TRANSFORMERS 4 LV REACTORS 13 LV / MV CAPACITORS 24 MV REACTORS 30 MECHANICAL DATA 34 QUALITY CERTIFICATES 42

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ABOUT ELEKTRA 3 TRANSFORMERS 4 Control Transformers İsolation Transformers Auto Transformers Medical Transformers LV REACTORS 13 Harmonic Filter Reactors Shunt Reactors Line Reactors Motor Reactors Discharge Units LV / MV CAPACITORS 24 LV Capacitors Capacitor - Reactor Selection Table MV Capacitors MV REACTORS 30 Iron Core MV Harmonic Filter Reactors Air Core MV Harmonic Filter Reactors Current Limiting Reactors(Inrush Reactors) MECHANICAL DATA 34 QUALITY CERTIFICATES 42

ABOUT ELEKTRA Founded with the purpose of transformer production in 1982, Elektra Elektronik have been proposing transformer, reactor, and energy quality solutions across the world with a top notch quality perception. Maintaining both production and design with its own human resources and facilities, our Company have been recognized as one of the pioneer R&D companies with its unique experience and expertise in the Turkish Electronic Industry. Providing solutions throughout Turkey and across the world, our Company inaugurated office in China. Elektra have been recognized as a major exporter company with a portfolio of more than 50 countries. Today, Elektra s solutions are being used in industrial, railway, medical, automation, military, naval and such related systems in 5 continents. QUALITY Both our products and production line are subject to internal and independent external audits. Thus ever increasing security and quality requirements are being satisfied and our products perform in accordance to up to date worldwide standards. Our goal is to keep providing our products to the world market with the sustainable quality and safety principles. In order to scale up our performance in this measure, we push our efforts to add new certificates to our existing ones. Our system certificates include IRIS, ISO 9001, ISO 14001, OHSAS with the cooperation with TUV-Nord and TSE. For our certificates please visit page 42. 3

TRANSFORMERS 4

TRANSFORMERS CONTROL TRANSFORMERS Control transformers are widely used in industrial applications such as electrical panels or PLC power supplies. Input and output voltages may vary up to 1000V and they possibily include voltage taps or shield windings.power ratings of these transformers go up to 10kVA. The electrical connection is done via terminal blocks and special mounting for DIN rails is availiable on request MAIN FEATURES OF ELEKTRA CONTROL TRANSFORMERS Highly permeable iron core High quality copper or aluminium windings Class 1 transformer Excellent voltage regulation High short time power Vacuum impregnated varnish to ensure silent and moisture-immune operation CE sign and compatibility with EN 61558-2-2 Manufactured under ISO 9001 quality management system INDUSTRIAL APPLICATIONS Elektra s control transformers are used in various countries and industries across the world. To mention a few: Lighting, Electric Automation, Steel, Machinery, Robotics, Ship Construction, Elevator, Lifting Industry 5

TRANSFORMERS ELECTRICAL DATA Model No Power(VA) Input Voltage(V) Output Voltage(V) Efficiency(%) Instantaneous Power(VA) Weight(kg) ETC 0025 230-400/24 25 230-400 24 79,60 51 1,0 ETC 0040 230-400/24 40 230-400 24 79,55 83 1,3 ETC 0050 230-400/24 50 230-400 24 79,51 96 1,5 ETC 0075 230-400/24 75 230-400 24 81,72 150 1,7 ETC 0100 230-400/24 100 230-400 24 83,25 212 1,9 ETC 0160 230-400/24 160 230-400 24 86,03 346 2,4 ETC 0200 230-400/24 200 230-400 24 87,71 455 3 ETC 0250 230-400/24 250 230-400 24 87,91 588 3,4 ETC 0320 230-400/24 320 230-400 24 89,64 724 4,5 ETC 0400 230-400/24 400 230-400 24 90,12 924 5,3 ETC 0500 230-400/24 500 230-400 24 90,7 1209 6,7 ETC 0630 230-400/24 630 230-400 24 91,16 1581 7,9 ETC 0800 230-400/24 800 230-400 24 91,74 1990 10,3 ETC 1000 230-400/24 1000 230-400 24 92,41 2609 14,4 ETC 1300 230-400/24 1300 230-400 24 93,34 3720 21,5 ETC 1600 230-400/24 1600 230-400 24 93,53 4977 24,2 ETC 2000 230-400/24 2000 230-400 24 94,18 6303 26,8 ETC 2500 230-400/24 2500 230-400 24 94,9 8360 28,5 ETC 0025 230-400/230 25 230-400 230 79,55 51 1,0 ETC 0040 230-400/230 40 230-400 230 79,60 83 1,3 ETC 0050 230-400/230 50 230-400 230 79,47 96 1,5 ETC 0075 230-400/230 75 230-400 230 82,42 152 1,7 ETC 0100 230-400/230 100 230-400 230 84,59 207 1,9 ETC 0160 230-400/230 160 230-400 230 86,2 349 2,6 ETC 0200 230-400/230 200 230-400 230 86,79 456 3 ETC 0250 230-400/230 250 230-400 230 87,63 575 3,6 ETC 0320 230-400/230 320 230-400 230 88,79 725 4,5 ETC 0400 230-400/230 400 230-400 230 90,16 937 5,7 ETC 0500 230-400/230 500 230-400 230 90,88 1213 7,3 ETC 0630 230-400/230 630 230-400 230 91,43 1513 7,8 ETC 0800 230-400/230 800 230-400 230 91,92 1976 9,5 ETC 1000 230-400/230 1000 230-400 230 92,78 2825 14,4 ETC 1300 230-400/230 1300 230-400 230 93,42 3616 22,5 ETC 1600 230-400/230 1600 230-400 230 93,71 4935 24 ETC 2000 230-400/230 2000 230-400 230 94,42 6010 27 ETC 2500 230-400/230 2500 230-400 230 94,74 8482 27,6 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 35 FOR MECHANICAL DATA T-1 6

TRANSFORMERS ISOLATION TRANSFORMERS Isolation Transformers are designed to be used on one or three phase systems where galvanic isolation and voltage step-up or step-down required. Input and output voltages may vary up to 5000V and they possibily include voltage taps or shield windings. Power ratings of these transformers go up to 1600kVA. The electrical connection is done via terminal blocks or bars. Any vectoral connection type is availiable on request. MAIN FEATURES OF ELEKTRA ISOLATION TRANSFORMERS Highly permeable iron core High quality copper or aluminium windings Class 1 transformer Excellent Insulation Low losses, high efficiency Vacuum impregnated varnish to ensure silent and moisture-immune operation CE sign and compatibility with EN 60076, EN 61558 and suitable subclauses Manufactured under ISO 9001 quality management system INDUSTRIAL APPLICATIONS Elektra s isolation transformers are used in various countries and industries accross the world. To mention a few: Lighting, Electric Automation, Steel, Machinery, Robotics, Ship Construction, Elevator, Lifting Industry 7

