES STANDARD TESTS OF HALOGEN-FREE FLAME RETARDANT CABLES

40 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. : 300/500 V and 450/750 V HALOGEN-FREE FLAME RETARDANT INSULATION CABLES STRUCTURE *Single wire copper conductor LSHF Insulaion STANDARDS: BS 50525-3-41 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 300/500 V, 450/750 V AC tesl voltage 2000 V - 2500 V THE PLACES OF USE: In the places where fire is possible such as business and shopping centers, hotels, schools, tunnels. They are used in pipes flush mounting and cable tunnels at surface mounting. They provides security of life and property by retarding flames and precluding dense smoke. 0,5 0,75 1 1,5 2,5 4 6 36,00 24,50 18,10 12,10 7,41 4,61 3,08 9 12 15 21 33 48 68 2,1 2,3 2,5 2,8 3,4 3,9 4,4 ---- ---- 11 16 20 27 34 9 16 19 24 32 43 54 BETA ELECTRIC CABLES BETA ELECTRIC CABLES

BETA ELECTRIC CABLES 41 450/750 V HALOGEN-FREE FLAME RETARDANT INSULATION CABLES 1,5 2.5 4 6 10 16 25 35 50 70 95 120 150 185 240 300 400 12,10 7,41 4,61 3,06 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 21 33 48 68 115 174 266 362 514 704 952 1187 1485 1832 2375 2959 3925 2,8 3,4 3,8 4,4 6,1 7,1 8,6 9,7 11,5 13,2 15,2 16,8 18,8 21,0 24,4 27,0 31,2 20 27 34 47 64 86 107 133 164 197 237 ---- ---- ---- ---- ---- 2416 32 43 54 74 99 134 150 199 246 294 354 393 451 529 611 729 STRUCTURE *Multiple wire copper conductor "LSHF insulated on STANDARDS: BS 50525-3-41 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 450/750 V AC tesl voltage 2500 V THE PLACES OF USE: In the places where fire is possible such as business and shopping centers, hotels, schools, tunnels. They are used in pipes flush mounting and cable tunnels at surface mounting. They provides security of life and property by retarding flames and precluding dense smoke. : BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

42 300/500 V and 450/750 V HALOGEN FREE, FLAME RETARDANT, FLEXIBLE INSULATION CABLES STRUCTURE : *Thin copper wire conductor "Halogen Free insulated STANDARDS: BS 7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 300/500 V & 450/750 V AC tesl voltage 2000 V - 2500 V THE PLACES OF USE: In the places where fire is possible such as business and shopping centers, hotels, schools, tunnels. They are used in pipes flush mounting and cable tunnels at surface mounting. They provides security of life and property by retarding flames and precluding dense smoke. 0,5 0,75 1 1,5 2,5 4 6 10 16 25 35 50 70 95 120 150 185 240 39,00 26,00 19,50 13,30 7,98 4,95 3,30 1,91 1,21 0,78 0,554 0,386 0,272 0,206 0,161 0,129 0,106 0,0801 9 12 15 22 34 50 70 120 179 277 376 535 730 988 1231 1538 1899 2453 2,1 2,3 2,5 3,0 3,6 4,2 4,8 6,7 7,9 9,7 11,1 13,3 15,2 17,7 19,6 21,9 24,3 27,5 ---- ---- 11 15 20 25 33 45 61 83 103 132 165 197 235 ---- ---- ---- 11 15 19 24 31 41 53 73 98 129 158 198 245 292 344 391 448 528 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. BETA ELECTRIC CABLES

43 HALOGEN-FREE FLAME RETARDANT THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 2x0,50 2x0,75 2x1 2x1,5 2x2,5 2x4 3x0,50 3x0,75 3x1 3x1,5 3x2,5 3x4 5x0,50 4x0,75 4x1 4x1,5 4x2,5 4x4 5x0,50 5x0,75 5x1 5x1,5 5x2,5 5x4 39,00 26,00 19,50 13,30 7,98 4,95 39,00 26,00 19,50 13,30 7,98 4,95 39,00 26,00 19,50 13,3 7,98 4,95 39,00 26,00 19,50 13,30 7,98 4,95 38 56 68 92 140 193 50 75 92 130 190 266 65 93 120 169 249 348 81 120 150 215 315 450 5,0 6,2 6,6 7,6 9,2 10,6 5,3 6,5 7,2 8,5 9,9 11,4 5,8 7,1 7,8 9,2 10,9 12,5 6,3 8,0 8,6 10,3 12,1 14,1 ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- ---- 11 13 15 20 26 33 11 13 15 20 26 33 11 13 15 20 26 33 11 13 15 20 16 33 300/500 V FLEXIBLE INSULATION CABLES STRUCTURE : *Thin multiple copper conductor "XLPE insulated *Outer sheath on basis of LSHF STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 300/500 V AC tesl voltage 2000 V THE PLACES OF USE: As being flame retardant and giving up no suffocating gases in moving systems and dry, moist and steamy environments they are used in crowded surroundings. BETA ELECTRIC CABLES

300/500 V HALOGEN-FREE FLAME RETARDANT INSTALLATION CABLES STRUCTURE *Single or multiple copper conductor "XLPE insulated on basis of EVA, *Outer sheath LSHF STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 300/500 V AC tesl voltage 2000 V THE PLACES OF USE: As being flame retardant and giving up no suffocating gases in fixed installations having no mechanical forces and in dry, moist and steamy environments they are used in crowded surroundings. 2x1,5 2x2,5 2x4 2x6 2x10 2x16 2x25 2x35 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 5x1,5 5x2,5 5x4 5x6 5x10 5x16 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,514 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 12,10 7,41 4,61 3,08 1,83 1,15 96,0 120,0 171,0 220,0 370,0 512,0 760,0 1010,0 110,0 147,0 202,0 292,0 454,0 662,0 1020,0 1315,0 130,0 177,0 280,0 380,0 575,0 822,0 1265,0 1670,0 170,0 225,0 340,0 465,0 691,0 1019,0 8,50 9,50 10,50 11,50 15,50 17,00 22,00 24,00 10,00 11,00 12.55 13,20 15,00 17,00 22,50 24,70 9,50 10,40 12.50 14,00 18,00 20,20 24,00 26,00 10,50 11,50 14,60 15,00 18,25 23,00 15,00 20,00 26,00 34,00 45,00 61,00 82,00 105,00 15,00 20,00 26,00 34,00 45,00 61,00 82,00 105,00 15,00 20,00 26,00 34,00 45,00 61,00 82,00 105,00 15,00 20,00 26,00 34,00 45,00 61,00 18,00 25,00 34,00 43,00 60,00 79,00 107,00 135,00 18,00 25,00 34,00 43,00 60,00 79,00 107,00 135,00 18,00 25,00 34,00 43,00 60,00 79,00 107,00 135,00 18,00 25,00 34,00 43,00 60,00 79,00 44 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. BETA ELECTRIC CABLES

45 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 1x4 1x6 1x10 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 1x400 1x500 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 0,0366 65 85 125 190 300 375 500 700 950 1200 1400 1800 2300 3000 3800 4800 6,5 7,0 8,0 9,0 11,0 12,0 14,0 15,0 17,0 19,0 21,0 23,0 26,0 28,0 32,0 36,0 66 82 109 139 179 213 251 307 366 416 465 526 610 689 788 889 55 56 44 68 90 115 149 178 211 259 310 352 396 449 521 587 669 748 71 96 128 173 212 258 328 404 471 541 626 749 864 1018 1173 57 77 102 139 170 208 265 326 381 438 507 606 697 816 933 0,6/1 kV SINGLECORE, XLPE-INSULATED HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES STRUCTURE: *Single or multiple wire copper conductor "XLPE-insulated, STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90° C Max short circuit temperature 250° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions, especially in places where load changes occur frequently as they have less dielectric losses, retard flames and hiving no suffocating gases in fires. BETA ELECTRIC CABLES

