VLV Aluminum PVC/PVC Power Cable 0.6/1kV for Cost-Effective LV Wiring

VLV is a classic low-voltage power cable designed for fixed installations, offering users lower material costs and reliable performance compared to copper cables. Its typical construction consists of an aluminum conductor, PVC insulation, and a PVC outer sheath, making it ideal for indoor wiring, cable trays, conduits, and protected wiring in residential, commercial, and light industrial projects. If your Bill of Quantities (BOQ) requires an affordable low-voltage cable for power distribution and branch circuits, VLV cables, with their wide range of specifications and easy installation, are an ideal choice.

Note: Please confirm the specific standards and test ranges required in the project documents.

• Low-voltage power distribution and branch circuits within buildings
• Lighting and general electrical wiring in conduits and cable trays
• Cable trays and shafts for fixed installations
• Interconnection between distribution panels and auxiliary low-voltage feeders
• Commercial facilities, warehouses, residential developments, and general infrastructure

• Indoor and outdoor fixed wiring with protection measures (conduits, cable trays, cable trays, protective covers)
• Not recommended for locations subject to repeated bending, dragging, or pulling
• For wiring with high mechanical risk, specify armored low-voltage cables instead of unarmored low-voltage cables

• Aluminum Conductor Stranding and Resistance Control
  Stretching parameters are controlled to meet resistance targets and maintain good bending performance for easy installation.
• PVC Insulation Extrusion
  PVC insulation uses controllable thickness and concentricity to ensure stable dielectric properties for low-voltage circuits.
• Core Identification and Routing
  Cores are identified and stranded to maintain a stable geometry for smooth routing in conduits and cable trays.
• PVC Outer Sheath Extrusion and Marking
  A protective sheath is used to improve abrasion resistance, and printed markings ensure traceability.
• Routine Production Inspections
  Typical inspections include conductor resistance, insulation thickness verification, spark testing, voltage testing, dimensional inspection, and sheath integrity checks.

• 1C Single-core Feeder and Dedicated Circuit
• 2C Single-phase Distribution
• 3C Three-phase Circuit Without Neutral (Depending on Design)
• 4C Three-phase Distribution with Neutral (Common)
• 5C Three-phase Distribution with Neutral and Protective Equipment (PE) (Depending on Design)

1.5 2.5 4 6 10 16 25 35 50 70 95 120 150 185 240 300

• 2C x 2.5 2C x 4 2C x 6
• 3C x 4 3C x 6 3C x 10
• 4C x 10 4C x 16 4C x 25 4C x 35 4C x 50
• 1C x 70 1C x 95 1 core x 120 1 core x 150 1 core x 185

1. When the wiring is for fixed installations and the project prioritizes the cost-effectiveness of aluminum conductors, select extra-low voltage (VLV) cables.
2. Select the number of conductors based on the neutral/protective earth (PE) design and circuit layout.
3. Select the cross-sectional area based on load current, line length, banding method, ambient temperature, and allowable voltage drop.
4. For applications with high mechanical risk, direct burial requirements, or compression risks, specify armored cables instead of unarmored VLV cables.
5. If your project requires flame retardant, low smoke halogen-free (LSZH), or fire-resistant properties, specify the required category to match the correct model series.