Magnet Wire Hermincel 200 C

Magnet Wire Hermincel 200 C Description HERMINCEL is the generic name of multipurpose Magnet Wire produced based on polyester (Amide-Imide) insulation overcoated with polyamideimide. This wire has excellent dielectric and thermal characteristics of resins based on polyester (Amide-Imide) and the advantages of chemical structure of polyamideimide. This wire is manufactured in two insulation thickness Single Film (HS) and Heavy (HD), combination of two resins one as base insulation and the other as overcoat. Wires shape can be round, squared or rectangular. Thermal Class HERMINCEL Magnet Wires of CENTELSA are designed for a Thermal Class of 200 C. Characteristics Thermal stability for a 200 C operation. High resistance to overloads. Easy winding. Resistance to Freon 12 y 22 used in refrigeration motors and compressors. High resistance to abrasion. High dielectric strength even in presence of humidity. High resistance to Heat Shock. High resistance to thermoplastic flow. 6

Solvents resistance. Properties are maintained in oil presence. Aplications HERMINCEL Magnet Wires are used in a wide range of applications: automotive use as generators, alternators, field windings and starting motors; electronic use as coils, choke flyback TV; in special transformers as ballasts for mercury lamps; in distributions transformers, power transformers; low power motors and open small motors, hermetically closed, refrigeration and starting coils and for motors in general. Standards and Specifications HERMINCEL Magnet Wires CENTELSA are manufactured under the following standards: NEMA MW-1000 C, NTC 361 C. Round Magnet Wire. NEMA MW-1000 36C, NTC 361 36C. Squared and rectangular Magnet Wire. Certifications HERMINCEL Magnet Wires CENTELSA are certified by: UL NEMA MW-1000 C. File E176676. Round Heavy Film Magnet Wire. UL NEMA MW-1000 36C. File E176676. Squared and rectangular Heavy Film Magnet Wire. ICONTEC (Colombia). Standard NTC 361. ICONTEC (Colombia). Quality Declared NEMA MW-1000 1997. FONDONORMA (Venezuela). NORVEN 366 (Standard COVENIN 3484). Sizes Round Wire: Single Film 14 to 40 AWG. Heavy Film 8 to 40 AWG. Squared Wire: 4 AWG to 10 AWG. Rectangular Wire: See Graphic Size of rectangular wire. Note: Other configurations and sizes not specified herein are available upon request. 7

Magnet Wire Hermincel 200 C Typical properties (18 AWG HD Type) Dimensions TEST DESCRIPTION REQUIREMENT TiPICAL VALUE External Diameter 4 point measured separated 45 C 1,110 mm Maximum 1,102 mm Elongation Gradual elongation at rupture 32% Minimum 40% Adherence & Flexibility 20% elongation and wrapped around a mandrel 3 times of nominal bare diameter. No cracks visible in the film coating Pass Abrasion Resistance Unidirectional (by NEMA) 1150g Mínimum average 1800 Ductility Springback Test 58 Maximum 36 Heat Shock 20% elongation and wrapped around a mandrel 3 times of nominal bare diameter and heated 30 min. at 220 C. SNo cracks visible in the film coating Pass Thermoplastic Flow 2000 g load (by NEMA) 300 C Minimu 360 C Solubility 10 minutes preheated at 150 C and inmersed at 60 C in Butyl Cello solve and Xylene No soften sufficiently to expose the bare conductor Pass Dielectric Strength Continuity Dielectric Strength at Nominal Temperature NEMA Method Faults in 30.48 m NEMA Method 5700 V 5 Maximum 4275 V 9000 V 0 7500 V Note: Results obtained at CENTELSA s Laboratories according to NEMA MW 1000 and NTC 361. 8

Magnet Wire Soldincel 200 C Description SOLDINCEL is the generic name of this Magnet Wire produced based on polyurethane insulation overcoated with polyamideimide, its main characteristic is its almost instantaneous solder ability. This round wire is manufactured in two insulation thickness Single Film (SSN) and Heavy Film (SDN), this product is manufactured upon special requirement. Thermal Class SOLDINCEL Magnet Wires of CENTELSA are designed for a Thermal Class of 155 C. Characteristics Easy winding. High resistance to thermoplastic flow. Solvents resistance. Compatibility with varnishes. Solder able without previous removal of film. Excellent dielectric characteristics. Excellent solder ability. Insulation sublimates from 360 C to 430 C. Abrasion resistant. Applications SOLDINCEL Magnet Wires are used in a wide range of applications: automotive use as generators, alternators, field windings and starting motors; electronic use as coils, choke flyback TV; in different windings of radio frequency, special transformers as ballasts, startings, measurement windings, small transformers, small devices and controls, low power motors and open small motors. 9