46 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 0,6/1 kV MULTICORE, XLPE-INSULATED HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES CONSTRUCTION: *Stranded copper conductor, XLPE insulation, *outer sheath LSHF STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 ECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions, especially in places where load changes occur frequently as they have less dielectric losses, retard flames and hiving no suffocating gases in fres. 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 0,0470/0,0991 750 1150 1450 2000 2800 3800 4800 5750 7250 9350 11650 14750 19,5 23,0 25,0 29,0 33,0 37,0 42,0 46,0 51,0 57,0 63,0 71,0 96 130 160 195 247 305 355 407 496 551 638 111 143 173 205 252 303 346 390 441 511 580 663 746 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 3x400+185 BETA ELECTRIC CABL BETA ELECTRIC CABLES

47 0,6/1 kV MULTICORE, XLPE-INSULATED HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES STRUCTURE *Single or multiple wire copper conductor "XLPE-insulated," *Outer sheath LSHF STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions, especially in places where load changes occur frequently as they have less dielectric losses, retard flames and hiving no suffocating gases in fres. BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 4x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 16750 160 210 280 380 540 800 1250 1650 2250 3150 4200 5300 6500 8100 10500 13100 75,0 11,5 12,5 13,5 15,0 17,0 20,0 24,0 26,0 30,0 35,0 39,0 44,0 48,0 53,0 60,0 66,0 663 746 40 25 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CABLES

THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 48 : 0,6/1 kV XLPE-INSULATED HALOGEN-FREE FLAME RETARDANT CONTROL CABLES STRUCTURE *Single or multiple wire copper conductor "XLPE insulated, *Outer sheath LSHF STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: These type of cables are used in the power installations (without mechanical stresses) of industrial and residential areas as automation and power control cable, since they have less dielectric losses compared to other cables, retard fames and release no choking gases in fires; and especially in the power systems, where sudden energy loads are often, in public and fire-sensitive areas, indoors and outdoors, under oraboveground 5x1,5 7x1,5 10x1,5 12x1,5 14x1,5 19x1,5 21x1,5 24x1,5 30x1,5 40x1,5 48x1,5 61x1,5 5x2,5 7x2,5 10x2,5 12x2,5 14x2,5 19x2,5 21x2,5 24x2,5 30x2,5 40x2,5 48x2,5 61x2,5 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 190 230 320 370 400 500 550 600 750 950 1100 1650 250 300 430 500 550 700 750 850 1050 1400 1650 2050 12,0 13,0 15,0 16,0 17,0 18,5 19,5 21,5 23,0 25,0 28,0 31,0 13,0 14,0 17,0 18,0 19,0 21,0 22,0 24,0 26,0 28,0 31,0 34,0 21 18 15 14 14 12 11 11 10 9 8 8 28 24 20 19 18 16 15 14 13 12 11 10 18 16 13 13 12 11 10 10 9 8 8 7 24 21 18 17 16 14 14 13 12 11 11 10 BETA ELECTRIC CABLE BETA ELECTRIC CABLES

BETA ELECTRIC CABLES 49 0,6/1 kV XLPE-INSULATED SINGLE CORE, HALOGEN FREE FLAME RETARDANT, LOW VOLTAGE POWER CABLES STRUCTURE: *Single or multiple wire copper conductor, "Mica tape, "XLPE-insulated, *Outer sheath LSHF *According to FE 180:IEC 60331-21, the cable keeps current-carrying function in fire conditions in flame for 180 minutes. STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90° C Max short circuit temperature 250° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As having less dielectric loss than other cables, being flame retardant and giving up no suffocating gas in fire they are used in energy applications for industry and settlement regions, in communal living spaces, particularly in energy systems having rapid load changes. BETA ELECTRIC CABLES 1x4 1x6 1x10 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 1x400 1x500 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 0,0470 0,0366 85 106 150 210 300 390 520 710 950 1200 1450 1800 2350 3000 3850 4850 8,0 8,5 9,5 10,0 11,5 12,5 13,5 16,0 17,0 19,0 21,0 23.0 26,0 29,0 32,0 36,0 66 82 109 139 179 213 251 307 366 416 465 526 610 689 788 889 55 56 44 68 90 115 149 178 211 259 310 352 396 449 521 587 669 748 71 96 128 173 212 258 328 404 471 541 626 749 864 1018 1173 57 77 102 139 170 208 265 326 381 438 507 606 697 816 933 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 50 0,6/1 kV XLPE-INSULATED, MULTICORE HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES STRUCTURE : *Single or multiple wire copper conductor, XLPE-insulated, *Outer sheath on basis of LSHF *According to FE 180 IEC 60331-21, the cable keeps current-carrying function in fire conditions in flame for 180 minutes. STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions where mechanical forces are not as being automation and power control cables, in places where fire is possible, in and out spaces, underground and surface ground, especaiall in places where load changes occur frequently as they have less dielectric losses than other cables, retard flames and do not give up suffocating gasses. 3x1,5 3x2,5 3x4 3x6 3x10 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 3x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 13100 200 240 300 380 520 720 1030 1350 1750 2500 3350 4150 5100 6350 8250 10250 68,0 14,0 15,0 16,0 17,0 19,0 20,0 23,0 25,0 28,0 32,0 36,0 40,0 44,0 49,0 55,0 61,0 663 746 40 52 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CABL THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

51BETA ELECTRIC CABLES 1,15/1,83 0,727/1,15 0,524/1,15 0,387/0,727 0,268/0,524 0,193/0,387 0,153/0,268 0,124/0,268 0,0991/0,193 0,0754/0,153 0,0601/0,124 0,0470/0,0991 850 1200 1500 2100 2850 3850 4900 5800 7300 9450 11750 14850 22,0 25,0 27,0 30,0 34,0 39,0 43,0 47,0 52,0 58,0 64,0 72,0 96 130 160 195 247 305 355 407 496 551 638 111 143 173 205 252 303 346 390 441 511 580 663 746 3x16+10 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 3x400+185 0,6/1 kV XLPE-INSULATED, MULTICORE HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES CONSTRUCTION: *Multiple wire copper conductor, XLPE-insulated, *Outer sheath on basis of LSHF *According to FE 180 IEC 60331-21, the cable keeps current-carrying function in fire conditions in flame for 180 minutes. STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 ECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions where mechanical forces are not as being automation and power control cables, in places where fire is possible, in and out spaces, underground and surface ground, especaiall in places where load changes occur frequently as they have less dielectric losses than other cables, retard flames and do not give up suffocating gasses. THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

52 0,6/1 kV XLPE-INSULATED, MULTICORE HALOGEN-FREE FLAME RETARDANT LOW VOLTAGE POWER CABLES STRUCTURE : *Single or multiple wire copper conductor, *XLPE-insulated, *Outer sheath LSHF *According to FE 180 IEC 60331-21, the cable keeps current-carrying function in fire conditions in flame for 180 minutes. STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions where mechanical forces are not as being automation and power control cables, in places where fire is possible, in and out spaces, underground and surface ground, especaiall in places where load changes occur frequently as they have less dielectric losses than other cables, retard flames and do not give up suffocating gasses. BETA ELECTRIC CABLES 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 4x400 0,0470 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 0,0601 16900 230 290 370 460 640 900 1300 1700 2300 3200 4300 5400 6550 8200 10600 13250 76,0 14,5 15,5 17,0 18,5 20,0 23,0 25,0 28,0 31,0 36,0 40,0 45,0 49,0 54,0 61,0 68,0 663 746 40 25 64 86 111 143 173 205 252 303 346 390 441 511 580 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 638 BETA ELECTRIC CA THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

