1/0 AWG Poppy AAC Cable
The 1/0 AWG Poppy AAC Cable represents premium All Aluminum Conductor technology for overhead power applications. Manufactured with seven strands of high-conductivity 1350-H19 aluminum, this bare conductor delivers an optimal balance of electrical efficiency and mechanical performance. Its 0.368-inch diameter and 1,990 lbs breaking strength support reliable operation with 247 amps capacity and minimal sag. Weighing just 99.1 lbs per 1000 ft, the Poppy AAC reduces structural loading and installation expenses while providing excellent corrosion resistance for extended outdoor service. Compliant with ASTM B-230 and B-231, the 1/0 AWG Poppy AAC Cable offers low DC resistance of 0.164 ohms/1000 ft at 20°C. It undergoes stringent quality testing from raw materials through finished product, making it an ideal choice for new builds and upgrades in transmission and distribution systems requiring dependable, lightweight bare conductors.
- Size 1/0 AWG
- Number of Strands 7
- Nominal OD 0.368 inches
- Weight 99.1 lbs/1000 ft
- Ultimate Tensile Strength 1,990 lbs
- Ampacity 247 Amps
Construction
Technical Specifications
Quality Control
Application
Construction
1/0 AWG Poppy AAC Cable
Application
Overhead, Overhead Transmission
Conductor Material
All Aluminum Conductor
Standard
Overhead, Overhead Transmission
Key Product Features
1. Premium 1350-H19 aluminum alloy ensuring high conductivity;
2. Optimized 7-strand design for enhanced flexibility and durability;
3. Superior resistance to corrosion and environmental stress
2. Optimized 7-strand design for enhanced flexibility and durability;
3. Superior resistance to corrosion and environmental stress
Technical Specifications
1/0 AWG Poppy AAC Cable
ASTM B 231/B 231M
IEC 61089
DIN 48201-5
BS 215-1
BS EN 50182
GOST 839-80
GB/T 1179
| Code Name | Nominal Area |
No./Nominal diameter of wires |
Approximate Overall Diameter |
Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
|
| AWG or MCM | mm² | No./mm | mm | kg/km | KN | ohm/km | |
| Peachbell | 6 | 13.3 | 7/1.56 | 4.68 | 36.6 | 2.5 | 2.1477 |
| Rose | 4 | 21.1 | 7/1.96 | 5.88 | 58.2 | 3.9 | 1.3606 |
| Iris | 2 | 33.6 | 7/2.47 | 7.41 | 92.6 | 6.0 | 0.8567 |
| Pansy | 1 | 42.4 | 7/2.78 | 8.34 | 116.6 | 7.3 | 0.6763 |
| Poppy | 1/0.0 | 53.5 | 7/3.12 | 9.36 | 147.2 | 8.8 | 0.5369 |
| Aster | 2/0.0 | 67.4 | 7/3.50 | 10.50 | 185.7 | 11.1 | 0.4267 |
| Phlox | 3/0.0 | 85.0 | 7/3.93 | 11.79 | 233.9 | 13.5 | 0.3384 |
| Oxlip | 4/0.0 | 107.2 | 7/4.42 | 13.26 | 295.2 | 17.0 | 0.2675 |
| Valerian | 250.0 | 126.7 | 19/2.91 | 14.55 | 348.6 | 20.7 | 0.2274 |
| Sneezewort | 250.0 | 126.7 | 7/4.80 | 14.40 | 348.8 | 20.1 | 0.2269 |
| Laurel | 266.8 | 135.2 | 19/3.01 | 15.05 | 372.2 | 22.1 | 0.2125 |
