--- title: N2XS(FL)2Y sku: N2XS(FL)2Y-high-voltage-cables description: > The N2XS(FL)2Y cable is a customizable high-voltage cable featuring a well-designed protection system against water ingress and high electrical load capacity. It complies with international standards and is ideally suited for demanding energy infrastructure projects. categories: - High Voltage Cables images: - /uploads/2025/06/N2XSFL2Y-3-scaled.webp application: > The N2XS(FL)2Y is designed for installation in the ground, in cable ducts, pipes, outdoor areas, and indoor spaces. It complies with the IEC 60840 standard and can be tailored to specific project requirements. It is typically used in transmission networks, substations, and large industrial facilities where maximum reliability is essential. locale: en --- }>

Flexible in use – underground, underwater, and on cable trays

The N2XS(FL)2Y is designed for installation in the ground, in cable ducts, pipes, outdoor areas, and indoor spaces. It complies with the IEC 60840 standard and can be tailored to specific project requirements. It is typically used in transmission networks, substations, and large industrial facilities where maximum reliability is essential.

Technical structure

The cable features a multi-stranded copper conductor (class 2 according to IEC 60228). The insulation consists of cross-linked polyethylene (XLPE), embedded between a conductive inner layer and a conductive outer insulation layer. A water-swellable tape, together with copper wires and an open copper helix, provides effective shielding. The outer sheath is made of PE, firmly bonded with an aluminum laminate (Alucopo) – optimal protection against mechanical stress and moisture.

Application features

The N2XS(FL)2Y is waterproof, suitable for underground installation, and resistant to mechanical stress – and thanks to its multi-layered shielding and water-blocking structure, it is particularly suited for critical high-voltage applications. Electrical performance is calculated based on the project – allowing precise adaptation to grid operation requirements.