AAAC Conductor BS 3242 Size Chart & Full Form
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AAAC BS 3242 ( Click )
BS 3242 Code Name Nominal Area
(mm²)Stranding
(No./mm)Diameter Of Conductor
(mm)Linear Mass
(kg/km)Rated Strength
(kgf)Box 15 7/1.85 5.55 51 537 Acacia 20 7/2.08 6.24 65 680 Almond 25 7/2.34 7.02 82 861 Cedar 30 7/2.54 7.62 97 1014 35 7/2.77 8.31 115 1205 Fir 40 7/2.95 8.85 131 1367 Hazel 50 7/3.30 9.9 164 1711 Pine 60 7/3.61 10.83 196 2048 70 7/3.91 11.73 230 2402 Willow 75 7/4.04 12.12 245 2565 80 7/4.19 12.57 264 2758 90 7/4.44 13.32 298 3112 Oak 100 7/4.65 13.95 325 3398 100 19/2.82 14.1 326 3393 Mulberry 125 19/3.18 15.9 415 4312 Ash 150 19/3.48 17.4 497 5164 Elm 175 19/3.76 18.8 580 6030 Poplar 200 37/2.87 20.09 659 8841 225 37/3.05 21.35 744 7724 Sycamore 250 37/3.22 22.54 835 8664 Upas 300 37/3.53 24.71 997 10350 Walnut 350 37/3.81 26.67 1162 12053 Yew 400 37/4.06 28.42 1319 13685 Totara 425 37/4.14 28.98 1372 14233 Rubus 500 61/3.50 31.5 1620 16771 Araucaria 700 61/4.14 37.26 2266 23450
AAAC Conductor DIN 48201 Size Chart & Full Form
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AAAC DIN 48201 ( Click )
DIN 48201 Nominal area
(mm^2)actual area
(mm^2)Stranding
(No.xmm)Overall Diameter
(mm)Weight
(kg/km)Rated Strength
(KN)Electrical Resistance
(Ω/Km)Current Rating*
(A)16 15.89 7/1.70 5.1 43 4.44 2.0742 78 25 24.25 7/2.10 6.3 66 6.77 1.3593 102 35 34.36 7/2.50 7.5 94 9.6 0.9591 126 50 49.48 7/3.00 9 135 13.82 0.666 158 50 48.35 19/1.80 9 133 13.5 0.6849 156 70 65.81 19/2.10 10.5 181 18.38 0.5032 189 95 93.27 19/2.50 12.5 256 26.05 0.3551 234 120 116.99 19/2.80 14 322 32.68 0.2831 269 150 147.11 37/2.25 15.8 406 41.09 0.2256 309 185 181.62 37/2.50 17.5 500 50.73 0.1828 352 240 242.54 61/2.25 20.3 670 67.74 0.1371 420 300 299.43 61/2.50 22.5 827 83.63 0.111 477 400 400.14 61/2.89 26 1104 111.76 0.0831 568 500 499.83 61/3.23 29.1 1379 139.6 0.0665 649 625* 626.2 91/2.96 32.6 1732 174.9 0.0531 742 800* 802.09 91/3.35 36.9 2218 224.02 0.0415 857 1000* 999.71 91/3.74 41.1 2767 279.22 0.0333 971
AAAC Conductor BS EN50182 Size Chart & Full Form
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AAAC BS EN50182 ( Click )
BS EN 50182 Code Stranding
(No.xmm)Nominal Area
(mm^2)Overall Diameter
(mm)Weight
(kg/km)Rated Strength
(KN)Electrical Resistance
(Ω/Km)Current Rating*
(A)Box 7/1.85 18.8 5.55 51.4 5.55 1.748 87 Acacia 7/2.08 23.8 6.24 64.9 7.02 1.3828 101 Almond 7/2.34 30.1 7.02 82.2 8.88 1.0926 116 Cedar 7/2.54 35.5 7.62 96.8 10.46 0.9273 129 Deodar 7/2.77 42.2 8.31 115.2 12.44 0.7797 143 Fir 7/2.95 47.8 8.85 130.6 14.11 0.6875 155 Hazel 7/3.30 59.9 9.9 163.4 17.66 0.5494 178 Pine 7/3.61 71.6 10.83 195.6 21.14 0.4591 199 Holly 7/3.91 84.1 11.73 229.5 24.79 0.3913 219 Willow 7/4.04 89.7 12.12 245 26.47 0.3665 228 Oak 7/4.65 118.9 13.95 324.5 35.07 0.2767 272 Mulberry 19/3.18 150.9 15.9 414.3 44.52 0.2192 314 Ash 19/3.48 180.7 17.4 496.1 53.31 0.183 351 Elm 19/3.76 211 18.8 579.2 62.24 0.1568 386 Poplar 37/2.87 239.4 20.09 659.4 70.61 0.1387 416 Sycamore 37/3.23 303.2 22.61 835.2 89.4 0.1095 480 Upas 37/3.53 362.1 24.71 997.5 106.82 0.0917 535 Yew 37/4.06 479 28.42 1319.6 141.31 0.0693 633 Totara 37/4.14 498.1 28.98 1372.1 146.93 0.0666 648 Rubus 61/3.50 586.9 31.5 1622 173.13 0.0567 714 Sorbus 61/3.71 659.4 33.39 1822.5 194.53 0.0505 764 Araucaria 61/4.14 821.1 37.26 2269.4 242.24 0.0406 868 Redwood 61/4.56 996.2 41.04 2753.2 293.88 0.0334 970
AAAC Conductor ASTM B399 Size Chart & Full Form
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AAAC ASTM B399 ( Click )