| Daisy | 266.8 | 135.2 | 7/4.96 | 14.88 | 372.3 | 21.4 | 0.2125 |
| Peony | 300.0 | 152.0 | 19/3.19 | 15.95 | 418.3 | 24.3 | 0.1892 |
| Tulip | 336.4 | 170.5 | 19/3.38 | 16.90 | 469.5 | 27.3 | 0.1686 |
| Daffodil | 350.0 | 177.3 | 19/3.45 | 17.25 | 487.9 | 28.4 | 0.1618 |
| Canna | 397.5 | 201.4 | 19/3.67 | 18.35 | 554.9 | 31.6 | 0.1430 |
| Goldentuft | 450.0 | 228.0 | 19/3.91 | 19.55 | 627.6 | 35.0 | 0.1260 |
| Syringa | 477.0 | 241.7 | 37/2.88 | 20.16 | 664.8 | 38.6 | 0.1192 |
| Cosmos | 477.0 | 241.7 | 19/4.02 | 20.10 | 664.8 | 37.0 | 0.1192 |
| Hyacinth | 500.0 | 253.3 | 37/2.95 | 20.65 | 696.8 | 40.5 | 0.1136 |
| Zinnia | 500.0 | 253.3 | 19/4.12 | 20.60 | 697.1 | 38.9 | 0.1134 |
| Dahlia | 556.5 | 282.0 | 19/4.35 | 21.75 | 775.8 | 43.3 | 0.1018 |
| Mistletoe | 556.5 | 282.0 | 37/3.12 | 21.84 | 775.7 | 44.3 | 0.1016 |
| Meadowsweet | 600.0 | 304.0 | 37/3.23 | 22.61 | 836.3 | 47.5 | 0.0948 |
| Orchid | 636.0 | 322.3 | 37/3.33 | 23.31 | 886.9 | 50.4 | 0.0892 |
| Heuchera | 650.0 | 329.4 | 37/3.37 | 23.59 | 907.4 | 51.7 | 0.0871 |
| Flag | 700.0 | 354.7 | 61/2.72 | 24.48 | 975.8 | 57.1 | 0.0811 |
| Varbena | 700.0 | 354.7 | 37/3.49 | 24.43 | 975.7 | 55.4 | 0.0812 |
| Nasturtium | 715.5 | 362.6 | 61/2.75 | 24.75 | 998.5 | 58.4 | 0.0793 |
| Violet | 715.5 | 362.6 | 37/3.53 | 24.71 | 998.5 | 56.7 | 0.0794 |
| Cattail | 750.0 | 380.0 | 61/2.82 | 25.38 | 1046.0 | 60.3 | 0.0754 |
| Petunia | 750.0 | 380.0 | 37/3.62 | 25.34 | 1046.0 | 58.6 | 0.0755 |
| Lilac | 795.0 | 402.8 | 61/2.90 | 26.10 | 1110.0 | 63.8 | 0.0713 |
| Arbutus | 795.0 | 402.8 | 37/3.72 | 26.04 | 1109.0 | 61.8 | 0.0715 |
| Snapdragon | 900.0 | 456.0 | 61/3.09 | 27.81 | 1256.0 | 70.8 | 0.0628 |
| Cockscomb | 900.0 | 456.0 | 37/3.96 | 27.72 | 1256.0 | 68.4 | 0.0631 |
| Goldenrod | 954.0 | 483.4 | 61/3.18 | 28.62 | 1331.0 | 75.0 | 0.0593 |
| Magnolia | 954.0 | 483.4 | 37/4.08 | 28.56 | 1331.0 | 72.6 | 0.0594 |
| Camellia | 1000.0 | 506.7 | 61/3.25 | 29.25 | 1394.0 | 78.3 | 0.0568 |
| Hawkweed | 1000.0 | 506.7 | 37/4.18 | 29.26 | 1395.0 | 76.2 | 0.0566 |
| Larkspur | 1033.5 | 523.7 | 61/3.31 | 29.79 | 1442.0 | 81.3 | 0.0547 |
| Bluebell | 1033.5 | 523.7 | 37/4.25 | 29.75 | 1441.0 | 78.8 | 0.0547 |
| Marigold | 1113.0 | 564.0 | 61/3.43 | 30.87 | 1553.0 | 87.3 | 0.0510 |
| Hawthorn | 1192.5 | 604.2 | 61/3.55 | 31.95 | 1662.0 | 93.5 | 0.0476 |
| Narsissus | 1272.0 | 644.5 | 61/3.67 | 33.03 | 1774.0 | 98.1 | 0.0445 |
| Columbine | 1351.0 | 694.8 | 61/3.78 | 34.02 | 1884.0 | 104.0 | 0.0420 |
| Carnation | 1431.0 | 725.1 | 61/3.89 | 35.01 | 1997.0 | 108.0 | 0.0396 |
| Gladiolus | 1510.5 | 765.4 | 61/4.00 | 36.00 | 2108.0 | 114.0 | 0.0375 |
| Coreopsis | 1590.0 | 805.7 | 61/4.10 | 36.90 | 2216.0 | 120.0 | 0.0357 |
| Jassamine | 1750.0 | 886.7 | 61/4.30 | 38.70 | 2442.0 | 132.0 | 0.0324 |
