APPLICATION

Used as overhead bare conductors for primary and secondary distribution. Designed using high-strength aluminum alloy to achieve a high strength-to-weight ratio; Better deflection limiting properties. Aluminum alloy gives AAAC greater corrosion resistance than ACSR.

SPECIFICATION:

Name kcmil Cross section

(mm2)

 Stranding
6201 AAAC R 20℃Ω/km
Number Wire structure Wire dia (mm) OD Direction
Akron 30.58 15.5 7 1+6 1.68 5.04 Right 2.612
Alton 48.69 24.7 7 1+6 2.12 6.36 Right 1.358
Ames 77.47 39.3 7 1+6 2.67 8.01 Right 0.853
Azusa 123.3 62.5 7 1+6 3.37 10.11 Right 0.5348
Anaheim 155.4 78.7 7 1+6 3.78 11.34 Right 0.4625
Amherst 195.7 99.2 7 1+6 4.25 12.75 Right 0.3379
Alliance 246.9 125.1 7 1+6 4.77 14.31 Right 0.2677
Butte 312.8 158.5 19 1+6+12 3.26 16.3 Right 0.2113
Canton 394.5 199.9 19 1+6+12 3.66 18.3 Right 0.16765
Cairo 465.4 235.8 19 1+6+12 3.98 19.9 Right 0.142
Darien 559.5 283.5 19 1+6+12 4.36 21.8 Right 0.1181
Elgin 652.4 330.6 19 1+6+12 4.71 23.55 Right 0.1014
Flint 740.8 375.4 37 1+6+12+18 3.59 25.13 Right 0.0892
Greeley 927.2 469.8 37 1+6+12+18 4.02 28.14 Right 0.0712

APPLICATION Used as overhead bare conductors for primary and secondary distribution. Designed using high-strength aluminum alloy to achieve a high strength-to-weight ratio; Better deflection limiting properties. Aluminum alloy gives AAAC greater corrosion resistance than ACSR. SPECIFICATION: Name kcmil Cross section (mm2) Stranding 6201 AAAC R 20℃Ω/km Number Wire structure Wire dia (mm) OD Direction Akron […]