4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV
The 4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV is engineered for reliable low-voltage power distribution in industrial, commercial, and infrastructure applications. Constructed with high-conductivity stranded copper conductors, premium XLPE insulation, and a durable PVC outer sheath, the cable provides excellent electrical performance, thermal stability, and mechanical protection. The XLPE insulation enables continuous conductor operating temperatures up to 90°C while maintaining outstanding dielectric strength and insulation reliability. The PVC sheath protects against moisture, abrasion, oils, chemicals, and environmental stresses, ensuring long service life in demanding installations. Available in both 4-core and 5-core configurations, the cable is ideal for three-phase power distribution systems, industrial machinery, commercial buildings, utility projects, and electrical networks. Manufactured according to IEC 60502-1 standards, it guarantees safety, efficiency, and dependable performance. Custom conductor sizes, sheath colors, and packaging options are available to meet project-specific requirements. The 4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV is a trusted solution for modern electrical infrastructure.
- Voltage Rating(Uo/U) 0.6/1kV
- Operating Temp 90°C
- Short Circuit Temp 250°C (5 sec)
Construction
Technical Specifications
Quality Control
Application
Construction
4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV Construction
Product Features
Raw Material Qualification
Copper Rod Inspection
XLPE Compound Testing
PVC Compound Verification
Wire Drawing Inspection
Conductor Stranding Inspection
XLPE Insulation Extrusion Inspection
PVC Sheath Extrusion Inspection
Copper Rod Inspection
XLPE Compound Testing
PVC Compound Verification
Wire Drawing Inspection
Conductor Stranding Inspection
XLPE Insulation Extrusion Inspection
PVC Sheath Extrusion Inspection
Conductor Material
High-purity annealed copper
Insulation
Cross-linked Polyethylene (XLPE)
Outer Sheath
Durable flame-retardant PVC
Cores
4-core and 5-core configurations
Size Range
1.5mm² to 630mm²
Standard Compliance
IEC 60502-1, BS 5467
Core Identification
IEC color coding or numbering
Technical Specifications
4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV
4 Cores Copper Cable CU/XLPE/PVC 0.6/1kV Technical Specifications
|
No. of Core x Nominal Section ( mm2 ) |
Insulation Thickness ( mm ) |
Approx. Diameter ( mm ) |
SWA Diamete ( mm ) |
Approx. Overall Diameter ( mm ) |
Calculated Cable Weight ( kg/km ) |
Max. DC Resistance at 20 (Ω/ km ) |
Clipped On perf. cable Direct ( A ) |
tray or free air ( A ) |
Voltage Drop ( mV/A/m ) |
| 4 x 1.5 | 0.7 | 8.8 | 0.9 | 14 | 384 | 12.1 | 23 | 25 | 27 |
| 4 x 2.5 | 0.7 | 9.7 | 0.9 | 14.9 | 453 | 7.41 | 31 | 33 | 16 |
| 4 x 4 | 0.7 | 11 | 1.25 | 17.1 | 700 | 4.61 | 42 | 44 | 10 |
| 4 x 6 | 0.7 | 12.2 | 1.25 | 18.3 | 827 | 3.08 | 53 | 56 | 6.8 |
| 4 x 10 | 0.7 | 14.1 | 1.25 | 20.2 | 1058 | 1.83 | 73 | 78 | 4 |
| 4 x 16 | 0.7 | 16.3 | 1.6 | 23.1 | 1542 | 1.15 | 94 | 99 | 2.5 |
| 4 x 25 | 0.9 | 19.9 | 1.6 | 26.7 | 2074 | 0.73 | 124 | 131 | 1.65 |
| 4 x 35 | 0.9 | 22.6 | 1.6 | 29.6 | 2594 | 0.52 | 154 | 162 | 1.15 |
| 4 x 50 | 1 | 26.2 | 2 | 34.3 | 3669 | 0.39 | 187 | 197 | 0.87 |
| 4 x 70 | 1.1 | 30.5 | 2 | 38.9 | 4717 | 0.27 | 238 | 251 | 0.6 |
| 4 x 95 | 1.1 | 34.3 | 2 | 43 | 5907 | 0.19 | 289 | 304 | 0.45 |
| 4 x 120 | 1.2 | 38.6 | 2.5 | 48.7 | 7716 | 0.15 | 335 | 353 | 0.37 |
| 4 x 150 | 1.4 | 43 | 2.5 | 53.3 | 9221 | 0.12 | 386 | 406 | 0.3 |
| 4 x 185 | 1.6 | 47.6 | 2.5 | 58.2 | 10944 | 0.1 | 441 | 463 | 0.26 |
| 4 x 240 | 1.7 | 53.8 | 2.5 | 64.9 | 13567 | 0.08 | 520 | 546 | 0.21 |
| 4 x 300 | 1.8 | 59.1 | 2.5 | 70.6 | 16267 | 0.06 | 599 | 628 | 0.19 |
| 4 x 400 | 2 | 68 | 3.15 | 81.5 | 22080 | 0.05 | 673 | 728 | 0.17 |
Quality Control
4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV
Raw Material Test