TRANSFORMERS MONO PHASE ISOLATION TRANSFORMERS Model No Power(kVA) No Load Current(%) No Load Loss(W) Load Losses(W) Voltage Drop(%) Short Circuit Voltage - UK(%) Efficiency(%) Weight(kg) ET2U 4001 4 4,5 51 261 6,48 4,61 92,74 28 ET2U 5001 5 4,2 58 273 5,5 4,01 93,7 32 ET2U 1002 10 3,7 91 428 4,35 3,49 94,96 50 ET2U 2002 20 3 168 708 3,67 3,1 95,70 100 ET2U 2502 25 3,6 192 919 3,83 3,2 95,65 110 ET2U 3152 31,5 5 231 1055 3,46 3,1 96,05 120 ET2U 5002 50 3,9 322 1370 2,8 2,8 96,70 170 ET2U 8002 80 2,5 448 1525 2,03 2,75 97,50 250 THREE PHASE ISOLATION TRANSFORMERS ET3U 4001 4 6,1 65 325 7,98 5,46 91,15 37 ET3U 5001 5 5,5 76 346 6,93 4,8 92,15 42 ET3U 6301 6,3 4,2 79 395 6,22 4,5 93 47 ET3U 8001 8 4,2 101 450 5,56 4 93,53 70 ET3U 1002 10 4,1 116 534 5,3 3,93 93,9 85 ET3U 1602 16 3,7 168 685 4,3 3,39 94,88 110 ET3U 2002 20 3,5 203 771 3,86 3,08 95,33 130 ET3U 2502 25 3,3 249 919 3,8 3,1 95,48 160 ET3U 3152 31,5 3,3 293 1104 3,64 2,99 95,68 190 ET3U 4002 40 3,2 324 1430 3,7 3,18 95,75 230 ET3U 5002 50 2,7 388 1446 2,98 2,73 96,42 250 ET3U 6302 63 2,5 462 1685 2,83 2,65 96,59 280 ET3U 8002 80 2,5 568 1947 2,47 2,55 97,25 350 ET3U 1003 100 2,2 667 2132 2,2 2,51 96,42 420 ET3U 1603 160 1,8 883 3004 1,9 2,65 97,63 610 ET3U 2003 200 1,7 1010 3650 1,88 2,95 97,68 630 ET3U 2503 250 1,8 1386 3705 1,48 2,26 98,02 680 ET3U 3203 320 2,3 1653 6784 2,40 4,60 97,2 1000 ET3U 5003 500 2,4 1840 10858 2,2 6,98 97,4 1100 ET3U 6303 630 0,7 1185 13245 2,16 6,49 97,6 1350 ET3U 8003 800 0,2 1183 14638 1,60 5,13 98,3 1800 ET3U 1004 1000 0,2 1735 14909 1,38 4,78 98,4 1900 ET3U 1204 1200 0,2 1905 13514 1,1 3,4 98,7 2700 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 36 FOR MECHANICAL DATA T-2 8

TRANSFORMERS AUTO TRANSFORMERS Auto transformers are used to change the level of voltage without providing galvanic isolation. They are an economical alternative to isolating transformers. Input and output voltages may vary up to 3000V and they possibily include voltage taps or shielding wndings. Power ratings of these transformers go up to 1600kVA. The electrical connection is done via terminal blocks or bars. Any vectoral connection type is availiable on request MAIN FEATURES OF ELEKTRA AUTO TRANSFORMERS Highly permeable iron core High quality copper or aluminium windings Class 1 transformer Excellent Insulation Low losses, high efficiency Vacuum impregnated varnish to ensure silent and moisture-immune operation CE sign and compatibility with EN 60076, EN 61558-2-13 and suitable subclauses Manufactured under ISO 9001 quality management system INDUSTRIAL APPLICATIONS Motor Starting, Voltage Regulation, Energy saving circuits 9

TRANSFORMERS MONO PHASE AUTO TRANSFORMERS Model No Power(kVA) Weight(kg) Voltage(V) Dimension(mm) Connections(mm) A B C H D E F ETA2U 8001 8 28 400/230 240 175 140 365 130 15x10 ETA2U 1002 10 32 400/230 240 181 140 365 135 15x10 ET2AU 1602 16 45 400/230 280 205 170 405 163 16x22 ETA2U 2002 20 50 400/230 280 211 170 405 171 16x22 ETA2U 5002 50 110 400/230 360 256 255 515 205 16x22 ETA2U 8002 80 150 400/230 400 220 280 570 180 16x22 ETA2U 1003 100 170 400/230 400 245 280 570 205 16x22 ETA2U 2003 200 290 400/230 500 315 395 670 275 16x22 ETA2U 2503 250 330 400/230 500 340 395 670 300 16x22 ETA2U 3203 320 450 400/230 650 285 500 245 760 16x22 ETA2U 4003 400 660 400/230 650 315 500 275 760 16x22 THREE PHASE AUTO TRANSFORMERS ETA3U 8001 8 6,1 400/230 300 155 224 315 120 15x10 ETA3U 1002 10 5,5 400/230 300 170 224 315 135 15x10 ETA3U 1602 16 4,2 400/230 360 176 264 365 145 15x10 ETA3U 2002 20 4,2 400/230 420 196 320 415 156 16x22 ETA3U 5002 50 4,1 400/230 480 260 400 465 218 16x22 ETA3U 8002 80 4,1 400/230 540 215 400 515 175 15x20 ETA3U 1003 100 3,7 400/230 540 245 400 515 205 15x20 ETA3U 2003 200 3,5 400/230 800 255 570 720 215 15x20 ETA3U 2503 250 3,3 400/230 800 285 570 720 245 15x20 ETA3U 3203 320 3,3 400/230 800 305 570 720 265 15x20 ETA3U 4003 400 3,2 400/230 1050 255 820 215 760 15x20 ETA3U 5003 500 2,7 400/230 1050 305 820 265 760 15x20 Products with customized dimensions, power ratings and connection types can be produced 10

TRANSFORMERS MEDICAL TRANSFORMERS Medical transformers used for isolating systems in purpose of maintaining human safety and protecting sensitive medical equipments in hospitals and medical clinics. Therefore these transformers are designed and built to meet the specifications for these places. The IEC 61558-2-15 standard describes the additional specifications. Medical transformers can be produced according to the customers voltage requests. Different voltage ratings for different regions are applicable. MAIN FEATURES OF ELEKTRA MEDICAL TRANSFORMERS Much lower inrush current (lr < 8xln) Much better voltage regulation (Uk < 3% ln) Much lower no-load current (lo < 3% ln) Near-zero leakage current (<200uA) A specific center tap to provide means to watch isolation level Mounted PTC to monitor the temperature levels of the transformers Varnished under vacuum to obtain silent duty with high moisture resistance Manufactured under ISO 9001 quality management system 11