53BETA ELECTRIC CABLES 5x1,5 7x1,5 10x1,5 12x1,5 14x1,5 19x1,5 21x1,5 24x1,5 30x1,5 40x1,5 48x1,5 61x1,5 5x2,5 7x2,5 10x2,5 12x2,5 14x2,5 19x2,5 21x2,5 24x2,5 30x2,5 40x2,5 48x2,5 61x2,5 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 12,10 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 7,41 270 330 470 530 570 700 750 950 1100 1400 1700 2050 340 420 600 700 750 950 1050 1250 1500 1900 2300 2800 16,0 17,0 21,0 22,0 23,0 25,0 27,0 30,0 32,0 35,0 39,0 43,0 17,0 19,0 23,0 24,0 25,0 28,0 29,0 32,0 35,0 39,0 43,0 47 21 18 15 14 14 12 11 11 10 9 8 8 28 24 20 19 18 16 15 14 13 12 11 10 18 16 13 13 12 11 10 10 9 8 8 7 24 21 18 17 16 14 14 13 12 11 11 10 0,6/1 kV XLPE-INSULATED, HALOGEN-FREE SHEATHING FLAME RETARDANT LOW VOLTAGE CONTROL CABLES STRUCTURE: *Single or multiple wire copper conductor, XLPE- insulated, *Outer sheath on basis of LSHF *According to FE 180:IEC 60331-21, the cable keeps current-carrying function in fire conditions in flame for 180 minutes. STANDARDS: BS EN 50525-3-21/IEC60332/IEC 60754/BS7211 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions where mechanical forces are not as being automation and power control cables, in places where fire is possible, in and out spaces, underground and surface ground, especial in places where load changes occur frequently as they have less dielectric losses than BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 54 0,6/1 kV XLPE-INSULATED, MULTICORE, HALOGEN-FREE SHEATHING FLAME RETARDANT LOW VOLTAGE POWER CABLES WITH STEEL WIRE ARMOUR STRUCTURE : *Single or multiple wire copper conductor, XLPE-insulated, *Galvanized round steel armour, *Outer sheath on basis of LSHF STANDARDS: BS 6724 TECHNICAL VALUES: Max operating temperature 90 °C Max short circuit temperature 250 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used in energy applications of industrial and settlement regions where mechanical forces are not as being automation and power control cables, in places where fire is possible, in and out spaces, underground and surface ground, especaiall in places where load changes occur frequently as they have less dielectric losses than other cables, retard flames and do not give up suffocating gasses. 4x1,5 4x2,5 4x4 4x6 4x10 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 12,10 7,41 4,61 3,08 1,83 1,15 0,727 0,524 0,387 0,268 0,193 0,153 0,124 0,0991 0,0754 320 420 500 730 970 1250 1950 2450 3000 4300 5450 7000 8400 10100 12750 13,0 15,0 16,0 18,5 21,0 23,0 28,0 30,0 33,0 39,0 43,0 48,0 53,0 58,0 64,0 40 25 64 86 111 143 173 205 252 303 346 390 441 511 2430 32 42 53 73 96 130 160 195 247 305 355 407 496 551 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. BETA ELECTRIC CABLES

55BETA ELECTRIC CABLES 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, SINGLECORE LOW VOLTAGE POWER CABLES STRUCTURE: Multiple wire aluminium conductor, "PVC-insulated, "PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used as network, lighting and power cables underground and cable channels where there is no much mechanical forces. 1x16 1x25 1x35 1x50 1x70 1x95 1x120 1x150 1x185 1x240 1x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 130 180 215 280 360 470 560 710 860 1080 1350 10,0 11,5 12,5 14,0 16,0 18,0 19,0 22,0 23,0 26,5 29,0 75 97 151 179 218 261 297 332 376 437 494 66 72 64 86 127 151 186 223 254 285 323 378 427 99 131 160 202 249 291 333 384 460 530 84 113 138 174 210 244 280 320 378 433 BETA ELECTRIC CABL THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

BETA ELECTRIC CABLES 56 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTCORE LOW VOLTAGE POWER CABLES STRUCTURE: *Multiple wire aluminium conductor, "PVC-insulated *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used as network, lighting and power cables underground and cable channels where there is no much mechanical forces. 2x16 2x25 2x35 2x50 2x70 2x95 2x120 2x150 2x185 2x240 2x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 510 690 840 1095 1420 1875 2230 2820 3325 4300 5320 19,0 22,0 24,0 27,0 31,0 35,5 38,5 43,5 46,0 53,0 59,0 70 59 90 110 135 160 190 210 240 275 320 355 78 99 125 150 185 210 240 275 325 365 BETA ELECTRIC CA THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

57BETA ELECTRIC CABLES 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTICORE LOW VOLTAGE POWER CABLES STRUCTURE: * Multiple wire aluminium conductor, "PVC-insulated, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used as network, lighting and power cables underground and cable channels where there is no much mechanical forces BETA ELECTRIC CA 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 570 780 950 1250 1700 2200 2600 3300 3900 5050 6200 20,5 23,5 25,5 29,0 33,5 38,0 41,0 47,0 49,5 57,5 63,0 66 64 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 290 339 377 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. BETA ELECTRIC CABLES BETA ELECTRIC CA 58 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTIPLE CORE LOW VOLTAGE POWER CABLES STRUCTURE : * Multiple wire aluminium conductor, "PVC-insulated, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70 °C Max short circuit temperature 160 °C Nominal voltage 0,6/1 kV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used as network, lighting and power cables underground and cable channels where there is no much mechanical forces. 1,200/1,910 0,868/1,910 0,641/1,200 0,443/0,868 0,320/0,641 0,253/0443 0,206/0,443 0,164/0,320 0,125/0,253 0,100/0,206 860 1010 1400 1800 2400 2900 3500 4200 5400 6400 25,0 27,0 31,0 35,0 40,0 44,0 49,0 52,0 59,5 66,0 118 142 176 211 242 270 308 363 412 8399 102 124 158 160 220 252 289 339 377 3x25+10 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150

59 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTIPLE CORE LOW VOLTAGE POWER CABLES STRUCTURE: "Multiple wire aluminium conductor, *PVC-insulated, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: They are used as network, lighting and power cables underground and cable channels where there is no much mechanical forces. BETA ELECTRIC CABLES BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 670 920 1120 1550 2000 2600 3150 4000 4800 6100 7500 22,0 25,5 28,0 32,5 37,0 42,0 46,0 52,0 55,0 64,0 70,0 60 51 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 289 339 377

60 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTICORE LOW VOLTAGE POWER CABLES WITH STEEL WIRE ARMOUR STRUCTURE: *Multiple wire aluminium conductor, "PVC-insulated, *"Galvanised steel wire armour, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As being network, lighting and power cables resistent to mechanical forces they are used in heavy operational conditions, in underground and surface ground cable channels internally and externally. 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 9400 1070 1550 1850 2200 3050 3700 4250 5700 6420 7800 23,0 27,0 30,0 33,0 38,0 42,5 46,0 52,5 55,0 63,0 69,0 66 64 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 289 339 377 BETA ELECTRIC CA BETA ELECTRIC CABLES