Standards and Specifications SOLDINCEL Magnet Wires CENTELSA are manufactured under the following standards: NEMA MW-1000 80C, NTC 361 80C. Round Magnet Wire, Class 155 C. Certifications SOLDINCEL Magnet Wires CENTELSA are certified by: UL NEMA MW-1000 80C. File E176676. Round Heavy Film Magnet Wire 155 C ICONTEC (Colombia). Standard NTC 361. ICONTEC (Colombia). Quality Declared NEMA MW-1000 1997. Sizes Round Wire: 14 to 40 AWG. Note: Other configurations and sizes not specified herein are available upon request. 10

Magnet Wire Soldincel 200 C Typical properties (18 AWG SDN Type) Dimensions TEST DESCRIPTION REQUIREMENT External diameter 4 points measured separated 45 C 1,110 mm Maximum TIPICAL VALUE 1,100 mm Elongation Gradual elongation at rupture 32% Minimum 39% Adherence & Flexibility 20% elongation and wrapped around a mandrel 3 times of nominal bare diameter No cracks visible in the film coating Pass Abrasion Resistance Unidirectional (By NEMA) 1150 g Minimum average 1800 Ductility Springback test 58 Maximum 36 Heat shock 20% elongation and wrapped around a mandrel 3 times of nominal bare diameter and heated 30 minutes at 220 C No cracks visible in the film coating Pass Termoplastic flow 2000 g load (by NEMA) 200 C Minimum 250 C Solubility 10 minutes preheated at 150 C and inmersed 30 minutes at 60 C in Xylene No soften sufficiently to expose the bare conductor Pass Solderability 10 seconds at 430 C Continuos covering welding Pass Dielectric strength NEMA method 5125 V 8100 V Continuity Faults in 30.48 m 5 Maximum 0 Dielectric strength at nominal temperature NEMA method 3825 V 5300 V Note: Results obtained at CENTELSA s Laboratories according to NEMA MW 1000 and NTC 361. 11

Paper Insulated Magnet Wire Construction Bare or enameled copper wires, round, squared or rectangular, covered with one ore more layers of dielectric paper applied helically and overlapped up to 50% according to specification. Twin flat wire are also produced, two paper insulated flat or rectangular wires paralleled and additionally covered with one or more layers of paper. Thermal Class Paper Insulated Magnet Wires of CENTELSA are designed for a Thermal Class of 90 C dry or 105 oil impregnated. Characteristics Cellulosic paper thermally stabilized (Insuldur) Insulation Dielectric Strength: 7.0 kv/mm (272 V/mil) Insulation Thickness: one or more paper layers with different thicknesses (50 to 200 m) helically and up to 50% overlapped, to get total required thickness. The mechanical properties of this Magnet Wire make it resistant to the 12

vibrations of the equipment where they are used. Being material hygroscopic, they admit impregnating as oils of transformer or varnishes and increase the thermal class up to 105 C. When choosing the section of a flat wire or rectangular wire is due to consider that winding square or almost square conductors, these tend to turn on their own axis and to lean on one of its edges. If the section is great, the flat wire is very difficult to straighten and it is even a hardening of the metal is obtained, producing additional winding difficulties. In order to avoid this disadvantage, it is recommended to choose flat wire sections in which the thickness is at the most 2/3 of the wide one. Applications The Insulated Wires Magneto with Paper are used in power and distribution transformers, dry or oil impregnated. Sizes Round Wire: 2.5 to 12.5 mm. Squared Wire: 10 to 4 AWG Flat Wire: See Graph Ranges of Manufacture Flat Wire. Note: Other configurations and sizes not specified herein are available upon request. 13