TRANSFORMERS Model No Power(kVA) Input-Output Voltage(V) MONO PHASE MEDICAL TRANSFORMERS UK No Load Current(%) Inrush Current Core Losses(W) Winding Losses(W) Temperature Rise(K) ETM 0322 3,2 230/230 2,60 2,9 7,04 64 95 32 ETM 0322 3,2 400/230 2,60 2,9 7,12 64 65 32 ETM 0402 4 230/230 2,70 2,8 4,04 61 120 32 ETM 0402 4 400/230 2,59 2,7 1,82 63 120 32 ETM 0502 5 230/230 2,55 2,7 9,84 88 148 34 ETM 0502 5 400/230 2,64 2,4 9,86 82 151 35 ETM 0632 6,3 230/230 2,63 2,3 10,83 99 195 38 ETM 0602 6,3 400/230 2,51 2,3 10,93 100 184 37 ETM 0802 8 230/230 2,47 2,1 8,48 114 223 40 ETM 0802 8 400/230 2,39 2,2 9,66 118 215 40 ETM 1002 10 230/230 2,71 2,6 10,66 166 342 44 ETM 1002 10 400/230 2,77 2,3 10,49 161 367 47 THREE PHASE MEDICAL TRANSFORMERS ETM3 0322 3,2 3*400/3*400 2,93 2,9 5,11 66 91 26 ETM3 0632 6,3 3*400/3*400 2,9 2,9 5,35 127 221 35 ETM3 0802 8 3*400/3*400 2,56 2,9 5,78 159 241 35 ETM3 1002 10 3*400/3*400 2,58 2,9 7,11 200 311 37 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 37 FOR MECHANICAL DATA T-3 12

LOW VOLTAGE REACTORS All Elektra Reactors are Type Test Reported by Accredited Laboratory 13

POWER FACTOR CORRECTION SYSTEMS In order to make a sustainable prevention in increase of the harmonic currents and harmonic voltage distortions in the harmonic intense environment, the power factor correction(pfc) systems should be maintained with filters. Harmonic filter reactors are placed between the power capacitors and mains in the filtered power factor correction systems. The reactance within the PFC systems which include the capacitors and reactors is higher than the one that only includes capacitors without reactors. Due to the incrementing reactance, capacitors current is reduced in the systems that contain harmonic voltage distortions. Since the serial resonance frequency of the capacitor and the reactor is conserved within a secure level considering the harmonic generation of a facility, resonance in the harmonic frequency between the PFC system and the mains is prevented. Although the general architecture of the system seems to be simple, the dimensioning and the correct component selection requires high quality engineering and experience. In order to maintain a sustainable work performance and observe expected benefits, the resonance frequency should be carefully handled. This requires proper capacitor selection, suitable harmonic filter reactor-capacitor matching, and well-designed panel that should endure to the temperature rise due to the heating in harmonic filter reactor and capacitor. On the other hand reactive power compensation is commonly perceived as using capacitor banks to compensate for the reactive energy consumption of inductive loads such as motors. However, in some cases, load characteristics may become capacitive and the excess reactive energy in the system should be compensated using inductive load banks, called SHUNT REACTORS. Capacitive load characteristics are commonly observed at power lines, residential and commercial areas as well as data centers where uninterruptible power supplies (UPS) are heavily used. Utilization of underground power lines becomes more popular as the cable technology progresses. Underground power cables comprise dielectric materials for insulation, which allow them to withstand medium and high voltages, however cause a significant capacitive impact on the system. Especially, cables longer than a few kilometers produce substantial reactive power. Since most of the loads fed through these cables are inductive and cable itself has an inductance, their capacitive effect is negligible under full load. However under reduced or no-load operation, their capacitive behavior becomes significant, such that the ratio of reactive power to real power may exceed the legislation limits. This results in high penalties especially on installations where reactive power measurement period is one day or shorter. 14

HARMONIC FILTER REACTORS LV REACTORS Detuned Harmonic Filter Reactors, are used in series with capacitor banks in power factor correction units. By using these types of detuned reactors it is possible to avoid following negative effects on system. Overcurrent during switching on the capacitor banks Overload of capacitor banks because of the harmonic resonance. Short lifetime on capacitors Overheating of the utility transmission cables. Overheating of the distribution transformer. Unintended triggering of the protective devices. Distortion of utility voltage waveform and problems on voltage sensitive devices Interferences on data transmission systems Unexplainable faults in electronic boards Chosing the correct detuned filter reactor and capacitor value on detuned power factor correction systems is very important. To obtain optimum performance form a detuned power factor correction system following criteria must be controlled and met during the pairint of the reactors and capacitors. CHOOSING CORRECT HARMONIC FILTER REACTOR The resonance frequency must be chosen according to harmonic analysis of the system The voltage across the terminals of the capacitor will increase because of the inductive reaction of the rector. The rated voltage of the capacitors must be chosen according to the resonance frequency. In detuned power factor correction systems, presence of higher voltage rated capacitors and reactors causes a difference between rated capacitor power and obtained reactive power. The obtained power must be calculated in order to avoid low compensation. The reactors will genereate extensive heat due to heavy harmonic load. The cabinets must be designed to disperse this heat. U 3 = 0,5% U R U 5 = 5,0% U R Harmonics U 7 = 5,0% U R U 11 = 3,5% U R U 13 = 3,0% U R 2 2 Effective Current I rms = (I 1 + I 3 I 132 ) All Elektra harmonic filter reactors have CE sign, produced according to 61558-2-20 standards, and tested in accretedited laboratory 15

Harmonic Filter Reactors / p=7% 189Hz 400V/50Hz / Linearity > 1,73 x I rms Model No Power(kVAr) Inductance(mH) I 1 (A) I rms (A) Losses(W) ERH 7/400/2,5 2,50 15,33 3,61 3,81 42 ERH 7/400/6,25 6,25 6,13 9,03 9,53 69 ERH 7/400/10 10 3,84 14,44 15,25 73 ERH 7/400/12,5 12,50 3,07 18,05 19,06 75 ERH 7/400/20 20 1,92 28,88 30,50 110 ERH 7/400/25 25 1,53 36,10 38,12 133 ERH 7/400/40 40 0,96 57,76 61,00 195 ERH 7/400/50 50 0,77 72,20 76,25 210 ERH 7/400/75 75 0,51 108,30 114,38 290 ERH 7/400/100 100 0,38 144,40 152,51 370 LV REACTORS Harmonic Filter Reactors / p=5,67% 210Hz 400V/50Hz / Linearity > 2,08 x I rms ERH 5,67/400/2,5 2,50 12,25 3,83 4,59 48 ERH 5,67/400/6,25 6,25 4,9 9,56 11,48 73 ERH 5,67/400/10 10 3,06 15,30 18,36 85 ERH 5,67/400/12,5 12,5 2,45 19,13 22,95 89 ERH 5,67/400/20 20 1,53 30,60 36,72 125 ERH 5,67/400/25 25 1,22 38,25 45,91 140 ERH 5,67/400/40 40 0,77 61,20 73,45 230 ERH 5,67/400/50 50 0,61 76,50 91,81 290 ERH 5,67/400/75 75 0,41 114,75 137,72 310 ERH 5,67/400/100 100 0,31 153,00 183,62 425 Harmonic Filter Reactors / p=14% 134Hz 400V/50Hz / Linearity > 1,37 x I rms ERH 14/400/2,5 2,5 33,16 3,83 3,85 44 ERH 14/400/6,25 6,25 13,27 9,56 9,63 68 ERH 14/400/10 10 8,29 15,30 15,41 90 ERH 14/400/12,5 12,5 6,63 19,13 19,26 108 ERH 14/400/20 20 4,15 30,60 30,81 120 ERH 14/400/25 25 3,32 38,25 38,52 145 ERH 14/400/40 40 2,07 61,20 61,63 218 ERH 14/400/50 50 1,66 76,50 77,04 230 ERH 14/400/75 75 1,11 114,75 115,55 350 ERH 14/400/100 100 0,83 153,00 154,07 415 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 38 FOR MECHANICAL DATA R-1 16