| Cowslip | 2000.0 | 1013.0 | 91/3.77 | 41.47 | 2787.0 | 153.0 | 0.0286 |
| Sagebrush | 2250.0 | 1140.0 | 91/3.99 | 43.89 | 3166.0 | 167.0 | 0.0255 |
| Lupine | 2500.0 | 1267.0 | 91/4.21 | 46.31 | 3519.0 | 186.0 | 0.0229 |
| Bitterrot | 2750.0 | 1393.0 | 91/4.42 | 48.62 | 3872.0 | 205.0 | 0.0208 |
| Trillium | 3000.0 | 1520.0 | 127/3.90 | 50.70 | 4226.0 | 223.0 | 0.0193 |
| Bluebonnet | 3500.0 | 1773.0 | 127/4.22 | 54.86 | 4977.0 | 261.0 | 0.0165 |
| Code Name | Nominal Area |
No./Nominal diameter of wires |
Approximate Overall Diameter |
Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
| mm² | No./mm | mm | kg/km | KN | ohm/km | |
| 10 | 10.0 | 7/1.35 | 4.05 | 27.4 | 2.0 | 2.8633 |
| 16 | 16.0 | 7/1.71 | 5.13 | 43.8 | 3.0 | 1.7896 |
| 25 | 25.0 | 7/2.13 | 6.39 | 68.4 | 4.5 | 1.1453 |
| 40 | 40.0 | 7/2.70 | 8.10 | 109.4 | 6.8 | 0.7158 |
| 63 | 63.0 | 7/3.39 | 10.17 | 172.3 | 10.4 | 0.4545 |
| 100 | 100.0 | 19/2.59 | 12.95 | 274.8 | 17.0 | 0.2877 |
| 125 | 125.0 | 19/2.89 | 14.45 | 343.6 | 21.3 | 0.2302 |
| 160 | 160.0 | 19/3.27 | 16.35 | 439.8 | 26.4 | 0.1798 |
| 200 | 200.0 | 19/3.66 | 18.30 | 549.7 | 32.0 | 0.1439 |
| 250 | 250.0 | 19/4.09 | 20.45 | 687.1 | 40.0 | 0.1151 |
| 315 | 315.0 | 37/3.29 | 23.03 | 867.9 | 52.0 | 0.0916 |
| 400 | 400.0 | 37/3.71 | 25.97 | 1102.0 | 64.0 | 0.0721 |
| 450 | 450.0 | 37/3.94 | 27.58 | 1239.8 | 72.0 | 0.0641 |
| 500 | 500.0 | 37/4.15 | 29.05 | 1377.6 | 80.0 | 0.0577 |
| 560 | 560.0 | 37/4.39 | 30.73 | 1542.9 | 89.6 | 0.0515 |
| 630 | 630.0 | 61/3.63 | 32.67 | 1738.3 | 100.8 | 0.0458 |
| 710 | 710.0 | 61/3.85 | 34.65 | 1959.1 | 113.6 | 0.0407 |
| 800 | 800.0 | 61/4.09 | 36.81 | 2207.4 | 128.0 | 0.0361 |
| 900 | 900.0 | 61/4.33 | 38.97 | 2483.3 | 144.0 | 0.0321 |
| 1000 | 1000.0 | 61/4.57 | 41.13 | 2759.2 | 160.0 | 0.0289 |
| 1120 | 1120.0 | 91/3.96 | 43.56 | 3093.5 | 179.2 | 0.0258 |
| 1250 | 1250.0 | 91/4.18 | 45.98 | 3452.6 | 200.0 | 0.0231 |
| 1400 | 1400.0 | 91/4.43 | 48.73 | 3866.9 | 224.0 | 0.0207 |
| 1500 | 1500.0 | 91/4.58 | 50.38 | 4143.1 | 240.0 | 0.0193 |
| Area | No./Nominal diameter of wires |
Approximate Overall Diameter |
Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
|
| Nominal | Actual | |||||
| mm² | mm² | No./mm | mm | kg/km | KN | ohm/km |
| 16.0 | 15.9 | 7/1.70 | 5.10 | 43.0 | 2.8 | 1.8022 |
| 25.0 | 24.3 | 7/2.10 | 6.30 | 66.0 | 4.2 | 1.1810 |
| 35.0 | 34.4 | 7/2.50 | 7.50 | 94.0 | 5.8 | 0.8333 |
| 50.0 | 49.5 | 7/3.00 | 9.00 | 135.0 | 7.9 | 0.5787 |
| 50.0 | 48.4 | 19/1.80 | 9.00 | 133.0 | 8.5 | 0.5951 |
| 70.0 | 65.8 | 19/2.10 | 10.50 | 181.0 | 11.3 | 0.4372 |
| 95.0 | 93.3 | 19/2.50 | 12.50 | 256.0 | 15.7 | 0.3085 |
| 120.0 | 117.0 | 19/2.80 | 14.00 | 322.0 | 18.8 | 0.2459 |