Round Magnet Wires (International Units) Manufacturing Standards: NEMA MW-1000 NTC 361 SIZE AWG DIAMETER BARE WIRE MINIMUM NOMINAL MAXIMUM SECTION (mm 2 ) (kg/km) SINGLE FILM 1 MINIMUM MAXIMUM INCREMENT DIAMETER (kg/km) DOUBLE FILM (HEAVY FILM) MINIMUM INCREMENT MAXIMUM DIAMETER (kg/km) MAXIMUM WINDING TENSION 2 (kg) DC CURRENT DENSITY 4 (A) RESISTANCE THERMAL CLASS at 20 C 3 (ohm/km) 155 C 200 C 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 36 37 38 39 40 4.074 3.630 3.231 2.878 2.563 2.281 2.032 1.811 1.613 1.4 1.278 1.138 1.013 0.902 0.805 0.716 0.6 0.569 0.505 0.450 0.399 0.8 0.318 0.284 0.251 0.224 0.201 0.178 0.157 0.140 0.124 0.112 0.099 0.086 4.115 3.665 3.264 2.906 2.588 2.304 2.052 1.829 1.628 1.450 1.290 1.151 1.024 0.912 0.813 0.724 0.643 0.574 0.511 0.455 0.404 0.361 0.320 0.287 0.254 0.226 0.203 0.180 0.160 0.142 0.127 0.114 0.102 0.089 0.079 4.1 3.683 3.282 2.921 2.601 2.316 2.062 1.839 1.636 1.458 1.298 1.156 1.029 0.917 0.818 0.726 0.645 0.577 0.513 0.457 0.406 0.363 0.323 0.290 0.257 0.229 0.206 0.183 0.163 0.145 0.130 0.117 0.104 0.091 0.081 13.30 10.55 8.37 6.63 5.26 4.17 3.31 2.63 2.08 1.65 1.31 1.04 0.824 0.653 0.519 0.412 0.325 0.259 0.205 0.163 0.128 0.102 0.0804 0.0647 0.0507 0.0401 0.0324 0.0254 0.0201 0.0158 0.0127 0.0102 0.00817 0.00622 0.00490 118.23 93.79 74.39 58.96 46.76 37.06 29.40 23.36 18.51 14.68 11.62 9.250 7.321 5.807 4.615 3.660 2.887 2.300 1.823 1.445 1.140 0.9099 0.7150 0.5751 0.4505 0.66 0.2877 0.2262 0.1787 0.1408 0.1126 0.09074 0.07264 0.05531 0.048 0.041 0.038 0.036 0.036 0.033 0.030 0.030 0.028 0.028 0.025 0.025 0.023 0.023 0.020 0.020 0.018 0.018 0.015 0.015 0.013 0.013 0.010 0.010 0.008 0.008 0.005 0.005 1.692 1.509 1.349 1.207 1.077 0.963 0.861 0.770 0.686 0.617 0.551 0.493 0.439 0.396 0.6 0.320 0.284 0.254 0.231 0.206 0.183 0.163 0.147 0.132 0.119 0.104 0.094 18.69 14.83 11.75 9.4 7.409 5.884 4.680 3.715 2.932 2.342 1.856 1.473 1.164 0.9290 0.7340 0.5900 0.4630 0.3670 0.2970 0.2340 0.1850 0.1460 0.1160 0.09400 0.07400 0.05700 0.04500 0.089 0.086 0.084 0.081 0.079 0.074 0.071 0.081 0.074 0.071 0.066 0.064 0.058 0.056 0.053 0.051 0.048 0.046 0.043 0.041 0.041 0.038 0.036 0.033 0.030 0.028 0.025 0.023 0.020 0.020 0.018 0.015 0.015 4.244 3.787 3.383 20 2.695 2.408 2.151 1.923 1.732 1.547 1.384 1.240 1.110 0.993 0.892 0.798 0.714 0.643 0.577 0.516 0.462 0.417 0.373 0.338 0.302 0.274 0.249 0.224 0.198 0.178 0.160 0.145 0.130 0.114 0.102 119.2 94.6 75.1 59.6 47.3 37.5 29.8 23.7 18.83 14.95 11.85 9.440 7.482 5.947 4.732 3.760 2.970 2.375 1.883 1.496 1.184 0.9460 0.7480 0.6030 0.4740 0.3770 0.3050 0.2410 0.1900 0.1500 0.1200 0.09700 0.07700 0.05900 0.04600 79.5 63.1 50.0 39.7 31.5 24.9 19.8 15.7 12.4 9.87 7.82 6.22 4.92 3.91 3.10 2.46 1.94 1.55 1.23 0.972 0.767 0.612 0.481 0.387 0.303 0.240 0.194 0.152 0.120 0.0947 0.0758 0.0610 0.0489 0.0372 0.0293 1.296 1.634 2.060 2.599 3.278 4.1 5.213 6.562 8.283 10.44 13.19 16.57 20.93 26.39 33.21 41.88 59 66.63 84.07 106.0 134.5 168.4 214.4 266.5 340.3 429.8 532.7 677.5 857.5 1089 1361 1689 2110 2771 17 87 69 55 44 27 22 17 14 11 8.6 6.8 5.4 4.3 3.4 2.7 2.1 1.7 1.3 1.1 0.84 0.67 0.53 0.43 0.33 0.26 0.21 0.17 0.13 0.10 0.083 0.068 0.053 0.041 0.032 131 104 83 65 52 41 33 26 21 16 13 10 8.1 6.4 5.1 4.1 3.2 2.6 2.0 1.6 1.3 1.0 0.79 0.64 0.50 0.40 0.32 0.25 0.20 0.16 0.13 0.10 0.080 0.061 0.048 Notes: 1. NEMA MW-1000 Standard specify Single Layer magnet wire for 14 AWG size and below. 2. Maximum winding tension to avoid wire strecht, based on a maximum strenth of 5.98 kg/mm2. 3. DC resistance calculated based on a 17.241 ohm-mm2/km resistivity. 4. Current density based on 0.101 and 0.152 mm2/a for Thermal Class of 200 C and 155 C. 5. Data herein indicated are approximate and are subject to normal manufacturing tolerances. 14