SHUNT REACTORS LV REACTORS Shunt reactors are mainly used in places with long power transmission and distribution lines. Especially for supplying telecomunication stations in urban areas like radio, GSM and TV transmitters with electricity, long overland cables must be used. These cables have a capacitive characteristic at longer distances. This capacitive characteristic causes the system to become overcompensated. This results in penalties in electricity bills because of high capacitive demand. Furthermore this capacitive characteristic causes the line voltage to increase and may damage sensetive equipment connected to it.this problem can also be observerd in industrial zones, wide campuses, solar farms etc. The solution for this problem is loading the system inductively with shunt reactors. These reactors can be used single or three phased. They will utilize necessary inductive load for the system to stop overcompensation. MAIN FEATURES OF ELEKTRA SHUNT REACTORS One of three phase, Highly permeable iron core, High quality copper or aluminium windings, Thermal fuse protection against overheating in all phases, Low losses, high efficiency, Vacuum impregnated varnish to ensure silent and moisture-immune operation CE sign and compatibility with EN 61558-1, EN 61558-2-20 and suitable subclauses Manufactured under ISO 9001 quality management system INDUSTRIAL APPLICATIONS Telecummunications stations in urban areas like radio, GSM and TV transmitters. Places with large areas like industrial zones, wide campuses, solar farms. Inductive load systems. 17

MONO PHASE SHUNT REACTORS Model No Number of phases Power(kVAr) Inductance(mH) Current(A) Weight(kg) ERS1-230/0,1 1 0,1 1523 0,46 1,5 ERS1-230/0,25 1 0,25 672 1,1 1,9 ERS1-230/0,5 1 0,5 338 2,17 3,3 ERS1-230/1 1 1 168 4,35 5,4 ERS1-230/1,5 1 1,5 103 6,82 9 LV REACTORS ERS1-230/2,5 1 2,5 67 10,9 14 ERS1-230/5 1 5 33,7 21,7 17,7 THREE PHASE SHUNT REACTORS ERS3-400/1 3 1 505 1,45 6,4 ERS3-400/1,5 3 1,5 336 2,2 9,1 ERS3-400/2 3 2 252 2,9 11,4 ERS3-400/2,5 3 2,5 203 3,6 11,8 ERS3-400/3 3 3 166 4,35 20 ERS3-400/5 3 5 100 7,2 23,3 ERS3-400/7,5 3 7,5 67,5 10,9 30,8 ERS3-400/10 3 10 51 14,5 39,9 ERS3-400/12,5 3 12,5 40 18 50 ERS3-400/15 3 15 33,6 22 54 ERS3-400/20 3 20 25,5 29 78 ERS3-400/25 3 25 20,4 36,3 90 ERS3-400/30 3 30 16,6 43,5 95 ERS3-400/40 3 40 12,75 58 120 ERS3-400/50 3 50 10,2 72,5 168 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 39 FOR MECHANICAL DATA R-2 18

LINE REACTORS LV REACTORS Line reactors are used between variable speed drives and utility. The are used to dampen the harmonic content of the current drawn by the motor drive. Operating voltage is up to 1000V. Maximum design current for these rectors are 2000A. The connections are terminal block, bar or cable connection depending on current value MAIN FEATURES OF ELEKTRA LINE REACTORS Highly permeable iron core, High quality copper or aluminium windings, High linearity, Low losses, high efficiency, Design capability with short-circuit voltage %2 and %4, Vacuum impregnated varnish to ensure silent and moisture-immune operation, CE sign and compatibility with EN 61558-2-20 and suitable subclauses, Manufactured under ISO 9001 quality management system 19

LINE REACTORS UK = %2 Model No Current(A) Inductance(mH) Motor Power(KW) Voltage(V) Frequency(Hz) ERL 400/10/5 10 1,4702 5 400 50 ERL 400/16/7,5 16 0,9188 7,5 400 50 ERL 400/20/10 20 0,7351 10 400 50 ERL 400/32/15 32 0,4594 15 400 50 ERL 400/50/25 50 0,2940 25 400 50 LV REACTORS ERL 400/63/30 63 0,2333 30 400 50 ERL 400/80/37,5 80 0,1837 37,5 400 50 ERL 400/100/50 100 0,1470 50 400 50 ERL 400/125/60 125 0,1176 60 400 50 ERL 400/160/75 160 0,0918 75 400 50 ERL 400/250/120 250 0,0588 120 400 50 ERL 400/400/150 400 0,0367 150 400 50 ERL 400/500/250 500 0,0294 250 400 50 ERL 400/630/300 630 0,023 300 400 50 LINE REACTORS UK = %4 ERL 400/5/2,5/4 5 5,704 2,5 400 50 ERL 400/10/5/4 10 2,852 5 400 50 ERL 400/16/7,5/4 16 1,901 7,5 400 50 ERL 400/20/10/4 20 1,426 10 400 50 ERL 400/32/15/4 32 1,188 15 400 50 ERL 400/50/25/4 50 0,570 25 400 50 ERL 400/63/30/4 63 0,475 30 400 50 ERL 400/80/37,5/4 80 0,380 37,5 400 50 ERL 400/100/50/4 100 0,285 50 400 50 ERL 400/125/60/4 125 0,238 60 400 50 ERL 400/160/75/4 160 0,184 75 400 50 ERL 400/250/120/4 250 0,118 120 400 50 ERL 400/500/250/4 500 0,059 250 400 50 ERL 400/630/300/4 630 0047 300 400 50 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 40 FOR MECHANICAL DATA R-3 20

MOTOR REACTORS LV REACTORS Motor reactors are used between variable speed drives and the motor. They are used to dampen the harmonic content of the voltage generated by the motor drive. Operating voltage is up to 1000V. Maximum design current for these rectors are 2000A. The connections are terminal block, bar or cable connection depending on current value Elektra motor reactors are compatible with international standards and CE signed. Also the reactors are produced under ISO9001 quality management system. MAIN FEATURES OF ELEKTRA MOTOR REACTORS Highly permeable iron core, High quality copper or aluminium windings, High linearity, Design capability for different clock frequencies, Low losses, high efficiency, Vacuum impregnated varnish to ensure silent and moisture-immune operation, CE sign and compatibility with EN 61558-2-20 and suitable subclauses, Manufactured under ISO 9001 quality management system 21

MOTOR REACTORS 4 khz Model No Current(A) Inductance(mH) Motor Power(KW) ERM 400/10/5 10 1,443 5 ERM 400/12,5/6 12,5 1,155 6 ERM 400/16/7,5 16 0,902 7,5 ERM 400/25/15 25 0,577 15 ERM 400/40/25 40 0,361 25 ERM 400/50/30 50 0,289 30 ERM 400/80/50 80 0,180 50 ERM 400/100/60 100 0,144 60 ERM 400/125/75 125 0,115 75 ERM 400/200/110 200 0,072 110 ERM 400/225/132 225 0,058 132 ERM 400/410/250 410 0,036 250 ERM 400/515/300 515 0,029 300 ERM 400/630/350 630 0,023 350 LV REACTORS MOTOR REACTORS 12 khz ERM 400/20/10/12 20 0,241 10 ERM 400/25/15/12 25 0,192 15 ERM 400/40/25/12 40 0,120 25 ERM 400/50/30/12 50 0,096 30 ERM 400/80/37,5/12 80 0,060 50 ERM 400/100/60/12 100 0,048 60 ERM 400/125/75/12 125 0,038 75 ERM 400/200/110/12 200 0,024 110 ERM 400/270/150/12 270 0,019 150 ERM 400/330/180/12 330 0,015 180 ERM 400/410/250/12 410 0,012 250 ERM 400/515/300/12 515 0,010 300 ERM 400/630/350/12 630 0,008 350 Products with customized dimensions, power ratings and connection types can be produced SEE PAGE 41 FOR MECHANICAL DATA R-4 22