61 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTIPLE CORE LOW VOLTAGE POWER CABLES WITH STEEL WIRE ARMOUR STRUCTURE: *Multiple wire aluminium conductor, "PVC-insulated, *Galvanised round steel Wire armour, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As being network, lighting and power cables resistent to mechanical forces they are used in heavy operational conditions, in underground and surface ground cable channels internally and externally. BETA CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 1,200/1,910 0,868/1,910 0,641/1,200 0,443/0,868 0,320/0,641 0,253/0443 0,206/0,443 0,164/0,320 0,125/0,253 0,100/0,206 1650 1900 2600 3250 4000 5150 6000 6850 8400 10000 28,0 30,5 35,0 39,5 44,5 50,0 54,5 57,0 65,0 71,5 118 142 176 211 242 270 308 363 412 8399 102 124 158 160 220 252 289 339 377 3x25+16 3x35+16 3x50+25 3x70+35 3x95+50 3x120+70 3x150+70 3x185+95 3x240+120 3x300+150 BETA ELECTRIC CABLES

THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 62 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTOR, MULTICORE LOW VOLTAGE POWER CABLES WITH STEEL WIRE ARMOUR STRUCTURE: *Multiple wire aluminium conductor, "PVC-insulated, *Galvanised steel wire armour, *PVC Outer Sheath STANDARDS: IEC 60502, BS 6346 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As being network, lighting and power cables resistent to mechanical forces they are used in heavy operational conditions, in underground and surface ground cable channels internally and externally. 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 1350 1750 2050 2900 3550 4750 5500 6700 7650 9350 11050 26,0 29,0 31,5 37,0 41,5 48,0 52,0 58,0 61,0 69,5 76,0 60 51 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 289 339 377 BETA ELECTRIC CABLES

63 CONDUCTIVE, MULTIPLE CORE LOW VOLTAGE POWER CABLES WITH 0,6/1 kV PVC-INSULATED ALUMINIUM GALVANIZED STEEL TAPE ARMOUR STRUCTURE: *Multiple wire aluminium conductor, "PVC-insulated, *Galvanised steel tape "PVC Outer Sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C (ts5 sn) Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As being network, lighting and power cables resistent to mechanical forces they are used in heavy operational conditions, in underground and surface ground cable channels internally and externally. BETA ELECTRIC CAB THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 3x16 3x25 3x35 3x50 3x70 3x95 3x120 3x150 3x185 3x240 3x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 1000 1300 1650 2000 2500 3100 3600 4500 5150 6500 7800 23,0 26,0 29,0 31,5 36,0 40,5 44,0 50,0 52,0 60,0 66,0 60 64 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 290 339 377 BETA ELECTRIC CABLES

64 0,6/1 kV PVC-INSULATED ALUMINIUM CONDUCTIVE, MULTICORE LOW VOLTAGE POWER CABLES WITH FLAT STEEL ARMOUR STRUCTURE: *Multiple wire aluminium conductor, "PVC-Insulated, *Galvanised steel armour, *Galvanised steel tape "PVC Outer Sheath STANDARDS: IEC 60502 TECHNICAL VALUES: Max operating temperature 70° C Max short circuit temperature 160° C Nominal voltage 0,6/1 KV AC tesl voltage 3,5 kV THE PLACES OF USE: As being network, lighting and power cables resistent to mechanical forces they are used in heavy operational conditions, in underground and surface ground cable channels internally and externally. THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. 4x16 4x25 4x35 4x50 4x70 4x95 4x120 4x150 4x185 4x240 4x300 1,910 1,200 0,868 0,641 0,443 0,320 0,253 0,206 0,164 0,125 0,100 1200 1550 1800 2350 2900 3650 4300 5300 6150 7650 9250 25,0 28,0 30,5 35,0 40,0 44,5 49,0 55,0 58,0 66,5 73,0 60 51 99 118 142 176 211 242 270 308 363 412 83 102 124 158 160 220 252 289 339 377 BETA ELECTRIC CABLES

65 Wooden bobbins specifications BETA ELECTRIC CABLES

66 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. d4 D1 D2 Z Q B1 Q1 d5 O e T T L1 L2 B B B2 G1 K d1 d2 O R N 4mm O O 88 82 Note:All above mentioned dimensions are subjected to+ 5% tolerance Drums Size 1000&1250 mm, the outer width with steel bars should be 750 mm. in case of insulated cables to save shipping cost in container. Code + X :Means Special drum and width or barrel diameter or both will be changed. Lagging thickness for all drum is 25mm except 630 & 700mm lagging thickness is 19mm. In case of lagging Lagging thickness to be added to the overall diameter of the drum. LaggingDrumMaxOuter WidthOuterInnerBarrelDrum weightweightcapacitywith Steel BarswidthwidthdiamsizeCode (kg)(kg)(kg)(mm)(mm)(mm)(mm)(mm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ables Company BETA ELECTRIC CABLES

67 Technical Information BETA ELECTRIC CABLES

68 3-Phase Alternating Current transmission system is mostly used all over the World. The Rated Voltage of the Cable for a given application shall be suitable for the operating conditions in the system in which the cable is used. The design or Rated Voltage of the Cables is expressed in the form Uo/U (formerly Eo/E). Uo= the Rated Power frequency Voltage between conductor and earth or metallic screen for which the Cable is designed. U= the Rated Power frequency Voltage between conductors for which the Cable is designed. Um= the maximum Value of the “highest system voltage” for which the equipment may be used with reference to IEC 60038. It should be noted that in a system where an earth fault is not automatically and promptly isolated, the extra stress on the insulation of cables during the earth fault reduces the life of cable to a certain degree. A conductor is a metallic current carrying component of the Cable. The conductors are in accordance with BS EN 60228. Plain Annealed soft drawn Copper conductors with Conductivity 100% IACS standard are usually used. Aluminium Conductors are also being used due to the everyday increasing prices of Copper. The conductivity of Aluminum is 61% IACS standard. is using Electrolytic Copper in accordance with ASTM B-49 and Aluminium as per ASTM B-233and producing both metal Conductors in accordance with BS EN 60228 for the manufacturing of ElectricCables. The Conductors are designated with their Nominal area, minimum number of wires and Maximum D.C Resistance in BSEN 60228. BETA Cables are produced with the following classes and shapes of conductors in accordance with BSEN 60228: Class I - Round solid conductors Class II- Round stranded or, round Compacted or Shaped Stranded conductors Class V- Round Flexible conductors. Technical Information and cable construction VOLTAGE DESIGNATION The Rated Voltage Uo/U (Um) of the Cables considered in this Catalogue are 0.6/1 (1.2) kV and 1.8/3 (3.6) kv. CONDUCTORS BETA BETA ELECTRIC CABLES