Round Magnet Wires Manufacturing Standards: NEMA MW-1000 NTC 361 SIZE AWG DIAMETER (mils) BARE WIRE MINIMUM NOMINAL MAXIMUM SECTION (cmil) (lb/1000 pies) SINGLE FILM 1 MINIMUM MAXIMUM INCREMENT DIAMETER (mils) (mils) (lb/kft) DOUBLE FILM (HEAVY FILM) MINIMUM MAXIMUM INCREMENT DIAMETER (mils) (mils) (lb/kft) MAXIMUM WINDING TENSION 2 (lb/kft) DC CURRENT DENSITY 4 (A) RESISTANCE THERMAL CLASS at 20 C 3 (ohm/kft) 155 C 200 C 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 36 37 38 39 40 160.4 142.9 127.2 113.3 100.9 89.8 80.0 71.3 63.5 56.5 50.3 44.8 39.9.5 31.7 28.2 25.0 22.4 19.9 17.7 15.7 14.1 12.5 11.2 9.9 8.8 7.9 7.0 6.2 5.5 4.9 4.4 3.9 3.4 162.0 144.3 128.5 114.4 101.9 90.7 80.8 72.0 64.1 57.1 50.8 45.3 40.3.9 32.0 28.5 25.3 22.6 20.1 17.9 15.9 14.2 12.6 11.3 10.0 8.9 8.0 7.1 6.3 5.6 5.0 4.5 4.0 3.5 3.1 162.8 145.0 129.2 115.0 102.4 91.2 81.2 72.4 64.4 57.4 51.1 45.5 40.5 36.1 32.2 28.6 25.4 22.7 20.2 18.0 16.0 14.3 12.7 11.4 10.1 9.0 8.1 7.2 6.4 5.7 5.1 4.6 4.1 3.6 3.2 26244 20822 16512 13087 10384 8226 6529 5184 4109 3260 2581 2052 1624 1289 1024 812.3 640.1 510.8 404.0 320.4 252.8 201.6 158.8 127.7 100.0 79.21 64.00 50.41 39.69 31.36 25.00 20.25 16.00 12.25 9.610 79.46 63 49.99 39.63 31.43 24.91 19.76 15.70 12.44 9.866 7.809 6.216 4.920 3.903 3.101 2.460 1.940 1.546 1.225 0.9714 0.7659 0.6115 0.4805 0.3865 0.3027 0.2397 0.1934 0.1520 0.1201 0.0946 0.0757 0.0610 0.04882 0.03717 0.02928 1.6 1.5 1.4 1.4 1.3 1.2 1.2 1.1 1.1 1.0 1.0 0.9 0.9 0.8 0.8 0.7 0.7 0.6 0.6 0.5 0.5 0.4 0.4 0.3 0.3 0.2 0.2 66.6 59.4 53.1 47.5 42.4 37.9 33.9 30.3 27.0 24.3 21.7 19.4 17.3 15.6 14.0 12.6 11.2 10.0 9.1 8.1 7.2 6.4 5.8 5.2 4.7 4.1 3.7 12.56 9.966 7.897 6.286 4.979 3.954 3.145 2.497 1.970 1.574 1.247 0.9899 0.7823 0.6243 0.4933 0.3965 0.3112 0.2466 0.1996 0.1573 0.1243 0.09812 0.07796 0.06317 0.04973 0.03831 0.03024 3.5 3.4 3.3 3.2 3.1 2.9 2.8 3.2 2.9 2.8 2.6 2.5 2.3 2.2 2.1 2.0 1.9 1.8 1.7 1.6 1.6 1.5 1.4 1.3 1.2 1.1 1.0 0.9 0.8 0.8 0.7 0.6 0.6 167.1 149.1 133.2 118.9 106.1 94.8 84.7 75.7 68.2 60.9 54.5 48.8 43.7 39.1.1 31.4 28.1 25.3 22.7 20.3 18.2 16.4 14.7 13.3 11.9 10.8 9.8 8.8 7.8 7.0 6.3 5.7 5.1 4.5 4.0 80.11 63.57 50.45 40.02 31.77 25.19 20.01 15.91 12.65 10.05 7.964 6.344 5.028 3.997 3.180 2.527 1.996 1.596 1.265 1.005 0.7957 0.68 0.5027 0.4052 0.3185 0.2534 0.2050 0.1620 0.1277 0.1008 0.08065 0.06519 0.05175 0.03965 0.03091 175 139 110 87.4 69.4 55.0 43.6 34.6 27.4 21.8 17.2 13.7 10.9 8.61 6.84 5.43 4.28 3.41 2.70 2.14 1.69 1. 1.06 0.853 0.668 0.529 0.427 0.3 0.265 0.209 0.167 0.1 0.108 0.0820 0.0646 0.3951 0.4981 0.6280 0.7923 0.9990 1.260 1.589 2.000 2.525 3.182 4.021 5.051 6.381 8.044 10.12 12.76 16.18 20.31 25.62 32.32 40.99 51.34 65.34 81.23 103.7 131.0 162.4 206.5 261.4 331.8 414.8 514.8 643.1 844.7 1072 87 69 55 44 27 22 17 14 10.9 8.6 6.8 5.4 4.3 3.4 2.7 2.1 1.7 1.3 1.07 0.84 0.67 0.53 0.43 0.33 0.26 0.21 0.17 0.13 0.105 0.083 0.068 0.053 0.041 0.032 131 104 83 65 52 41 33 26 21 16 13 10.3 8.1 6.4 5.1 4.1 3.2 2.6 2.0 1.6 1.3 1.0 0.79 0.64 0.50 0.40 0.32 0.25 0.20 0.16 0.13 0.10 0.080 0.061 0.048 Notes: 1. NEMA MW-1000 Standard specify Single Layer magnet wire for 14 AWG size and below. 2. Maximum winding tension to avoid wire strecht, based on a maximum strenth of 8500 psi. 3. DC resistance calculated based on a 10.729 ohm-cmil/ft resistivity. 4. Current density based on 200 and 300 cmil/a for Thermal Class of 200 C and 155 C. 5. Data herein indicated are approximate and are subject to normal manufacturing tolerances. 15