DISCHARGE REACTORS LV REACTORS In a volatile reactive power environment, discharge reactors reduced discharge time and increase the life-time of the capacitors in a power factor correction system. MAIN FEATURES OF ELEKTRA DISCHARGE REACTORS Reduces discharge time of capacitors for fast changing reactive power demands Low Loss Compact Design Up to 100 kvar discharging Up to 690V operation voltage Din Rail mountable shockproof casin CE sign and manufactured under ISO 9001 quality management system Discharge Time 230 V 400-525 V 525-690 V 690-800 V up to 25 kvar < 10 s up to 50 kvar < 20 s up to 100 kvar < 40 s up to 25 kvar < 5 s up to 50 kvar < 10 s up to 100 kvar < 20 s up to 25 kvar < 3 s up to 50 kvar < 6 s up to 100 kvar < 12 s up to 25 kvar < 2,5 s up to 50 kvar < 5 s up to 100 kvar < 10 s 23

LOW VOLTAGE & MEDIUM VOLTAGE POWER CAPACITORS 24

ELEKTRA LOW VOLTAGE CAPACITORS Between 1.0 kvar and 30 kvar power rating 230V / 400V / 440V / 525V voltage options Elektra LV Capacitors(ECP Serie) are designed for LV applications like power factor correction systems, motor compansation, and filtered power factor correction systems. ELECTRICAL AND MECHANICAL DATA CAPACITORS Up to 30 kvar per capacitor for three-phase applications 135.000 hours service life design High inrush current (Up to 200 x I R ) Output range 1.0... 30 kvar Voltage range 230V... 525 V AC Reduced mounting costs, easy installation and connection Low weight and compact volume Maintenance-free Faston terminals for 1.0 kvar to 2.5 kvar Screw terminals over 2.5 kvar MAIN FEATURES OF ELEKTRA LV CAPACITORS Special designin cylindrical extruded aluminum can Metalized polypropylene film with stacked windings Resin impregnation Three phase, internally Delta connected External discharge resistor Self-Healing Overpressure disconnector Environment friendly; PCB free 25

CAPACITORS FEATURES AND TECHNICAL DETAILS Inrush current I S up to 200 x I R Frequency f 50 Hz Capacitance tolerance % -5% / +10% Overcurrent I max up to 1,3 x I R ye kadar(including total effects of harmonics, overvoltages and capacitance) Losses: - Dielectric, - Total W/kVAr < 0.2 W/kVAr < 0.45 W/kVAr (without discharge resistor) Overvoltage V max V R + 10% (up to 8 h daily) / V R + 15% (up to 30 min daily) V R + 20% (up to 5 min daily) / V R + 30% (up to 1 min daily) Test voltage, terminal / terminal Test voltage, terminal / body V V 2,15 x V R AC, 2 sec. 3000 V AC, 10 sec Design life saat up to 135.000 h Number of switching operations Ambient temperature Cooling 0 C max 5000 switchings per year according to IEC 60831-1+2 max. temperature 55 0 C min. temperature -25 0 C natural or forced CAPACITORS Humidity % max. 95% Altitude m max. 2000m above sea level Standards IEC 60831-1+2 Discharge Resistor 75V in 3 min 26

LV CAPACITORS CAPACITORS Model No Voltage Power(kVAr) Current(A) Capacitance (µ) Dimensions(d x h) Weight(kg) Mono Phase Capacitors (230V, 50 Hz, delta connection) ECP1 230/0,25 230 0,25 1,9 1 x 15 65 x 100 0,4 ECP1 230/0,50 230 0,50 2,2 1 x 30 65 x 100 0,4 ECP1 230/1,0 230 1,0 4,4 1 x 60 65 x 112 0,4 ECP1 230/1,5 230 1,5 6,5 1 x 90 70 x 112 0,7 ECP1 230/2,5 230 2,5 10,9 1 x 150 70 x 112 0,7 ECP1 230/5,0 230 5,0 21,7 1x 301 75 x 247 0,9 Three Phase Capacitors (400V, 50 Hz, delta connection) ECP3-400 / 1,0 400 1 1,4 3 x 6,6 65 x 95 0,4 ECP3-400 / 1,5 400 1,5 2,2 3 x 9,9 65 x 110 0,4 ECP3-400 / 2,5 400 2,5 3,6 3 x 16,6 65 x 172 0,7 ECP3-400 / 5,0 400 5 7,2 3 x 33,3 65 x 172 0,7 ECP3-400 / 7,5 400 7,5 10,8 3 x 50 65 x 210 0,9 ECP3-400 / 10,0 400 10,0 14,4 3 x 66,7 70 x 210 0,9 ECP3-400 / 12,5 400 12,5 18,0 3 x 83,3 70 x 247 1 ECP3-400 / 15,0 400 15,0 21,7 3 x 100 75 x 247 1,6 ECP3-400 / 20,0 400 20 28,1 3 x 133,3 85 x 247 1,8 ECP3-400 / 25,0 400 25 36,1 3 x 166,7 100 x 247 2 ECP3-400 / 30,0 400 30 43,2 3 x 200 100 x 285 2,2 Three Phase Capacitors (440V, 50 Hz, delta connection) ECP3-440 / 1,0 440 1 1,3 3 x 5,5 65 x 95 0,4 ECP3-440 / 1,5 440 1,5 2,0 3 x 8,3 65 x 110 0,4 ECP3-440 / 2,5 440 2,5 3,3 3 x 13,7 65 x 172 0,7 ECP3-440 / 5,0 440 5 6,6 3 x 27,5 65 x 172 0,7 ECP3-440 / 7,5 440 7,5 9,9 3 x 41,2 65 x 210 0,9 ECP3-440 / 10,0 440 10,0 13,1 3 x 55 70 x 210 0,9 ECP3-440 / 12,5 440 12,5 16,4 3 x 69 70 x 247 1 ECP3-440 / 15,0 440 15,0 19,7 3 x 82 75 x 247 1,6 ECP3-440 / 20,0 440 20 26,3 3 x 109,7 85 x 247 1,8 ECP3-440 / 25,0 440 25 32,8 3 x 137,1 100 x 247 2 ECP3-440 / 30,0 440 30 39,4 3 x 164 100 x 247 2,2 Three Phase Capacitors (525V, 50 Hz, delta connection) ECP3-525 / 20,0 525 20 22 3 x 77,1 85 x 247 1,8 ECP3-525 / 25,0 525 25 27,5 3 x 96,3 100 x 247 2 ECP3-525 / 30,0 525 30 33 3 x 116 100 x 247 2,2 ECP3-525 / 40,0 525 40 44 3 x 154,1 100 x 285 2,2 27