69 Technical Information and cable construction – it is suitable for a continuous permissible conductor temperature of 70 deg C – it is suitable for a continuous permissible conductor temperature of 90 deg C. - it is suitable for a continuous permissible conductor temperature of 90 deg C. conductor. Core Identification will be provided as per customer requirements. The Conductors are insulated by the extruded dielectric materials like Polyvinyl Chloride (PVC) and Cross Linked Polyethylene (XLPE). Following Grades of Insulation are being used in BETA in accordance with BS 50363-3, BS 6346, BS 5467, BS 7655 and IEC 60502-1. TI 1 or PVC/A TI 3 XLPE (GP8) Special Insulation material for Hazardous area application is available with LSFOH and fire retardant thermosetting insulation. All Insulations are subjected to online SPARK testing Application in accordance with BS EN 62230 and BS 5099. Ultraviolet (UV) stabilized Colors for sunlight protection are used for the identification of Phase and Neutral conductors; usually the color codes Red, Yellow, Blue are used for Phase, Black for Neutral and Green/Yellow for Earth The color codes are given as below: The individual multi cores of cables are subject to core assembly and lay up together to form a reasonable circular shape. The Interstices between the cores are filled with Non-hygroscopic Polypropylene Strings fillers wherever required. Polypropylene binder tapes are applied helically to keep the assembled cores intact and also served as a separator between the insulation and inner sheath or separation sheath as applicable The inner covering and bedding is an extruded layer of PVC material provided above the Multi-Core assembly. It is compatible with the insulation material. PVC bedding is applied under the Armour (Steel wire or Alum wire.etc) in accordance with IEC 60502-1, BS 5467 and BS 6346. The application of Inner covering may be omitted in the construction of un-armoured cables and cables without collective metallic layer provided the outer shape of the cable remains practically circular and no adhesion occurs between cores and sheath. 1 Red or Black Brown or Blue 2 Red and Black Brown and Blue 3 Red, Yellow and Blue Brown, Black and Grey 4 Red, Yellow, Blue and Black Blue, Brown, Black and Grey 5 Red, Yellow, Blue, Black and Green/ Yellow Green/ Yellow, Blue, Brown, Black and Grey BETA ELECTRIC CABLES

70 Technical Information and cable construction The Armouring is used usually for direct burial underground Cables. It may be used for Earthing and provides protection against mechanical damage. It consist of Aluminium wire, Aluminium tape, Galvanized Steel wire or Double Steel Tape Armour applied helically over the bedding in accordance with IEC 60502-1, BS EN 10257, BS 5467, BS 6346. Armouring for single core Cables will be Non-Magnetic. It is also known as Outer jacket of Cable and consists of a Black Extruded layer of PVC Type ST2 or Type 9 in accordance with IEC 60502-1, BS 5467 and BS 6346 respectively. BETA Cables are having PVC outer sheath Fire Retardant to IEC 60332 -1.It can resists moisture,acid and alkaline content present in normal soil. Special properties for Hazardous area or potentially explosive gas atmosphere and Fire Retardant application with minimum Oxygen Index 30 or more are available upon requirements. Anti-Termite, Anti-Rodent, LSFOH, HDPE, MDPE, etc are also available. There are various methods and measures recommended for the installation of Low Voltage Cables. Some of them are given below: • Cables should be installed and used in association with other equipment in accordance with BS 7671, 17th Edition. • Un-armoured Cables are not recommended for direct burial application. They are usually used on cable Trays and in ducts. • Armoured Cables are usually recommended for underground and under Road crossings applications. • Care should be exercised during installation to avoid any mechanical damage or damage of Cable or outer sheath before and during the installation, recommended maximum pulling tension and pulling tooling to be used. This is important in wet or other aggressive environments. • If Cables are to be installed in ducts, the correct size of duct should be used. Reference should be made to ERA publication 69-30, Part III. • The cables should not be bent during installation to a radius smaller than the Minimum bending radius given below. Minimum bending radius during installation must be maintained larger wherever possible to avoid the damage of the cable. D: Outer diameter of cable. • The Protective End caps should not be removed from the Cable ends until immediately prior to termination or jointing especially for Cables that do not have extruded bedding. When the end caps have been removed the unprotected ends of the cable should not be exposed to moisture. •It is to be noted that owing the absence of a metal sheath, all earth fault currents will return through the armour unless there is a parallel bonding connection to relieve them of some of the Fault current. In either event it is necessary to ensure that there is no discontinuity in the return current via armour and the resistance added by bonds and clamps is kept to a minimum. Cable Min. Bending Radius Armoured/Un-armoured Cable Type 6DCircular Copper Conductor 8DShaped Copper/ Aluminium Conductor BETA ELECTRIC CABLES

71 Technical Information And cable construction Ampacity of cables Fig.1. This shows how the heat generated at several positions has to flow through a • The Cable support system should be such as to avoid damage or danger under normal or fault conditions. Bonding Clamps in joints should be electrically connected with a conducting material having conductance at least equal to that of the length of the armour it replaces, and with adequate thermal capacity to avoid excessive overheating under short circuit conditions, where excessive amount of short circuit current will flow in initial seconds. The type of jointing and filling compounds employed should be chemically compatible with the cable materials. • It is recommended that the Cables to be installed only when both the cable and ambient temperature are above 0 degree C and have been so for the previous 24 hours, or where special precautions have been taken to maintain the cable above this temperature. The Electric cables suffers electrical losses during service. These losses are usually referred as Ohmic and Induced Losses and generate heat in the conductor, insulation and metallic components. The heat evolved must be transmitted to the ambient Earth or Air. The Ampacity or Current Rating of Cable is dependent on the way this heat is transmitted to the Cable surface and then dissipated to the sourrounding. Temperature is clearly an important factor and is expressed as a conductor temperature to establish a datum for the Cable itself. A maximum conductor temperature is fixed which is commonly the limit for the insulation material, without undue ageing, for a resonable maximum life then, by choosing a base ambient temperature for the sourroundings, a permissible temperature rise is available from which a maximum cable Ampacity can be calculated for a particular environment. Under steady state conditions the difference between the conductor temperature and the external ground or ambient temperature is related to the total heat losses and the Law of heat flow is very similar to Ohm>s Law. Heat flow corresponds to Current, Tempearture difference to voltage and the total thermal resistance in the cable and sourroundings to Electrical resistance. Using this analogy it is possible to construct a circuit diagram as illustrated in number of layers of different thermal resistances. By measuring values for the materials, Ampacity or current Ratings calculation can then be made. Fig. 1: Circuit Diagram to represnt heat generated in a 3-core Metal sheathed Cable.e BETA ELECTRIC CABLES

72 Technical Information Ampacity of cables BETA ELECTRIC CABLES Fig2 , which shows the pattern of heat flow for three buried single-core cables, illustrates the Thermal Resistivity is defined as the difference in temperature in Kelvin between opposite faces of a metre cube of material caused by the transference of 1 watt of heat hence the units K.m/W. The flow within a cable is radial but externally it is not so and allowance must be made for the method of installation. importance of making allowance for the depth of burial and could be extended to show the effects of other cables in close proximity. Fig. 2: Heat Flow from a circuit of single core Cables installed in trefoil. Mathematical treatment is most conveniently expressed for steady state conditions, i.e. for continuous (sustained) ratings. A small cable in air will heat up very quickly to a steady state condition but a large buried power cable may take very many hours. Hence for most types of operation for supply distribution cables laid direct, the continuous ratings may be conservative and allowance can be made for cyclic operation. (Fundamental formula for current computation): The Heat generated by the temperature rise in the conductors (I2R), in the insulation (W) and in the metallic of the layers through which the heat flows (T). IEC 60287 deals this in details. the general formula for a.c Cables can be given as follows