ASTM B 399B 399M Nominal Area Stranding Overall Diameter Weight Rated Strength Electrical Resistance Current Rating* AWG&MCM mm^2 No.xmm mm kg/km KN Ω/Km A 6 13.2 7/1.55 4.65 36.2 4.18 2.5361 69 4 21.1 7/1.96 5.88 57.9 6.69 1.586 93 2 33.5 7/2.47 7.41 92 10.6 0.9987 123 0 53.5 7/3.12 9.36 146.8 17 0.62592 165 2/0 67.3 7/3.50 10.5 184.8 20.4 0.49738 190 3/0 84.9 7/3.93 11.79 233 25.7 0.3945 219 4/0 107 7/4.42 13.26 294.7 32.5 0.31188 253 250 126 19/2.91 14.55 346.7 38.8 0.26509 280 300 152 19/3.19 15.95 416.7 46.6 0.22059 313 350 178 19/3.45 17.25 487.3 52 0.1886 345 400 203 19/3.69 18.45 557.5 59.5 0.16486 375 450 228 19/3.91 19.55 626 66.8 0.14683 402 500 253 19/4.12 20.6 695 74.2 0.13224 429 550 279 37/3.10 21.7 766.2 83.9 0.11995 455 600 303 37/3.23 22.61 831.9 91 0.11049 478 650 330 37/3.37 23.59 905.5 94.9 0.1015 504 700 354 37/3.49 24.43 971.2 101 0.09464 525 750 381 37/3.62 25.34 1045 109 0.08796 549 800 404 37/3.73 26.11 1109 116 0.08285 569 900 456 37/3.96 27.72 1250 131 0.07351 612 1000 508 37/4.18 29.26 1393 146 0.06597 653 1250 631 61/3.63 32.67 1732 179 0.05306 743 1500 759 61/3.98 35.82 2082 215 0.04414 827 1750 886 61/4.30 38.7 2431 251 0.03781 904
AAAC Conductor NFC 34125 Size Chart & Full Form
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AAAC NFC 34125 ( Click )
NFC 34125 Code Name Actual section
(mm²)No. of wire Wire diameter
(mm)Conducto diameter
(mm)Conductor weight appr.
(kg/km)Calc. breaking force
(kN)conductor resistance at 20°C
(Ohm/km)ASTER 22 21.99 7 2 6 60.2 7.15 1498 ASTER 34.4 34.36 7 2.5 7.5 93.5 11.17 0.959 ASTER 54.6 54.55 7 3.15 9.45 148.9 17.73 0.604 ASTER 75.5 75.54 19 2.25 11.3 207.4 24.55 0.438 ASTER 117 116.98 19 2.8 14 321.2 38.02 0.283 ASTER 148 148.01 19 3.15 15.8 406.6 48.12 0.223 ASTER 181.6 181.62 37 2.5 17.5 500.3 59.03 0.183 ASTER 228 227.83 37 2.8 19.6 627.6 74.04 0.146 ASTER 288 288.34 37 3.15 22.1 794.3 93.71 0.115 ASTER 366 366.22 37 3.55 24.9 1.008.9 115.36 0.09 ASTER 570 570.22 61 3.45 31.1 1.576.0 185.33 0.058 ASTER 851 850.66 91 3.45 38 2.360.7 276.47 0.039 ASTER 1144 1143.5 91 4 44 3.173.4 360.22 0.029 ASTER 1600 1595.9 127 4 52 4.427.5 502.72 0.021
AAAC conductor is bare concentric-lay-stranded conductor made from round aluminum alloy 6201 -T81 wires; it’s constructed with a central core surrounded by one or more layers of helically laid wires.
It was designed to attend the needs of an economic conductor for the applications on aerial circuit that require a larger mechanical resistance than the one of an All Aluminum Conductor (AAC), and a better corrosion resistance than the one produced by the aluminum conductor steel reinforced (ACSR).
The conductors of Aluminum Alloy 6201-T81 are harder and have a better resistance to the abrasion than the conductors of aluminum 1350.
Application:
Used as bare overhead conductor for primary and secondary distribution. Designed utilizing a high-strength aluminum alloy to achieve a high strength-to-weight ratio; affords better sag characteristics. Aluminum alloy gives AAAC higher resistance to corrosion than ACSR.
Product Features :
They were developed to fill the need for an economical conductor for overhead applications requiring higher strength that that obtainable by 1350 grade aluminum conductors, but without a steel core. The DC resistance at 20°C of the 6201-T81 conductors and the standard ACSRs of the same diameter are approximately the same. Conductors of the 6201-T81 allows are harder and, therefore, have greater resistance to abrasion than conductors of 1350-H19 grade aluminum.
Advantage:
- AAAC has large mechanical resistance than AAC which permits its use as a bare overhead conductor on aerial circuits for power transmission and distribution lines.
- AAAC has better sag characteristics and strength to weight ratio as compared to AAC.
- AAAC weight per unit and resistance is also lower which gives it advantage over the ACSR. Also, AAAC conductor has better corrosion protection than ASCR conductors
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