| 150.0 | 147.1 | 37/2.25 | 15.80 | 406.0 | 25.3 | 0.1960 |
| 185.0 | 181.6 | 37/2.50 | 17.50 | 500.0 | 30.5 | 0.1588 |
| 240.0 | 242.5 | 61/2.25 | 20.30 | 670.0 | 39.5 | 0.1191 |
| 300.0 | 299.4 | 61/2.50 | 22.50 | 827.0 | 47.7 | 0.0965 |
| 400.0 | 400.1 | 61/2.89 | 26.00 | 1104.0 | 60.9 | 0.0722 |
| 500.0 | 499.8 | 61/3.23 | 29.10 | 1379.0 | 74.7 | 0.0578 |
| 625.0 | 626.2 | 91/2.96 | 32.60 | 1732.0 | 95.3 | 0.0462 |
| 800.0 | 802.1 | 91/3.35 | 36.90 | 2218.0 | 118.4 | 0.0360 |
| 1000.0 | 999.7 | 91/3.74 | 41.10 | 2767.0 | 145.8 | 0.0289 |
| Code Name | Nominal Area |
No./Nominal diameter of wires |
Approximate Overall Diameter |
Total Area | Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
| mm² | No./mm | mm | mm² | kg/km | KN | ohm/km | |
| Midge | 22.0 | 7/2.06 | 6.18 | 23.3 | 64.0 | 4.0 | 1.2270 |
| Ant | 50.0 | 7/3.10 | 9.30 | 52.8 | 145.0 | 8.3 | 0.5419 |
| Fly | 60.0 | 7/3.40 | 10.20 | 63.6 | 174.0 | 9.9 | 0.4505 |
| Wasp | 100.0 | 7/4.39 | 13.17 | 106.0 | 290.0 | 16.0 | 0.2702 |
| Hornet | 150.0 | 19/3.25 | 16.25 | 157.6 | 434.0 | 25.7 | 0.1825 |
| Chafer | 200.0 | 19/3.78 | 18.90 | 213.2 | 587.0 | 32.4 | 0.1349 |
| Cockroach | 250.0 | 19/4.22 | 21.10 | 265.7 | 731.0 | 40.4 | 0.1083 |
| Butterfly | 300.0 | 19/4.65 | 23.25 | 322.7 | 888.0 | 48.8 | 0.0892 |
| Centipede | 400.0 | 37/3.78 | 26.46 | 415.2 | 1145.0 | 63.1 | 0.0694 |
| Code Name | Nominal Area |
No./Nominal diameter of wires |
Approximate Overall Diameter |
Total Area | Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
| mm² | No./mm | mm | mm² | kg/km | KN | ohm/km | |
| Gnat | -- | 7/2.21 | 6.63 | 26.9 | 73.0 | 4.8 | 1.0643 |
| Mosquito | -- | 7/2.59 | 7.77 | 36.9 | 101.0 | 6.3 | 0.7749 |
| Ladybird | -- | 7/2.79 | 8.37 | 42.8 | 117.0 | 7.3 | 0.6678 |
| Bluebottle | -- | 7/3.66 | 10.98 | 73.6 | 201.0 | 11.8 | 0.3880 |
| Earwig | -- | 7/3.78 | 11.34 | 78.6 | 215.0 | 12.6 | 0.3638 |
| Grasshopper | -- | 7/3.91 | 11.73 | 84.1 | 230.0 | 13.5 | 0.3400 |
| Clegg | -- | 7/4.17 | 12.51 | 95.6 | 261.0 | 15.3 | 0.2989 |
| Beetle | -- | 19/2.67 | 13.35 | 106.4 | 292.0 | 18.1 | 0.2701 |
| Bee | -- | 7/4.90 | 14.70 | 132 | 361.0 | 21.1 | 0.2165 |
| Caterpillar | -- | 19/3.53 | 17.65 | 185.9 | 511.0 | 29.8 | 0.1546 |
| Spider | -- | 19/3.99 | 19.95 | 237.6 | 653.0 | 38.0 | 0.1210 |
| Moth | -- | 19/5.00 | 25.00 | 373.1 | 1025.0 | 59.7 | 0.0770 |
| Drone | -- | 37/3.58 | 25.06 | 372.4 | 1027.0 | 59.6 | 0.0774 |
| Maybug | -- | 37/4.09 | 28.63 | 486.1 | 1341.0 | 77.8 | 0.0593 |
| Scorpion | -- | 37/4.27 | 29.89 | 529.8 | 1461.0 | 84.8 | 0.0544 |
| Cicada | -- | 37/4.65 | 32.55 | 628.3 | 1733.0 | 100.5 | 0.0459 |
| Nominal Corss-section | Number of Wires | Wire Diameter | Calculated Cross-section | Overall Diameter | D.C. Resistance at 20 | Min. Breaking Load | Conductor Weight |