73 Technical Information Ampacity of cables BETA ELECTRIC CABLES = Conductor temperature rise (K) I = Current Flowing in one conductor (A) R Wd = Dielectric loss per unit length for the insulation surrounding the conductor (W/m). T1 = Thermal resistance per unit length between one conductor and metallic sheath (K.m/W). T2 = Thermal resistance per unit length of the bedding between sheath and armor (K.m/W). T3 = Thermal resistance per unit length of the external serving/ outer sheath of the cable (K.m/W). T4 = Thermal resistance per unit length between the cable surface and the surrounding medium (K.m/W). n = No. of load carrying conductors in the cable (conductors of equal size and carrying the same load). = Ratio of losses in the metal sheath to total losses in all conductors in that cable. = Ratio of losses in the armoring to total losses in all conductors in that cable. The Formula may be written as follows to obtain the permissible current rating: Please note that the above formula only provides ratings for the prescribed representative conditions. it does not allow for heat generation from any other source, such as other cables in close proximity, or from exposure to direct solar radiation. We can refer to IEC 60287 for further details in this regard. Conisdering a 4 core-600 / 1000 Volts Power Cable, '' n '' may be assumed to be 3 if the fourth conductor is neutral or is a protective conductor. this assumes that the neutral conductor is not carrying current, which is due to the presence of Harmonics. Where Triple harmonic currents, particularly the Third Harmonic, are present in a system they do not cancel in the neutral. This means that all four conductors will be loaded and measurements have shown that the current in the neutral conductor may be higher than 50Hz current in phase currents. Therefore, the use of Power cable with reduced neutral conductor usually known as 31/2 - core cable must be avoided. Presently Electrical Engineers are using Neher - McGrath Calculating method, IEEE Stand Power Cable Ampacity Tables and IEC 60287 Group of Standard for computing the Ampacities of Electric Cables. Ampacity Tables are available in the catalogues of Cable Manufacturers are based on the same for many conductor sizes and various types of Cables. These Tables are designed to cover most common installation conditions

74 Technical Information Ampacity of cables BETA ELECTRIC CABLES Cable design parameters and dimensions of cables are based on IEC 60502-1, which may have a slight variation in practical values applied in cable manufacturing to the best common Engineering practices. BETA offers our standard products having PVC Insulation TypeTI-1 ( 70 Deg.C ), Heat resistant PVC Type TI-3 ( 90 Deg.C )and Cross-linked Polyethylene XLPE (90 Deg.C ). The basis of the standard conditions is the climatic condition of the Kingdom of Saudi Arabia, having following details: Ambient Air Temperature: 40 °C Ambient Ground Temperature: 35 °C Depth of laying in ground: 0.50 m Soil Thermal Resistivity 1.2 K.m/W For other Installation conditions or any value of different air/ground temperature, depth of laying, different soil thermal resistivity, the customer is advised to multiply the tabulated current rating by the de-rating factor values as in tables 1 to 5 for direct buried cables in ground and tables 7 to 10 for cables installed in ducts. For a cable installed direct buried, the following tables will be used to calculate the current rates based on the actual soil thermal resistivity, Ground ambient temperature and the Depth of Laying. Table 1: Rating Factors for Ground temperature variations Cable Type PVC Insulated 70°C 1.25 1.20 1.13 1.07 1 0.93 0.85 0.76 0.65 XLPE Insulated 1.16 1.13 1.09 1.03 1 0.95 0.90 0.85 0.80 PVC Insulated 90°C 1.17 1.13 1.09 1.04 1 0.95 0.90 0.85 0.80 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE.

75 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables BETA ELECTRIC CABLES Table 2: Rating Factors for depth of Laying (to center of cable or trefoil group of cables) Table 3: Rating Factors for variations in thermal resistivity of soil (average values) Single Core Cables Multi Core Cables Upto 150 1.16 1.12 1.07 0.91 0.81 0.73 0.66 From 400 to 1000 1.16 1.12 1.07 0.91 0.81 0.73 0.66 From 185 to 300 1.17 1.12 1.07 0.91 0.80 0.73 0.66 Upto 16 1.12 1.08 1.05 0.93 0.84 0.77 0.72 From 185 to 500 1.15 1.10 1.07 0.92 0.81 0.74 0.67 From 25 to 150 1.14 1.10 1.06 0.92 0.82 0.75 0.69 0.50 1.00 1.00 1.00 0.80 0.97 0.96 0.94 1.25 0.94 0.92 0.98 1.75 0.92 0.89 0.86 2.50 0.90 0.87 0.84 0.60 0.99 0.98 0.97 1.00 0.95 0.93 0.92 1.50 0.93 0.90 0.87 2.00 0.91 0.88 0.85

76 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables BETA ELECTRIC CABLES Table 4: Group rating factors for circuits of three single core cables in trefoil or laid flat touching, in horizontal formation Table 5: Group rating Factors for multicore cables in Horizontal formation A duct is an enclosure of metal or insulating material other than conduits or cable trunking, intended for the protection of cables which are drawn in after errection of the ducting. The recommended relation between the cable size and duct size is as in table 6. 0.782 0.81 0.83 0.88 0.91 0.93 0.663 0.70 0.73 0.79 0.84 0.87 0.614 0.64 0.68 0.73 0.79 0.85 0.565 0.60 0.64 0.73 0.79 0.85 0.536 0.57 0.61 0.71 0.78 0.82 2 0.81 0.87 0.91 0.93 0.95 3 0.70 0.78 0.84 0.88 0.90 4 0.63 0.74 0.81 0.86 0.89 5 0.59 0.70 0.78 0.84 0.87 6 0.55 0.68 0.77 0.83 0.87

77 THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables BETA ELECTRIC CABLES Table 6: Recommended duct dimensions and cable sizes: As the same principal of cables installed in direct burial methods above, the current carrying capacities of cables depends on the installed condition, the rating is calculated based on the values given on page 8. The de-rating factors of other conditions should be considered to calculate the actual possible maximum current carrying capacity of the cables. Tables 7 - 11 are for the factors to be multiplied by the tabulated current. Table 7: Rating Factors for ground temperature variation Table 8 : Rating Factors for variation in thermal resistivity of soil (average values) Upto and including 65 Above 65 upto 90 140 175 100 130 Cable Type PVC Insulated 70°C 1.25 1.20 1.13 1.07 1 0.93 0.85 0.76 0.65 XLPE Insulated 1.16 1.13 1.09 1.03 1 0.95 0.90 0.85 0.80 PVC Insulated 90°C 1.17 1.13 1.09 1.04 1 0.95 0.90 0.85 0.80 Single Core Cables Multi Core Cables 1.10Upto 150 1.07 1.04 0.94 0.86 0.80 0.76 1.12From 400 to 1000 1.08 1.05 0.93 0.84 0.78 0.74 1.11From 185 to 300 1.08 1.05 0.93 0.85 0.79 0.75 1.04Upto 16 1.03 1.02 0.97 0.92 0.88 0.86 1.07From 185 to 500 1.05 1.03 0.95 0.88 0.83 0.78 1.06From 25 to 150 1.04 1.03 0.95 0.90 0.85 0.81

78 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Table 9 : Rating Factors of depth of Laying (to center of duct or trefoil group of ducts) Table10: Group rating factors for single core cables in trefoil single way ducts, horizontal formation (average values) 0.50 1.00 1.00 0.60 0.98 0.99 0.80 0.95 0.98 1.00 0.93 0.96 1.25 0.91 0.95 1.50 0.89 0.94 1.75 0.88 0.94 2.00 0.87 0.93 2.50 0.86 0.92 3.00 or more 0.85 0.91 2 0.87 0.91 0.93 4 0.74 0.81 0.85 3 0.78 0.84 0.87 6 0.69 0.78 0.82 5 0.70 0.79 0.83 Technical Information Ampacity of cables

79BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables Table 11: Group rating factors for Multicore cables in single way ducts horizontal formation (average values) 2 0.90 0.93 0.95 0.96 3 0.83 0.88 0.91 0.93 4 0.79 0.85 0.89 0.92 5 0.75 0.83 0.88 0.91 6 0.73 0.82 0.87 0.90 2 0.88 0.91 0.93 0.94 3 0.80 0.85 0.88 0.90 4 0.76 0.81 0.85 0.88 5 0.72 0.78 0.83 0.86 6 0.69 0.76 0.81 0.85

