Medium Voltage

*Product images are for illustrative purposes only and may differ from the actual product.

5kV/8Kv - EPR Insulation, PVC Jacket - 3-Conductor

Part #: MVE225003

EPR Insulation - PVC Jacket
MV-105 - 133% Insulation Level
5kV/8kV - 3 Conductor

x

Please select all above options before adding to cart.
Construction
Category Conductor Description Annealed bare copper Compact, Class B stranding
Extruded Strand Shield Extruded thermoset semi-conducting stress-control layer over conductor
Category Insulation Description Ethylene Propylene Rubber (EPR), colored to contrast with the black conducting shield layers
Extruded Insulation Shield Thermoset semi-conducting polymeric layer free stripping from insulation
Metallic Shield 5 mils annealed copper tape with an overlap of 25%
Category Jacket Description Flame-retardant, moisture and sunlight resistant Polyvinyl Chloride (PVC)
  • Suitable for use in a broad range of commercial, industrial, and utility applications, where reliability is the major concern, space is limited, and ease of installation is critical
  • Suitable for use in wet or dry locations when installed in accordance with the NEC For use in aerial, direct burial, conduit, open tray, and underground duct installations
  • National Electric Code (NEC)
  • UL 1072
  • UL listed as Type MV-105 for use in accordance with NEC
  • UL 1685
  • IEEE 1202
  • OSHA Acceptable

Questions & Answers

Ask a Question

Part Number Table

Part # Gauge Conductors Stranding Ground Gauge Insulation Thickness Jacket Thickness Outside Diameter Inches Material Weight (Lbs./M')
MVE20603 6 3 7 6 0.115 0.08 1.29 939
MVE20403 4 3 7 6 0.115 0.08 1.39 1163.7
MVE20203 2 3 7 6 0.115 0.08 1.51 1471.5
MVE21/003 1/0 3 19 4 0.115 0.11 1.67 1978.1
MVE22/003 2/0 3 19 4 0.115 0.11 1.82 2282.8
MVE24/003 4/0 3 19 3 0.115 0.11 2.07 3298.6
MVE225003 250 3 37 3 0.115 0.11 2.15 3773.7
MVE235003 350 3 37 2 0.115 0.11 2.36 4844
MVE250003 500 3 37 1 0.115 0.11 2.64 6370.7
MVE275003 750 3 61 1/0 0.115 0.14 3.14 9279.3

Note: The data shown is approximate and subject to standard industry and manufacturer tolerances