Energy Cables
Energy cables are designed to handle high voltage and current transmission for power distribution networks. These cables comply with IEC 60502 and BS 5467 standards.
High Current Carrying Capacity: Engineered for efficient power transmission.
UV, Water, and Chemical Resistance: Suitable for outdoor and underground applications.
Flame Retardant and Fire-Resistant Options: NHXMH, N2XH provide fire-resistant versions.
General Features of PVC Insulated Cables
Selection Criteria
For Low Voltage Power Distribution: NYY, NAYY → Fixed power installations.
For Medium Voltage Systems: N2XSY, NA2XSY → Used for 6kV and above applications.
For High Voltage Transmission: XLPE HV → Ideal for power plants and urban grid networks
| CODE | DETAILS | CONDUCTOR | INSULATION | FILLER | OUTER SHEAT | Max. Operating Temp. | Max. Short Circuit Tem. | Rated Voltage |
| N2XY | Single Core | Class 1 or Class 2 - Solid or Stranded | Cross linkable polyethylene (XLPE) | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | 90° | 250° | 0.6/1 kV |
| N2XY Flex | Multi-Core | Class 5 - Fine-Stranded Copper | Cross linkable polyethylene (XLPE) | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | 90° | 250° | 0.6/1 kV |
| NYY | Multi-Core | Class 1 or Class 2 - Solid or Stranded | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | 70° | 160° | 0.6/1 kV |
| NYY Flex | Single Core | Class 5 - Fine-Stranded Copper | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | PVC (Polyvinyl chloride) | 70° | 160° | 0.6/1 kV |