Squared Magnet Wires (International System Unit) Manufacturing Standards: NEMA MW-1000 NTC 361 SIZE AWG DIAMETER MINIMUM NOMINAL MAXIMUM BARE WIRE CORNES RADIUS 1 SECTION (mm 2 ) (kg/km) MINIMO INCREMENT DOUBLE FILM MAXIMUM DIAMETER (kg/km) MAXIMUM WINDING TENSION 2 (kg) DC CURRENT DENSITY 4 (A) RESISTANCE THERMAL CLASS at 20 C 3 (ohm/km) 155 C 200 C 4 5 6 7 8 9 10 11 12 13 14 5.138 4.575 4.074 3.630 3.231 2.878 2.563 2.278 2.027 1.803 1.603 5.189 4.620 4.115 3.665 3.264 2.906 2.588 2.304 2.052 1.829 1.628 5.240 4.666 4.155 3.701 3.297 2.934 2.614 2.329 2.078 1.854 1.654 1.016 1.016 0.813 0.813 0.813 0.660 0.660 0.508 0.508 0.406 0.406 26.04 20.46 16.37 12.86 10.09 8.07 6.32 5.09 3.99 3.20 2.51 231.49 181.87 145.49 114.37 89.67 71.75 56.22 45.22.46 28.48 22.30 5.367 4.793 4.282 3.828 3.424 61 2.741 2.456 2.205 1.981 1.781 2 183.22 146.68 115.40 90.56 72.54 56.91 45.84 36.01 28.98 22.74 156 122 97.9 76.9 60.3 48.3 37.8 30.4 23.9 19.2 15.0 0.8153 1.028 1.296 1.634 2.060 2.599 3.278 4.1 5.213 6.562 8.283 171 1 108 85 66 53 42 33 26 21 17 257 202 161 127 100 80 62 50 39 32 25 Notes: 1. NEMA MW-1000 Standard specify a tolerance of ±25%. 2. Maximum winding tension to avoid wire strecht, based on a maximum strenth of 5.98 kg/mm2. 3. DC resistance calculated based on a 17.241 ohm-mm2/km resistivity. 4. Current density based on 0.101 and 0.152 mm2/a for Thermal Class of 200 C and 155 C. 5. Data herein indicated are approximate and are subject to normal manufacturing tolerances. Squared Magnet Wires Manufacturing Standards: NEMA MW-1000 NTC 361 SIZE AWG DIAMETER (mils) MINIMUM NOMINAL MAXIMUM BARE WIRE CORNER RADIUS 1 (mils) SECTION (cmil) APROXX. (lb/kft) MINIMUM INCREMENT (mils) DOUBLE FILM MAXIMUM DIAMETER (mils) APROXX. (lb/kft) MÁXIMUM WINDING TENSION 2 (lb) DC CURRENT DENSITY 4 (A) RESISTANCE THERMAL CLASS at 20 C 3 (ohm/kft) 155 C 200 C 4 5 6 7 8 9 10 11 12 13 14 202.3 180.1 160.4 142.9 127.2 113.3 100.9 89.7 79.8 71.0 63.1 204.3 181.9 162.0 144.3 128.5 114.4 101.9 90.7 80.8 72.0 64.1 206.3 183.7 163.6 145.7 129.8 115.5 102.9 91.7 81.8 7 65.1 40.0 40.0 32.0 32.0 32.0 26.0 26.0 20.0 20.0 16.0 16.0 51391 40376 32299 25389 19906 15928 12480 10039 7873 6323 4951 155.57 122.23 97.78 76.86 60.26 48.22 37.78 30.39 23.83 19.14 14.99 211.3 188.7 168.6 150.7 134.8 120.5 107.9 96.7 86.8 78.0 70.1 156.62 123.13 98.57 77.55 60.86 48.75 38.24 30.81 24.20 19.47 15.28 343 270 216 170 133 106 83 67 53 42 33 0.2485 0.31 0.3951 0.4981 0.6280 0.7923 0.9990 1.2604 1.5890 2.0001 2.5245 171 1 108 85 66 53 42 33 26 21 17 257 202 161 127 100 80 62 50 39 32 25 Notes: 1. NEMA MW-1000 Standard specify a tolerance of ±25%. 2. Maximum winding tension to avoid wire strecht, based on a maximum strenth of 8500 psi 3. DC resistance calculated based on a 10.729 ohm-cmil/ft resistivity. 4. Current density based on 200 and 300 cmil/a for Thermal Class of 200 C and 155 C. 5. Data herein indicated are approximate and are subject to normal manufacturing tolerances. 16