HARMONIC FILTER - CAPACITOR SELECTION TABLE Step Power(kVAr) Reactor Capacitor P=%7 (189 Hz) 400 V Mains Voltage 50 Hz 6,25 ERH 7/400/6,25 ECP3-440 / 7,5 10 ERH 7/400/10 ECP3-440 / 10 + ECP3-440 / 1,5 12,5 ERH 7/400/12,5 ECP3-440 / 15 20 ERH 7/400/20 ECP3-440 / 10 + ECP3-440 / 12,5 25 ERH 7/400/25 ECP3-440 / 30 40 ERH 7/400/40 ECP3-440 / 30 + ECP3-440 / 15 50 ERH 7/400/50 2 x ECP3-440 / 30 75 ERH 7/400/75 3 x ECP3-440 / 30 100 ERH 7/400/100 4 x ECP3-440 / 30 P=%5,67 (210 Hz) 400 V Mains Voltage 50 Hz 6,25 ERH 5,67/400/6,25 ECP3-440 / 7,5 10 ERH 5,67/400/10 ECP3-440 / 10 + ECP3-440 / 1,5 12,5 ERH 5,67/400/12,5 ECP3-440 / 15 20 ERH 5,67/400/20 ECP3-440 / 10 + ECP3-440 / 12,5 25 ERH 5,67/400/25 ECP3-440 / 30 CAPACITORS 40 ERH 5,67/400/40 ECP3-440 / 30 + ECP3-440 / 15 50 ERH 5,67/400/50 2 x ECP3-440 / 30 75 ERH 5,67/400/75 3 x ECP3-440 / 30 100 ERH 5,67/400/100 4 x ECP3-440 / 30 p=%14 (134 Hz) 400 V Mains Voltage 50 Hz 12,5 ERH 14/400/12,5 ECP3-525 / 20 20 ERH 14/400/20 ECP3-525 / 30 25 ERH 14/400/25 ECP3-525 / 40 40 ERH 14/400/40 2 x ECP3-525 / 30 50 ERH 14/400/50 2 x ECP3-525 / 40 75 ERH 14/400/75 3 x ECP3-525 / 40 100 ERH 14/400/100 4 x ECP3-525 / 40 28

MEDIUM VOLTAGE CAPACITORS These units are special capacitors designed to be used for power factor correction systems at medium voltage levels (up to 34.5 kv). The dielectric material is low loss polypropylene film. An adequate amount of capacitor elements, chosen according to power and voltage level, are connected in series and parallel. The unit is impregnated with an environmentally harmless impregnation substance. This way, in an unlikely event of failure, the leaking material will not be harmful. Sinhle phase and three phase units are available at given voltage levels below. CAPACITORS Voltage Levels (kv) Over Voltage Mono Phase 3, 3.3, 6.3, 6.6, 7.2, 10.5 Three Phase 6.3, 10.5, 15.8, 20, 31.5, 33, 34.5 8 hours/day 1.1 Un 30 minutes/day 1.15 Un 5 minutes/200 times 1.2 Un 1 minute/200 times 1.25 Un Temperature Category Ambient Temperature -25/50 C o 40 C o 152 mm 60 kv BIL 185 mm 75 kv BIL Bushings 225 mm 95 kv BIL 152 mm 125 kv BIL 185 mm 150 kv BIL 225 mm 170 kv BIL 29

MEDIUM VOLTAGE REACTORS 30

MV IRON CORE HARMONIC FILTER REACTORS These units are iron cored detuned filter reactors to be used at medium voltage power factor correction applications up to 12kV. Detuned filters are power factor correction units with anti-resonance reactors connected in series with capacitor steps. The low impedance at 50 Hz and high impedance at common harmonic frequencies allows them to effectively protect the capacitor banks against the harmful effects of harmonics, while retaining the reactive power compensation function. Iron core medium voltage detuned reactors are mainly used at applications where space is limited. In some cases they may present a more economical solution than an air cored counterpart. These units are designed for indoor use only. MAIN FEATURES OF ELEKTRA MV IRON CORE HARMONIC FILTER REACTORS MV REACTORS Highly permeable iron core, High quality copper or aluminium windings, High linearity, Low losses, high efficiency, Vacuum impregnated varnish to ensure silent and moisture-immune operation, CE sign and compatibility with EN 60076-11 and suitable subclauses, Manufactured under ISO 9001 quality management system TYPE TEST REPORTED ITEM *12kV, %7, 135A, 13.8 mh, 2500 kvar iron core reactor is type test reported by accredited laboratory 31

MV AIR CORE HARMONIC FILTER REACTORS These units are iron cored detuned filter reactors to be used at medium voltage power factor correction applications up to 34.5kV. Air core reactors have similar electrical characteristics as iron core reactors, but they lack an iron core. These reactors make up for the lack of magnetic material by having more turns in windings, thus resulting in larger dimensions. Since it is very hard to actually saturate air, these type reactors have excellent linearity, maintaining same amount of inductance value, regardless of current. Air core reactors can be used independently, or they can be mounted on top of each other. MAIN FEATURES OF ELEKTRA MV AIR CORE HARMONIC FILTER REACTORS High quality copper or aluminium windings, High linearity, Low losses, high efficiency, Vacuum impregnated varnish to ensure silent and moisture-immune operation, CE sign and compatibility with EN 60076-11 and suitable subclauses, Manufactured under ISO 9001 quality management system MV REACTORS 32

CURRENT LIMITING REACTORS Current limiting reactors for medium voltage applications up to 34.5kV are used to dampen the transient current spikes that happen during the turn on of various electrical components and machines. Most common example is the power factor correction capacitors. During the initial charging of these capacitors a very large current spike occurs. These reactors, when connected in series with a capacitor bank, prevent this spike, thus preventing protection devices from kicking in and shutting the system down. Furthermore the additional impedance provided by these units can be used to reduce the short circuit current of the system, allowing for circuit breakers with lower short circuit capacity to be used. Air core reactors can be used independently, or they can be mounted on top of each other. MAIN FEATURES OF ELEKTRA CURRENT LIMITING REACTORS MV REACTORS Aluminium windings, High linearity, Low losses, high efficiency, UV proctected epoxy varnish for outdoor duty, CE sign and compatibility with EN 60076-11 and suitable subclauses, Manufactured under ISO 9001 quality management system 33