| mm² | mm | mm² | mm | Ω/km | kg/km | ||
| 10 | 7 | 1,35 | 10,0 | 4,05 | 28,631 | 1950 | 27,4 |
| 16 | 7 | 1,70 | 15,9 | 5,10 | 18,007 | 3021 | 43,0 |
| 25 | 7 | 2,13 | 24,9 | 6,40 | 11,498 | 4500 | 68,0 |
| 35 | 7 | 2,50 | 34,3 | 7,50 | 0,8347 | 5913 | 94,0 |
| 40 | 7 | 2,70 | 40,0 | 8,09 | 0,7157 | 6800 | 109,4 |
| 50 | 7 | 3,00 | 49,5 | 9,00 | 0,5784 | 8198 | 135,0 |
| 63 | 7 | 3,39 | 63,0 | 10,16 | 0,4544 | 10390 | 172,3 |
| 70 | 7 | 3,55 | 69,3 | 10,70 | 0,4131 | 11288 | 189,0 |
| 95 | 7 | 4,10 | 92,4 | 12,30 | 0,3114 | 14784 | 252,0 |
| 100 | 19 | 2,59 | 100,0 | 12,94 | 0,2877 | 17000 | 274,9 |
| 120 | 19 | 2,80 | 117,0 | 14,00 | 0,2459 | 19890 | 321,0 |
| 125 | 19 | 2,89 | 125,0 | 14,47 | 0,2301 | 21250 | 343,6 |
| 150 | 19 | 3,15 | 148,0 | 15,80 | 0,1944 | 24420 | 406,0 |
| 160 | 19 | 3,27 | 160,0 | 16,37 | 0,1798 | 26400 | 439,8 |
| 185 | 19 | 3,50 | 182,8 | 17,50 | 0,1574 | 29832 | 502,0 |
| 200 | 19 | 3,66 | 200,0 | 18,30 | 0,1438 | 32000 | 549,7 |
| 240 | 19 | 4,00 | 238,7 | 20,00 | 0,1205 | 38192 | 655,0 |
| 250 | 19 | 4,09 | 250,0 | 20,47 | 0,1150 | 40000 | 687,1 |
| 300 | 37 | 3,15 | 288,3 | 22,10 | 0,1000 | 47569 | 794,0 |
| 315 | 37 | 3,29 | 315,0 | 23,05 | 0,0915 | 51970 | 867,5 |
| 350 | 37 | 3,45 | 345,8 | 24,20 | 0,0833 | 57057 | 952,0 |
| 400 | 37 | 3,66 | 389,2 | 25,60 | 0,0740 | 63420 | 1072,0 |
| 450 | 37 | 3,90 | 449,1 | 27,30 | 0,0642 | 71856 | 1206,0 |
| 500 | 37 | 4,15 | 500,4 | 29,10 | 0,0576 | 80000 | 1378,0 |
| 550 | 61 | 3,37 | 544,0 | 30,30 | 0,0529 | 89760 | 1500,0 |
| 560 | 37 | 4,39 | 560,0 | 30,73 | 0,0531 | 89600 | 1542,2 |
| 600 | 61 | 3,50 | 586,8 | 31,50 | 0,0491 | 95632 | 1618,0 |
| 630 | 61 | 3,63 | 630,0 | 32,64 | 0,0458 | 100800 | 1738,4 |
| 650 | 61 | 3,66 | 641,7 | 32,90 | 0,0450 | 104575 | 1771,0 |
| 700 | 61 | 3,80 | 691,7 | 34,20 | 0,0417 | 112725 | 1902,0 |
| 710 | 61 | 3,85 | 710,0 | 34,65 | 0,0406 | 113600 | 1959,2 |
| 750 | 61 | 3,95 | 747,4 | 35,60 | 0,0386 | 119584 | 2062,0 |
| Nominal Area |
Total Area | No./Nominal diameter of wires |
Approximate Overall Diameter |
Approximate Weight |
Nominal Breaking Load |
Nominal DC Resistance at 20°C |
| mm² | mm² | No./mm | mm | kg/km | KN | ohm/km |
| 35.0 | 34.4 | 7/2.50 | 7.50 | 94.0 | 6.0 | 0.8333 |
| 50.0 | 49.5 | 7/3.00 | 9.00 | 135.3 | 8.4 | 0.5787 |
| 70.0 | 71.3 | 7/3.60 | 10.80 | 194.9 | 11.4 | 0.4019 |
| 95.0 | 95.1 | 7/4.16 | 12.50 | 260.2 | 15.2 | 0.3010 |
| 120.0 | 121.2 | 19/2.85 | 14.30 | 333.2 | 20.6 | 0.2374 |
| 150.0 | 148.1 | 19/3.15 | 15.80 | 407.0 | 24.4 | 0.1943 |
| 185.0 | 182.8 | 19/3.50 | 17.50 | 502.4 | 30.2 | 0.1574 |
| 210.0 | 209.9 | 193.75 | 18.80 | 576.8 | 33.6 | 0.1371 |
| 240.0 | 238.8 | 19/4.00 | 20.00 | 656.3 | 38.2 | 0.1205 |