Rectangular Bare Wires (International System Unit) Corner Radius Manufacturing Standards: NEMA MW-1000 NTC 361 WIDTH (mils, mm) THICKNESS 1.60 1.70 1.80 1.90 2.00 2.12 2.24 2.36 2.50 2.65 2.80 0 3.15 3. 3.55 3.75 4.00 4.25 4.50 4.75 5.00 5.30 5.60 6.00 6.30 6.70 7.10 7.50 8.00 8.50 9.00 9.50 10.0 10.6 11.2 11.8 12.5 13.2 14.0 15.0 16.0 17.0 18.0 19.0 THICKNESS (mils) 63 67 71 75 79 83 88 93 98 104 110 118 124 132 140 148 157 167 177 187 197 209 220 236 248 264 280 295 315 3 4 374 394 417 441 465 492 520 551 591 630 669 709 748 (mils) 0.64 0.71 0.79 0.89 0.99 1.12 1.24 1.40 1.60 1.80 2.01 2.24 2.49 2.79 3.15 3.56 3.99 4.50 5.00 5.59 6.30 7.11 25 28 31 39 44 49 55 63 71 79 88 98 110 124 140 157 177 197 220 248 280 (1) 20 mils, 0.50 mm 26 mils, 0.67 mm ROUND EDGE 31 mils, 0.80 mm 39 mils, 1.00 mm (1) 25 28 31 39 44 49 55 63 71 79 88 98 110 124 140 157 177 197 220 248 280 0.64 0.71 0.79 0.89 0.99 1.12 1.24 1.40 1.60 1.80 2.01 2.24 2.49 2.79 3.15 3.56 3.99 4.50 5.00 5.59 6.30 7.11 Notes: 1. Range not specified by NEMA MW-1000. 2. NEMA MW-1000 Standard specify a tolerance of ±25% for Corner Radius. 3. Data herein indicated are approximate and are subject to normal manufacturing tolerances. Increment in dimensions due to film coating WIDTH THICKNESS MINIMUM MAXIMUM MINIMUM MAXIMUM mils mm mils mm mils mm mils mm DOUBLE FILM 2.5 0.064 4.5 0.114 5.0 0.127 QUADRUPLE FILM 4.0 0.102 6.0 0.152 5.0 0.127 7.0 0.178 17