MECHANICAL DATA 34

T-1 Control Transformers MECHANICAL DATA Model No A(mm) B(mm) C(mm) D(mm) F(mm) H(mm) Weight(kg) ETC 0025 230-400/24 66 76 50 64 5x8 80 1,0 ETC 0040 230-400/24 66 76 50 64 5x8 85 1,30 ETC 0050 230-400/24 84 76 64 64 5x8 91 1,50 ETC 0075 230-400/24 84 76 64 64 5x8 91 1,70 ETC 0100 230-400/24 84 76 64 64 5x8 91 1,90 ETC 0160 230-400/24 96 89 84 74 6x9 99 2,40 ETC 0200 230-400/24 96 89 84 74 6x9 99 3,00 ETC 0250 230-400/24 96 102 84 87 6x9 99 3,40 ETC 0320 230-400/24 120 122 90 109 6x9 127 4,50 ETC 0500 230-400/24 120 122 90 109 6x9 127 6,70 ETC 0630 230-400/24 150 113 122 89 7x13 141 7,90 ETC 0800 230-400/24 150 129 122 104 7x13 141 10,30 ETC 1000 230-400/24 150 153 122 128 7x13 141 14,40 ETC 1300 230-400/24 192 144 130 126 6x12 200 21,50 ETC 1600 230-400/24 192 166 130 148 6x12 200 24,20 ETC 2000 230-400/24 192 178 130 160 6x12 200 26,80 ETC 2500 230-400/24 192 193 130 175 6x12 200 28,50 ETC 0025 230-400/230 66 76 50 64 5x8 80 1 ETC 0040 230-400/230 66 76 50 64 5x8 85 1,3 ETC 0050 230-400/230 84 76 64 64 5x8 91 1,50 ETC 0075 230-400/230 84 76 64 64 5x8 91 1,70 ETC 0100 230-400/230 84 76 64 64 5x8 91 1,90 ETC 0160 230-400/230 96 89 84 74 6x9 99 2,60 ETC 0200 230-400/230 96 89 84 74 6x9 99 3,00 ETC 0250 230-400/230 96 102 84 87 6x9 99 3,60 ETC 0320 230-400/230 120 122 90 109 6x9 127 4,50 ETC 0500 230-400/230 120 122 90 109 6x9 127 7,30 ETC 0630 230-400/230 150 113 122 89 7x13 141 7,80 ETC 0800 230-400/230 150 129 122 104 7x13 141 9,50 ETC 1000 230-400/230 150 153 122 128 7x13 141 14,40 ETC 1300 230-400/230 192 144 130 126 6x12 200 22,50 ETC 1600 230-400/230 192 166 130 148 6x12 200 24,00 ETC 2000 230-400/230 192 178 130 160 6x12 200 27,00 ETC 2500 230-400/230 192 193 130 175 6x12 200 27,60 MECHANICAL DATA 35

Isolation Transformers T-2 MECHANICAL DATA Mono Phase Isolation Transformers Model No A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) H(mm) Weight(kg) ET2U 4001 240 175 140 130 15x10 365 28 ET2U 5001 240 181 140 135 15x10 365 32 ET2U 1002 280 211 170 171 16x22 405 50 ET2U 2002 320 275 200 233 16x22 470 100 ET2U 2502 360 256 255 205 16x22 515 110 ET2U 3152 360 275 255 225 16x22 515 120 ET2U 5002 400 245 280 205 16x22 570 170 ET2U 8002 500 285 395 245 16x22 670 250 Three Phase Isolation Transformers ET3U 4001 300 155 224 120 15x10 315 37 ET3U 5001 300 160 224 135 15x10 315 42 ET3U 6301 360 153 264 121 15x10 365 47 ET3U 8001 360 176 264 145 15x10 365 70 ET3U 1002 420 196 320 156 16x22 415 85 ET3U 1602 480 216 400 173 16x22 465 110 ET3U 2002 480 235 400 193 16x22 456 130 ET3U 2502 480 260 400 218 16x22 465 160 ET3U 3152 480 275 400 233 16x22 460 190 ET3U 4002 540 215 400 175 16x22 515 230 ET3U 5002 540 245 400 205 16x22 515 250 ET3U 6302 600 245 500 205 16x22 570 280 ET3U 8002 600 270 500 230 16x22 570 350 ET3U 1003 800 255 570 215 16x22 670 420 ET3U 1603 800 305 570 265 16x22 670 610 ET3U 2003 1050 255 820 215 760 16x22 630 ET3U 2503 750 500 820 265 790 16x22 750 ET3U 3203 1380 470 880 550 970 16x22 1000 ET3U 5003 1380 470 880 550 970 16x22 1100 ET3U 6303 1440 480 880 550 1090 16x22 1350 ET3U 8003 1500 500 880 550 1270 16x22 1800 ET3U 1004 1530 510 880 550 1290 16x22 1900 ET3U 1204 1575 525 880 550 1350 16x22 2700 * Terminal Blocks are not assembed when bar terminals used * Consİder H values instead of E for the bar terminal output products Mono Phase Mono & Three Phase Three Phase 36 MECHANICAL DATA

T-3 Medical Transformers MECHANICAL DATA Mono Phase Medical Transformers Model No A(mm) B(mm) C(mm) D(mm) F(mm) H(mm) Weight(kg) ETM 0322 250 195 140 153 10x15 365 40,00 ETM 0402 280 200 170 156 10x15 415 45,00 ETM 0502 280 207 170 163 10x15 415 47,00 ETM 0632 280 220 170 176 10x15 415 53,00 ETM 0802 280 225 170 181 10x15 415 57,00 ETM 1002 320 253 200 213 10x15 465 76,00 Three Phase Medical Transformers ETM3 0322 420 200 320 156 15x20 420 37,00 ETM3 0632 420 215 320 171 15x20 420 42,00 ETM3 0802 420 230 320 186 15x20 420 47,00 ETM3 1002 480 235 400 193 15x20 460 70,00 Mono Phase Mono & Three Phase Three Phase MECHANICAL DATA 37

Harmonic Filter Reactors R-1 MECHANICAL DATA p=%7 189Hz 400V/50Hz Model No A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) H(mm) Weight(kg) ERH 7/400/2,5 120 60 95 52 5x10 120 3,50 ERH 7/400/6,25 150 105 110 56 5x10 160 4,60 ERH 7/400/10 180 126 135 68 5x10 180 7,60 ERH 7/400/12,5 180 135 135 78 5x10 210 10,10 ERH 7/400/20 240 120 185 78 5x10 270 11,60 ERH 7/400/25 240 126 185 78 210 10x15 11,90 ERH 7/400/40 240 145 185 98 210 10x15 17,30 ERH 7/400/50 264 155 200 105 250 10x15 21,20 ERH 7/400/75 300 185 224 120 265 10x15 29,00 ERH 7/400/100 360 195 255 125 310 10x15 42,50 p=%5,67 210Hz 400V/50Hz ERH 5,67/400/2,5 120 60 95 52 5x10 120 3,50 ERH 5,67/400/6,25 180 94 135 74 5x10 150 6,00 ERH 5,67/400/10 180 105 135 85 5x10 181 8,50 ERH 5,67/400/12,5 180 115 135 94 5x10 181 9,50 ERH 5,67/400/20 200 105 185 80 10x15 252 13,00 ERH 5,67/400/25 200 125 185 100 10x15 252 17,00 ERH 5,67/400/40 220 150 200 110 247 10x15 24,00 ERH 5,67/400/50 250 154 224 119 252 10x15 31,00 ERH 5,67/400/75 300 148 224 114 310 10x15 39,00 ERH 5,67/400/100 360 166 264 134 310 10x15 53,00 p=%14 134Hz 400V/50Hz ERH 14/400/2,5 150 90 110 70 5x10 151 4,00 ERH 14/400/6,25 180 105 135 85 5x10 181 9,00 ERH 14/400/10 180 115 135 94 5x10 181 10,00 ERH 14/400/12,5 228 120 175 78 10x15 220 12,50 ERH 14/400/20 200 125 185 100 10x15 252 16,00 ERH 14/400/25 220 155 200 110 220 10x15 19,00 ERH 14/400/40 300 200 224 116 250 10x15 33,00 ERH 14/400/50 300 220 224 135 255 10x15 42,00 ERH 14/400/75 360 166 264 138 310 10x15 55,00 ERH 14/400/100 360 193 264 174 310 10x15 67,00 38 MECHANICAL DATA

