Applications | These cables are used for the connection of mobile operatingequipment, in mines and undergroundexcavations with hazardous environments,in stationary operation, e.g.high-voltage transformers in mining andtunnelling. |
Standards | VDE 0250 Part 605 |
Construction | |
Conductors | Flexible strandedcopper conductor, class 5 according to DIN VDE 0295. |
Insulation | EPR compound type 3GI3. |
Electrical Field Control | Inner and outer semiconductive layer ofsemiconductive rubber, for 6 kV outersemiconductive layer only. |
Pilot Cores | Stranded copper conductor with EPR insulation. |
Earth Conductor | Spiral ofcopper wiresover the outer semi-conductivelayer of the cores. |
InnerSheath | PVC compound type YM5. |
Monitoring Conductor | Conductive tape serving and overallconcentric Cu wire spinning. |
Intermediate Sheath | PVCcompound type YM5. |
Armour | Braid of galvanized steel wires. |
Outer Sheath | PVC compound type YM5. |
Dimensions and Weight
3.6/6kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 49.0 | 53.0 | 4190 |
3×35+3×16/3E+3×2.5ST+UEL | 52.0 | 56.0 | 4800 |
3×50+3×25/3E+3×2.5ST+UEL | 55.0 | 59.0 | 5600 |
3×70+3×35/3E+3×2.5ST+UEL | 59.0 | 63.0 | 6650 |
3×95+3×50/3E+3×2.5ST+UEL | 63.0 | 67.0 | 7940 |
6/10kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 55.0. | 58.0 | 5300 |
3×35+3×16/3E+3×2.5ST+UEL | 58.0 | 61.0 | 5910 |
3×50+3×25/3E+3×2.5ST+UEL | 61.0 | 65.0 | 6790 |
3×70+3×35/3E+3×2.5ST+UEL | 65.0 | 69.0 | 7860 |
3×95+3×50/3E+3×2.5ST+UEL | 68.0 | 73.0 | 9180 |
8.7/15kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 58.0 | 62.0 | 6810 |
3×35+3×16/3E+3×2.5ST+UEL | 61.0 | 65.0 | 7850 |
3×50+3×25/3E+3×2.5ST+UEL | 64.7 | 68.7 | 9130 |
3×70+3×35/3E+3×2.5ST+UEL | 67.9 | 71.9 | 10750 |
3×95+3×50/3E+3×2.5ST+UEL | 72.4 | 76.4 | 12290 |
12/20kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 62.3 | 66.3 | 8790 |
3×35+3×16/3E+3×2.5ST+UEL | 65.3 | 69.3 | 9930 |
3×50+3×25/3E+3×2.5ST+UEL | 69.0 | 73.0 | 11360 |
3×70+3×35/3E+3×2.5ST+UEL | 72.2 | 76.2 | 13100 |
3×95+3×50/3E+3×2.5ST+UEL | 76.8 | 80.8 | 14750 |
Applications | These cables are used for the connection of mobile operatingequipment, in mines and undergroundexcavations with hazardous environments,in stationary operation, e.g.high-voltage transformers in mining andtunnelling. |
Standards | VDE 0250 Part 605 |
Construction | |
Conductors | Flexible strandedcopper conductor, class 5 according to DIN VDE 0295. |
Insulation | EPR compound type 3GI3. |
Electrical Field Control | Inner and outer semiconductive layer ofsemiconductive rubber, for 6 kV outersemiconductive layer only. |
Pilot Cores | Stranded copper conductor with EPR insulation. |
Earth Conductor | Spiral ofcopper wiresover the outer semi-conductivelayer of the cores. |
InnerSheath | PVC compound type YM5. |
Monitoring Conductor | Conductive tape serving and overallconcentric Cu wire spinning. |
Intermediate Sheath | PVCcompound type YM5. |
Armour | Braid of galvanized steel wires. |
Outer Sheath | PVC compound type YM5. |
Dimensions and Weight
3.6/6kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 49.0 | 53.0 | 4190 |
3×35+3×16/3E+3×2.5ST+UEL | 52.0 | 56.0 | 4800 |
3×50+3×25/3E+3×2.5ST+UEL | 55.0 | 59.0 | 5600 |
3×70+3×35/3E+3×2.5ST+UEL | 59.0 | 63.0 | 6650 |
3×95+3×50/3E+3×2.5ST+UEL | 63.0 | 67.0 | 7940 |
6/10kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 55.0. | 58.0 | 5300 |
3×35+3×16/3E+3×2.5ST+UEL | 58.0 | 61.0 | 5910 |
3×50+3×25/3E+3×2.5ST+UEL | 61.0 | 65.0 | 6790 |
3×70+3×35/3E+3×2.5ST+UEL | 65.0 | 69.0 | 7860 |
3×95+3×50/3E+3×2.5ST+UEL | 68.0 | 73.0 | 9180 |
8.7/15kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 58.0 | 62.0 | 6810 |
3×35+3×16/3E+3×2.5ST+UEL | 61.0 | 65.0 | 7850 |
3×50+3×25/3E+3×2.5ST+UEL | 64.7 | 68.7 | 9130 |
3×70+3×35/3E+3×2.5ST+UEL | 67.9 | 71.9 | 10750 |
3×95+3×50/3E+3×2.5ST+UEL | 72.4 | 76.4 | 12290 |
12/20kV
Number of Cores×Nominal Cross Section | Minimium Overall Diameter | Maximum Overall Diameter | Nominal Weight |
No. ×mm² | mm | mm | kg/km |
3×25+3×16/3E+3×2.5ST+UEL | 62.3 | 66.3 | 8790 |
3×35+3×16/3E+3×2.5ST+UEL | 65.3 | 69.3 | 9930 |
3×50+3×25/3E+3×2.5ST+UEL | 69.0 | 73.0 | 11360 |
3×70+3×35/3E+3×2.5ST+UEL | 72.2 | 76.2 | 13100 |
3×95+3×50/3E+3×2.5ST+UEL | 76.8 | 80.8 | 14750 |