Ranges 9 THICKNESS (International System Unit) 8 7 6 5 4 3 2 1 0 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 WIDTH ENAMELED PAPER INSULATED 360 THICKNESS (mils) (English System Unit) 320 280 240 200 160 120 80 40 0 80 120 160 200 240 280 320 360 400 440 480 520 560 600 640 WIDTH (mils) ENAMELED PAPER INSULATED 18

Packing data Cylindrical reel B A C D E A: External diameter B: Exterior Length C: Drum diameter D: Inner hole diameter E: Useful wide REEL TYPE MATERIAL SIZES AWG A B DIMENSIONS C D E (kg) CAPACITY (pound) (kg) TARE (pound) C B A 12 6 WOOD WOOD WOOD/PLASTIC PLASTIC PLASTIC RECTANGULAR & SQUARE 6-26 24-40 750 600 600 305 152 29.5 23.6 23.6 12.0 6.0 300 390 220 190 108 11.8 15.4 8.7 7.5 4.3 360 360 360 152 90 14.2 14.2 14.2 6.0 3.5 50 50 50 32 20 2.0 2.0 2.0 1.3 0.8 260 0 180 160 90 10.2 13.8 7.1 6.3 3.5 300 200 100 5 661.5 441.0 220.5 77.2 11.0 12.0 10.0 9.0 1.5 0.3 26.5 22.1 19.8 3.3 0.7 19

Packing data Conical reel B A C D F G E A: External bottom diameter B: External length C: Bottom internal diameter D: Inner hole diameter E: Useful wide F: Top internal diameter G: External top diameter REEL No. MATERIAL SIZES AWG A B C DIMENSIONS D E F G CAPACITY (kg) (pound) (kg) TARE (pound) 8.5" 10" PLÁSTICO PLÁSTICO 20-11-27 2 280 9.3 11.0 245 340 9.7 13.4 165 180 6.5 7.1 1.4 1.4 225 300 8.9 11.8 145 150 5.7 5.8 215 250 8.5 10.0 18 40 39.7 88.2 0.9 1.7 2.0 3.7 20

Handling of the Magnet Wire In all the stages of manufacture of the Magnet Wires, CENTELSA applies a special process (lubricant) with the purpose of preserving the soft temper copper, so that the wire can be winded and be wound with facility and so that it remains in the adequate position in a coil, without backing down or unrolling. Additionally, the user must have precautions during the subsequent use of the wire to avoid that the work in cold hardens it, thus making its winding easier. In order to avoid the rigidity derived from the handling and to conserve the wire in good state, it is recommended to have presents the following points: 1. To avoid operations of rewinding. 2. To avoid great tensions in winding so that the wire does not stretch, because this is a form of work in cold that besides to modify the soft temper, reduces the diameter. It is recommended not to apply in any case, greater mechanical tensions for each size than the indicated ones. 3. To avoid all unnecessary bending of the wire when winding, trying to occupy the lesser possible number of pulleys or guides, the ones that in any case will have a diameter greater than the one of the wire heavier than uses in this device. 21

4. To store the spools in a right way, avoiding mistreat of the wire. 5. To place the spools in sites of approximate temperatures to 25 C and relative humidity of 60%. 25 C 60% 6. It is important to make rotation of the wires according to the date of reception. 22