| 300.0 | 297.6 | 19/3.20 | 22.40 | 819.8 | 49.1 | 0.0969 |
| 500.0 | 502.9 | 19/4.16 | 29.10 | 1385.5 | 80.5 | 0.0573 |
Quality Control
1/0 AWG Poppy AAC Cable
Raw Material Testing
Raw Material Test for the 1/0 AWG Poppy AAC Cable involves rigorous evaluation of 1350 aluminum alloy rods. Chemical composition analysis confirms aluminum purity above 99.5% with tightly controlled impurities. Mechanical properties such as tensile strength, elongation, and hardness are tested against ASTM B-230 H19 requirements. Conductivity testing guarantees at least 61.2% IACS performance. Detailed surface and dimensional inspections using precision equipment identify any potential defects before processing. Only fully compliant raw materials are released for wire drawing in the production of the 1/0 AWG Poppy AAC Cable. This thorough validation step establishes the foundation for superior electrical conductivity, mechanical strength, and long-term reliability in overhead bare conductor applications
Process Inspection
Process Inspection throughout the manufacturing of the 1/0 AWG Poppy AAC Cable ensures precision and consistency. Wire drawing maintains exact diameter tolerances with ongoing monitoring. During stranding, tension systems and automated controls produce a perfect 7-strand concentric lay with verified lay lengths and no gaps. Frequent in-line measurements of diameter and visual checks detect anomalies immediately. Process variables such as speed and environmental conditions are strictly controlled and documented. Intermediate samples undergo resistance and mechanical spot checks. Any non-conformance triggers prompt corrective measures. These detailed process controls protect the integrity and performance characteristics of the 1/0 AWG Poppy AAC Cable, delivering a uniform, high-quality bare aluminum conductor suitable for critical overhead power distribution service
Finished Product
Every reel of finished 1/0 AWG Poppy AAC Cable passes comprehensive Finished Product testing. Dimensional inspections verify the 0.368-inch overall diameter and strand configuration accuracy. Electrical resistance is measured to confirm 0.164 ohms per 1000 ft at 20°C. Mechanical testing validates the minimum 1,990 lbs breaking strength and other required properties. Complete visual examination ensures a defect-free surface. All tests adhere strictly to ASTM B-231 standards, with full documentation and traceability maintained. Packaging and labeling are inspected for accuracy. Only the 1/0 AWG Poppy AAC Cable that satisfies every criterion receives final release. This final quality assurance stage guarantees customers receive a premium All Aluminum Conductor with proven reliability, conductivity, and durability for overhead utility lines.