80 BETA ELECTRIC CABLES Technical Information Ampacity of cables Cables installed in air could have many forms of installation methods as described in BS 7671 IEE wiring regulation 17th edition. Some of these methods are like A or B (for cables on Trefoil format laying as in table 12) or like C or D (For cables Laid Flat vertically or horizontally as in table 12). It is assumed that the cables are not exposed to the direct sunlight and away from any external heat sources. Table 12: Installation Method for Cables Single Core or multi core cables: Fixed on (Clipped direct) or space less than 0.3 times the cable diameter from a wall Multi Core cable in conduit, spaced less than 0.3 times conduit diameter Cables run horizontally or vertically flat on perforated tray For multi core cable De= Cable diameter, And for 3 single core cables De = 3 times cable diameter A B C OR D

81BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables The conductors of an A.C. circuit installed in an Iron pipes or ferromagnetic enclosure shall be arranged so that all line conductors and the neutral conductor, if any, and the appropriate protective conductor are contained in the same enclosure. When such conductors enter an Iron pipes or ferrous enclosure, they shall be arranged such that the conductors are only collectively surrounded by ferrous material. Table 13: Rating factors for other ambient air temperatures Air Temperature PVC Insulated 70°C 1.22 1.15 1.08 1.00 0.91 0.82 0.71 0.58 XLPE Insulated 1.14 1.10 1.05 1.00 0.95 0.90 0.84 0.78 PVC Insulated 90°C 1.14 1.10 1.05 1.00 0.95 0.90 0.84 0.78

82 BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables 5.0 (AMPACITY OR CURRENT CARRYING CAPACITY) Table 14: (Single Core cables with copper conductor, PVC 70°C insulated and PVC sheathed 0.6/ 1 K.V) mm² ohm/Km ohm/Km ohm/Km amps amps amps amps amps amps 1.5 12.1 14.5 14.5 25 24 18 20 18 15 4 4.61 5.52 5.52 42 41 31 36 31 25 2.5 7.41 8.87 8.87 33 31 24 27 23 19 10 1.83 2.19 2.19 70 68 52 62 54 43 6 3.08 3.69 3.69 53 51 39 46 40 32 25 0.727 0.87 0.87 116 112 87 109 94 73 16 1.15 1.38 1.38 91 87 67 83 71 56 50 0.387 0.463 0.464 166 158 125 164 141 107 35 0.524 0.627 0.627 140 134 104 135 116 89 95 0.193 0.232 0.232 245 233 186 259 222 163 70 0.268 0.321 0.232 204 194 154 208 179 134 150 0.124 0.150 0.151 313 296 238 345 296 213 120 0.153 0.184 0.185 279 264 212 301 258 188 240 0.0754 0.0922 0.0941 412 385 313 476 407 285 185 0.0991 0.120 0.1215 354 334 270 399 343 243 400 0.0470 0.0593 0.0623 531 488 399 642 542 369 300 0.0601 0.0743 0.0767 466 433 353 551 469 324 630 0.0283 0.0386 0.0431 686 609 501 875 717 470 500 0.0366 0.0476 0.0513 603 546 449 747 624 417

83BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Table 15: (Three and Four core cable with copper conductor, PVC 70°C insulated and PVC sheathed 0.6/1K.V) mm² ohm/Km ohm/Km ampsamps amps ampsampsamps 2.5 7.41 8.87 72 32 - 22 19 - 1.5 12.1 14.5 12 81 - 16 14 - 6 3.08 3.69 54 73 45 37 31 37 4 4.61 5.52 63 03 36 29 24 29 16 1.15 1.38 87 56 78 66 54 66 10 1.83 2.19 06 05 60 50 41 51 35 0.524 0.628 101125 124 106 84 109 25 0.727 0.87 001 38 100 87 70 88 70 0.268 0.323 148183 180 163 126 167 50 0.387 0.464 121149 147 130 102 133 120 0.153 0.185 203249 245 233 177 235 95 0.193 0.232 178219 215 201 154 204 185 0.0991 0.121 259315 306 308 230 305 150 0.124 0.151 229280 273 268 202 268 300 0.0601 0.0764 339409 387 417 306 401 240 0.0754 0.0939 301364 349 364 269 355 500 0.0366 0.0507 441520 468 554 406 506 400 0.0470 0.0619 386465 428 485 352 454 Technical Information Ampacity of cables Technical Information Ampacity of cables

84BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables Table 16: (Single Core cables with copper conductor, XLPE insulated and PVC sheathed, 0.6 / 1 K.V) mm² ohm/Km ohm/Km ohm/Km amps amps amps amps amps amps 1.5 12.1 15.2 15.2 31 30 22 27 22 19 4 4.61 5.88 5.88 52 50 38 47 38 32 2.5 7.41 9.45 9.45 40 39 29 36 29 24 10 1.83 2.33 2.33 87 83 63 82 66 54 6 3.08 3.93 3.93 65 63 47 60 49 40 25 0.727 0.927 0.927 144 137 105 145 116 92 16 1.15 1.47 1.47 112 107 82 109 88 70 50 0.387 0.494 0.494 204 195 151 218 175 134 35 0.524 0.668 0.669 172 165 127 178 143 112 95 0.193 0.247 0.248 301 286 225 344 274 205 70 0.268 0.342 0.343 251 238 187 277 222 168 150 0.124 0.159 0.160 385 363 290 461 367 269 120 0.153 0.196 0.197 345 327 258 409 326 237 240 0.0754 0.098 0.100 507 447 382 638 505 361 185 0.0991 0.128 0.129 436 410 330 534 425 308 400 0.0470 0.0629 0.0661 645 600 489 865 676 469 300 0.0601 0.079 0.0815 573 532 431 740 583 411 630 0.0283 0.0407 0.0453 847 752 615 1184 900 603 500 0.0366 0.0504 0.0543 744 673 550 1009 779 533

85BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables Table 17: (Three and Four core cable with copper conductor, XLPE insulated and PVC sheathed, 0.6 / 1 KV) mm² ohm/Km ohm/Km ampsamps amps amps amps amps 2.5 7.41 9.45 53 92 - 29 24 - 1.5 12.1 15.4 72 22 - 22 18 - 6 3.08 3.93 65 64 57 48 39 50 4 4.61 5.88 54 73 46 38 31 39 16 1.15 1.47 89 08 98 88 68 89 10 1.83 2.33 67 26 76 67 52 67 35 0.524 0.669 125157 158 142 107 149 25 0.727 0.927 104128 128 118 90 120 70 0.268 0.343 183229 229 220 161 229 50 0.387 0.494 149187 188 175 129 182 120 0.153 0.197 251313 310 316 226 322 95 0.193 0.248 220276 274 272 196 280 185 0.0991 0.129 321395 387 418 295 420 150 0.124 0.160 283350 346 363 258 368 300 0.0601 0.0812 420516 494 571 394 557 240 0.0754 0.0998 372458 444 496 346 491 500 0.0366 0.0536 538655 597 760 515 705 400 0.0470 0.0656 478584 549 665 454 635

86BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables Table 18: (Single Core cables with Aluminium conductor, XLPE insulated and PVC sheathed, 0.6 / 1 K.V) 16 35 25 70 50 95 mm² ohm/Km ohm/Km ohm/Km amps amps amps amps amps amps 1.91 2.45 2.45 87 83 63 85 68 54 0.868 1.113 1.113 133 128 98 138 111 87 1.2 1.54 1.54 111 107 82 112 90 71 0.443 0.568 0.569 194 185 145 215 172 131 0.641 0.822 0.822 158 151 117 169 135 104 120 0.253 0.325 0.325 266 252 201 312 249 184 0.32 0.411 0.411 233 222 175 266 213 159 185 0.164 0.211 0.212 339 320 257 416 332 241 150 0.206 0.265 0.265 298 282 226 357 285 209 300 0.100 0.130 0.131 448 419 340 578 459 324 240 0.125 0.161 0.163 395 371 300 497 396 283 500 0.0605 0.0799 0.0826 590 546 446 801 631 432 400 0.0778 0.1016 0.1037 514 479 390 681 540 375 630 0.0469 0.0632 0.0666 681 621 509 954 746 498

87BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Ampacity of cables Table 19: (Three and Four core cable with Aluminium conductor, XLPE insulated and PVC sheathed, 0.6/ 1 KV) mm² ohm/Km ohm/Km ampsamps amps amps amps amps 25 1.20 1.54 99 18 99 92 70 93 16 1.91 2.45 67 26 76 68 53 69 50 0.641 0.822 116145 146 136 100 141 35 0.868 1.113 121 69 122 110 83 115 95 0.320 0.411 171214 213 211 152 218 70 0.443 0.569 142178 178 171 125 178 150 0.206 0.265 220272 270 282 200 288 120 0.253 0.325 195243 242 246 176 252 240 0.125 0.163 282359 352 388 271 390 185 0.164 0.212 250309 305 326 230 331 400 0.0778 0.1034 381466 447 530 362 516 300 0.100 0.131 331406 395 449 449 445 500 0.0605 0.0822 434529 497 614 416 586

88BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information 6.0 Voltage Drop Voltage drop is one the important factor to be considered for cable selection. According to BS 7671 IEE Wiring Regulation 17th edition under normal service conditions the voltage at the terminals of any fixed current-using equipment shall be greater than the lower limit corresponding to the product standard relevant to the equipment and where fixed current using equipment is not the subject of product standard the voltage at the terminals shall be such as not to impair the safe functioning of the equipment. Table 20: (Approximate voltage drop at 60 Hz for single core stranded plain Copper/ Aluminium conductors, PVC insulated, PVC sheathed). 1.5 22.6 22.5 - - 4 8.70 8.70 - - 2.5 13.9 13.8 - - 10 3.50 3.50 - - 6 5.80 5.80 - - 25 1.50 1.50 2.40 2.30 16 2.30 2.20 3.70 3.70 50 0.83 0.82 1.30 1.30 35 1.10 1.10 1.70 1.70 95 0.47 0.45 0.71 0.69 70 0.61 0.6 0.94 0.92 150 0.34 0.33 0.49 0.48 120 0.39 0.38 0.58 0.56 240 0.25 0.24 0.34 0.33 185 0.29 0.28 0.41 0.4 400 0.2 0.18 0.25 0.24 300 0.22 0.21 0.29 0.28 630 0.16 0.15 0.19 0.18 500 0.18 0.17 0.22 0.21

89BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Voltage Drop Table 21: (Approximate voltage drop at 60 Hz for Three and Four core stranded plain copper/ aluminium conductors, PVC insulated, PVC sheathed). 13.82.5 - 22.61.5 - 5.806 - 8.604 - 2.2016 3.60 3.5010 - 1.1035 1.70 1.4025 2.30 0.5870 0.91 0.8050 1.30 0.37120 0.55 0.4495 0.68 0.27185 0.39 0.32150 0.47 0.20300 0.27 0.23240 0.32 0.15500 0.2 0.18400 0.23

90BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Voltage Drop Table 22: (Approximate voltage drop at 60 Hz for single core stranded plain copper/ aluminium conductors, XLPE insulated, PVC sheathed). 1.5 22.9 22.8 - - 4 8.80 8.70 - - 2.5 14.1 14.1 - - 10 3.60 3.60 - - 6 5.90 5.90 - - 25 1.50 1.50 2.40 2.40 16 2.30 2.30 3.70 3.70 50 0.84 0.83 1.30 1.30 35 1.10 1.10 1.80 1.70 95 0.47 0.46 0.71 0.7 70 0.61 0.6 0.95 0.93 150 0.34 0.33 0.5 0.48 120 0.39 0.38 0.58 0.57 240 0.25 0.24 0.34 0.33 185 0.29 0.28 0.42 0.4 400 0.19 0.18 0.25 0.24 300 0.22 0.21 0.29 0.28 630 0.16 0.15 0.19 0.18 500 0.17 0.16 0.22 0.21

91BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Voltage Drop Table 23: (Approximate voltage drop at 60 Hz for Three and Four core stranded plain copper/ aluminium conductors, XLPE insulated, PVC sheathed). 142.5 - 22.81.5 - 5.906 - 8.704 - 2.2016 3.70 3.5010 - 1.1035 1.70 1.5025 2.40 0.5870 0.92 0.8150 1.30 0.37120 0.56 0.4495 0.68 0.27185 0.39 0.31150 0.47 0.2300 0.27 0.23240 0.32 0.15500 0.2 0.18400 0.23

92BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information 7.0(Short Circuit Raring - Conductors) Short circuit rating is based on, IEC 60724. for an insulated conductor with operating temperature of 70 °C for PVC and 90 °C for XLPE, the maximum temperature during the fault is 140 °C or 160 °C for PVC insulated cables, small sizes and big sizes respectively, and up to 250 °C for XLPE cables. Tables 24 and 25 represents the short circuit current rating at duration of fault time equal to 1 second. For any other values graph 1,2,3 and 4 may be used. Table 24: (PVC Insulated 70 °C type TI-1 or 90 °C type TI-3) cables copper and Aluminium conductor). 1.0310 0.68 2.5825 1.7 1.6516 1.09 5.1550 3.40 3.6035 2.38 9.7995 6.46 7.2170 1.76 15.45150 10.2 12.36120 8.16 24.72240 16.32 19.1185 12.6 46.00400 30.4 34.5300 22.8 72.45630 47.88 57.5500 38.0 1151000 76.00 92.0800 60.8

93BETA ELECTRIC CABLES THE ABOVE DATA IS APPROXIMATE AND SUBJECTED TO MANUFACTURING TOLERANCE. Technical Information Short Circuit Raring - Conductors Table 25: XLPE cables copper and Aluminium conductor 1.4310 0.94 3.5825 2.35 2.2916 1.50 7.1550 4.70 5.0035 3.29 13.5995 8.93 10.0170 6.58 21.45150 14.10 17.16120 11.28 34.32240 22.56 26.46185 17.39 57.20400 37.60 42.90300 28.20 90.09630 59.22 71.5500 47 143.001000 94.00 114.40800 75.20

94 BETA ELECTRIC CABLES Technical Information Short Circuit Raring - Conductors Graph 1: PVC (70 °C type) insulated cables short circuit (Copper Conductor)

95 BETA ELECTRIC CABLES Technical Information Short Circuit Raring - Conductors Graph 2: PVC (70 °C type) insulated cables short circuit (Aluminium Conductor)

96 BETA ELECTRIC CABLES Technical Information Short Circuit Raring - Conductors Graph 3: XLPE insulated cables short circuit (Copper Conductor)

97 BETA ELECTRIC CABLES Technical Information Short Circuit Raring - Conductors Graph 4: XLPE insulated cables short circuit (Aluminium Conductor)

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