R-2 SHUNT REACTORS MECHANICAL DATA Mono Phase Shunt Reactors Model No A(mm) B(mm) C(mm) D(mm) H(mm) Weight(kg) ERS1 230/0,1 84 76 64 64 70 1,50 ERS1 230/0,25 84 76 77 64 85 2,00 ERS1 230/0,5 96 102 84 86 95 3,30 ERS1 230/1 120 122 90 104 115 5,40 ERS1 230/1,5 150 130 122 105 125 9,00 ERS1 230/2,5 171 131 140 107 165 14,00 ERS1 230/5 200 195 170 102 330 17,70 Three Phase Shunt Reactors ERS3 400/1 180 145 135 78 180 6,40 ERS3 400/1,5 180 167 135 100 180 9,10 ERS3 400/2 240 120 185 80 280 11,40 ERS3 400/2,5 240 120 185 80 280 11,80 ERS3 400/3 240 152 185 112 280 20,10 ERS3 400/5 300 175 224 100 285 23,30 ERS3 400/7,5 300 205 224 117 285 30,80 ERS3 400/10 300 220 224 137 330 39,90 ERS3 400/12,5 360 225 265 137 380 50,00 ERS3 400/15 360 230 265 141 380 54,00 ERS3 400/20 420 265 315 171 450 78,00 ERS3 400/25 420 270 315 180 450 90,00 ERS3 400/30 420 285 315 186 450 95,00 ERS3 400/40 480 290 275 195 500 120,00 ERS3 400/50 540 315 400 206 550 168,00 Mono Phase Mono Phase Three Phase Three Phase MECHANICAL DATA 39

LINE REACTORS R-3 MECHANICAL DATA LINE REACTORS UK = %2 Model No A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) H(mm) Weight(kg) ERL 400/10/5 120 61 90 44 5x10 125 2,70 ERL 400/16/7,5 120 61 90 44 5x10 125 2,90 ERL 400/20/10 120 71 110 54 5x10 125 3,60 ERL 400/32/15 150 75 110 57 5x10 150 4,50 ERL 400/50/25 180 84 135 64 5x10 181 5,70 ERL 400/63/30 180 94 135 74 6x12 181 7,30 ERL 400/80/37,5 240 105 185 80 6x12 252 11,20 ERL 400/100/50 240 105 185 80 6x12 252 12,10 ERL 400/125/60 240 125 185 100 10x15 252 14,00 ERL 400/160/75 240 125 185 100 10x15 252 18,00 ERL 400/250/120 300 145 224 110 255 10x15 28,00 ERL 400/400/150 300 183 224 150 255 10x15 35,00 ERL 400/500/250 360 163 264 129 310 10x15 49,00 ERL 400/630/300 360 178 264 142 310 10x15 58,00 LINE REACTORS UK = %4 ERL 400/5/2,5/4 120 61 90 44 5x10 125 2,00 ERL 400/10/5/4 120 71 110 54 5x10 125 3,00 ERL 400/16/7,5/4 150 75 110 55 5x10 150 4,00 ERL 400/20/10/4 150 90 110 70 5x10 150 4,50 ERL 400/32/15/4 180 94 135 74 5x10 181 6,00 ERL 400/50/25/4 240 105 185 80 6x12 252 13,00 ERL 400/63/30/4 240 125 185 100 6x12 252 16,00 ERL 400/80/37,5/4 240 125 185 100 10x15 252 20,00 ERL 400/100/50/4 240 140 185 115 10x15 252 22,00 ERL 400/125/60/4 300 132 224 97 255 10x15 24,00 ERL 400/160/75/4 300 157 224 122 255 10x15 28,00 ERL 400/250/120/4 360 163 264 129 310 10x15 53,00 ERL 400/500/250/4 420 230 320 186 420 15x20 85,00 ERL 400/630/300/4 420 260 315 216 420 15x20 104,00 40 MECHANICAL DATA

R-4 MOTOR REACTORS MECHANICAL DATA MOTOR REACTORS 4kHz Model No A(mm) B(mm) C(mm) D(mm) E(mm) F(mm) H(mm) Weightkg) ERM 400/10/5 120 61 90 44 5x10 125 2,80 ERM 400/12,5/6 120 61 110 44 5x10 125 3,00 ERM 400/16/7,5 120 71 110 54 5x10 125 3,30 ERM 400/25/15 150 75 110 55 5x10 150 3,90 ERM 400/40/25 150 90 110 70 5x10 150 4,30 ERM 400/50/30 180 84 135 64 5x10 181 5,60 ERM 400/80/50 240 105 185 80 6x12 252 11,00 ERM 400/100/60 240 105 185 80 6x12 252 13,20 ERM 400/125/75 240 125 185 100 10x15 252 15,00 ERM 400/200/110 300 137 224 98 10x15 295 24,00 ERM 400/225/132 300 132 224 97 255 10x15 25,00 ERM 400/410/250 360 148 264 117 310 10x15 43,00 ERM 400/515/300 360 178 264 147 310 10x15 62,00 ERM 400/630/350 420 200 320 156 420 15x20 82,00 MOTOR REACTORS 12 khz ERM 400/20/10/12 120 61 90 44 5x10 125 2,80 ERM 400/25/15/12 120 61 90 44 5x10 125 3,00 ERM 400/40/25/12 150 75 110 55 5x10 150 3,90 ERM 400/50/30/12 150 75 110 55 5x10 150 4,00 ERM 400/80/50/12 150 90 110 70 5x10 150 4,40 ERM 400/100/60/12 180 84 135 64 5x10 181 6,00 ERM 400/125/75/12 180 94 135 74 6x12 181 7,00 ERM 400/200/110/12 240 105 185 80 6x12 252 12,00 ERM 400/270/150/12 240 105 185 80 6x12 252 18,00 ERM 400/330/180/12 240 125 185 100 10x15 252 32,00 ERM 400/410/250/12 240 125 185 100 10x15 252 43,00 ERM 400/515/300/12 300 167 224 120 310 10x15 50,00 ERM 400/630/350/12 360 178 224 142 310 10x15 62,00 MECHANICAL DATA 41

C E R T I F I C A T E awarded to ELEKTRA ELEKTRONIK SANAYI VE TICARET A.Ş. AKÇABURGAZ MAH.155.SOKAK ESENYURT TR-34522, ISTANBUL Turkey TÜV NORD CERT GmbH confirms, as an IRIS approved certification body, that the Management System of the above organization has been assessed and found to be in accordance with the International Railway Industry Standard (IRIS) Revision 02, June 2009 for the activities of Design and Development and Manufacturing for the scopes of certification: 4 (Power system), 6 (Auxiliary systems) manufacturing and design of transformers and reactors for railway applications Certificate valid from: 28/07/2015 Certificate valid until: 27/07/2018* Current date: 23/07/2015 Certificate-Register-No: 44 739 121452 * Providing that the subsequent surveillance audits are successful before the validity date of the previous audit. Certification body address: Am TÜV 1, 30519 Hannover, Germany 2015 UNIFE. All rights reserved. 1/1