Application
Perfect for overhead primary distribution, secondary lines, and rural power networks, the 1/0 AWG Poppy AAC Cable ensures efficient electricity transmission on utility poles and towers in residential, commercial, and industrial areas requiring reliable aluminum conductors.
Technical Advantages
● 30+ years of manufacturing experience
● ISO and UL certified production
● Customized cable and transformer solutions
Product Packaging
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DARIEN AAAC (All Aluminum Alloy Conductor) cables are manufactured in compliance with ASTM B399 and IEC 61089 standards, offering excellent conductivity, high tensile strength, and outstanding corrosion resistance. With 700 mm² nominal area and 61-strand construction, it features heat-treated aluminum-magnesium-silicon alloy (6201-T81) for enhanced strength (295 MPa min) and conductivity (53% IACS min). Meeting ASTM B398, B399, IEC 61089, and BS EN 50182 standards, this cable supports ampacity up to 1100A at 75°C and voltages up to 33kV. The uniform alloy eliminates bimetallic issues, offering superior corrosion resistance in harsh environments compared to ACSR. Low weight reduces sag and installation costs, enabling longer spans. The Darien AAAC Conductor Cable provides minimal electrical losses, high mechanical endurance, and excellent weather tolerance. Flame-retardant options available. Suited for urban grids, renewable connections, and coastal installations, it ensures cost-effective, maintenance-free power delivery in overhead systems globally, outperforming traditional conductors in reliability and lifespan.SHOUOJ-mining-cable.webp)
(N)SHOU O/J - 0.6/1kV Mining Cable
The (N)SHOU O/J - 0.6/1kV flexible rubber-insulated cable is engineered according to VDE 0250 standards for reliable power supply in harsh environments such as underground mining, tunneling, and heavy-duty industrial sites. Its robust construction features Class 5 flexible copper conductors, durable rubber insulation, and a heavy-duty rubber outer sheath, delivering excellent mechanical strength, oil resistance, and flame retardancy. Designed for both fixed and flexible installations, the cable operates within a wide temperature range (-40°C to +80°C fixed) and withstands short-circuit temperatures up to +250°C. It is ideal for powering mobile equipment, submersible pumps, and industrial machinery in mining operations, particularly where abrasion resistance and safety are essential.
NS75/NS90 Triplex Unjacketed Overhead Neutral Supported Cable
The NS75/NS90 Triplex Unjacketed Overhead Neutral Supported Cable provides efficient overhead power delivery for Canadian utilities. It consists of two compact 1350-H19 aluminum phase conductors insulated in black sunlight-resistant PE (NS75, 75°C) or XLPE (NS90, 90°C), twisted around a bare ACSR full neutral messenger for structural support and reduced sag. Rated 600V, with NS90 offering higher ampacity due to 90°C rating, it meets CSA C22.2 No. 129 and supports single-phase service drops or secondary distribution. The unjacketed triplex design is lightweight, easy to install, and resistant to weathering, abrasion, and chemicals. Compliant with relevant standards, the NS75/NS90 Triplex ensures cost-effective, durable performance in pole-to-building or pole-to-pole aerial setups.
(N)TMCGEWOU - 12/20kV, 14/25kV and 18/30kV Cable
The (N)TMCGEWOU - 12/20kV, 14/25kV and 18/30kV Cable is a robust, flexible single-core medium-voltage power cable built for extreme industrial and mining demands. It includes class 5 finely stranded tinned copper conductors for flexibility and corrosion resistance, semi-conductive conductor and insulation screens for field control, high-grade EPR (ethylene propylene rubber) insulation offering superior dielectric strength and 90°C continuous operation, tinned copper wire braid screen for EMI shielding and grounding, and a tough halogen-free rubber outer sheath (type 5GM5) resistant to oil, flame, abrasion, moisture, and mechanical damage. Compliant with DIN VDE 0250 Part 813 and IEC equivalents, it handles high test voltages (29kV for 12/20kV, 36kV for 14/25kV, 43kV for 18/30kV) and supports short-length or mobile connections with excellent bending and tensile performance. The (N)TMCGEWOU delivers safe, reliable high-voltage power in harsh environments.
XLPE-HDPE Tree Cable Aluminum 25kV 1x120mm²
The XLPE-HDPE Tree Cable Aluminum 25kV 1x120mm² is designed for medium-voltage overhead distribution systems requiring very high current capacity. Perfect for long-distance transmission lines in rural, coastal, or high-load industrial areas, this cable combines superior durability, environmental resistance, and reliable electrical performance to ensure stable power delivery with minimal energy loss and maintenance. The inner insulation uses cross-linked polyethylene (XLPE), rated for continuous conductor operation at 90°C, fully compliant with ICEA S-121-733 standards. The robust outer jacket is made from high-density polyethylene (HDPE), providing excellent resistance to weathering, ultraviolet radiation, mechanical abrasion, and electrical sparking up to 2.75kV. Standard gray cables feature ASTM B230 markings and sequential metering, while blue cables with spark resistance over 5kV are recommended for harsher environmental conditions. With its ultra high current capacity, robust construction, and environmental resilience, the XLPE-HDPE 25kV tree cable 1x120mm² delivers reliable, long-term power distribution for demanding overhead network applications, ensuring efficiency, safety, and minimal maintenance.FAQ From Customers
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What are the advantages of power cables and overhead lines?(1) Reliable operation, because it is installed in a hidden place such as underground, it is less damaged by external forces, has less chance of failure, and the power supply is safe, and it will not cause harm to people; (2) The maintenance workload is small and frequent inspections are not required; (3) No need to erect towers; (4) Help improve power factor.
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Which aspects should be considered when choosing the cross section of a power cable?(1) The long-term allowable working current of the cable; (2) Thermal stability once short circuited; (3) The voltage drop on the line cannot exceed the allowable working range.
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What are the measures for cable fire prevention?(1) Use flame-retardant cables; (2) Use fireproof cable tray; (3) Use fireproof paint; (4) Fire partition walls and fire baffles are installed at cable tunnels, mezzanine exits, etc.; (5) Overhead cables should avoid oil pipelines and explosion-proof doors, otherwise local pipes or heat insulation and fire prevention measures should be taken.
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What should be paid attention to during the transportation and handling of cables?(1) During transportation, loading and unloading, cables and cable reels should not be damaged. It is strictly forbidden to push the cable reels directly from the vehicle. Generally, cables should not be transported and stored flat. (2) Before transporting or rolling the cable reel, ensure that the cable reel is firm, the cable is wound tightly, the oil pipe between the oil-filled cable and the pressure oil tank should be fixed without damage, the pressure oil tank should be firm, and the pressure indication should meet the requirements.
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What inspections should be carried out for the acceptance of cable lines?(1) The cable specifications should meet the regulations, the arrangement should be neat, no damage, and the signs should be complete, correct and clear; (2) The fixed bending radius of the cable, the related distance and the wiring of the metal sheath of the single-core power cable should meet the requirements; (3) The cable terminal and the middle head should not leak oil, and the installation should be firm. The oil pressure of the oil-filled cable and the meter setting should meet the requirements; (4) Good grounding; (5) The color of the cable terminal is correct, and the metal parts such as the bracket are completely painted; (6) There should be no debris in the cable trench, tunnel, and bridge, and the cover should be complete.
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