Before manufacturing the 4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV, all incoming materials undergo comprehensive quality inspections. Copper conductors are tested for purity, electrical conductivity, tensile strength, elongation, and surface quality to ensure optimal electrical performance. Spectrometer analysis verifies compliance with international copper standards. XLPE insulation compounds are evaluated for dielectric strength, thermal stability, cross-linking efficiency, and aging resistance. PVC sheath compounds are tested for flexibility, tensile strength, elongation, flame retardancy, and environmental durability. Additional inspections verify moisture content, contamination levels, batch consistency, and dimensional conformity. Samples from every incoming batch are subjected to laboratory testing and visual examination.
Process inspection
The production of 4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV is monitored through a comprehensive process inspection system. Copper wire drawing operations are continuously checked for dimensional accuracy and surface smoothness. Conductor stranding inspections verify strand uniformity, flexibility, and compactness. During XLPE insulation extrusion, critical parameters including temperature, pressure, insulation thickness, and concentricity are monitored in real time. PVC sheathing operations undergo strict inspections for sheath thickness, adhesion quality, and surface appearance. Online spark testing is performed continuously to identify insulation defects immediately.
Finished Product
Each batch of 4/5 Cores Copper Cable CU/XLPE/PVC 0.6/1kV undergoes extensive final testing before shipment. Conductor resistance testing verifies electrical performance and compliance with IEC requirements. Insulation resistance and AC voltage withstand tests confirm electrical safety and dielectric integrity. Dimensional inspections verify conductor size, insulation thickness, and sheath thickness accuracy. Mechanical tests include tensile strength, elongation, sheath adhesion, and flexibility evaluations. Heat aging tests assess long-term performance under elevated operating temperatures.
Application
Suitable for factories, shopping malls, office buildings, substations, renewable energy projects, airports, and large residential complexes. Perfect for fixed installations in cable trays, ducts, conduits, and direct burial applications requiring multiple low voltage circuits.
Technical Advantages
● 30+ years of manufacturing experience
● ISO and UL certified production
● Customized cable and transformer solutions
Product Packaging
Wires and Cables packaging (1)
Wires and Cables packaging (2)
Wires and Cables packaging (3)
Wires and Cables packaging (4)
Wires and Cables packaging (5)
Wires and Cables packaging (6)
Wires and Cables packaging (7)
Wires and Cables packaging (8)
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What are the advantages of power cables and overhead lines?(1) Reliable operation, because it is installed in a hidden place such as underground, it is less damaged by external forces, has less chance of failure, and the power supply is safe, and it will not cause harm to people; (2) The maintenance workload is small and frequent inspections are not required; (3) No need to erect towers; (4) Help improve power factor.
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Which aspects should be considered when choosing the cross section of a power cable?(1) The long-term allowable working current of the cable; (2) Thermal stability once short circuited; (3) The voltage drop on the line cannot exceed the allowable working range.
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What are the measures for cable fire prevention?(1) Use flame-retardant cables; (2) Use fireproof cable tray; (3) Use fireproof paint; (4) Fire partition walls and fire baffles are installed at cable tunnels, mezzanine exits, etc.; (5) Overhead cables should avoid oil pipelines and explosion-proof doors, otherwise local pipes or heat insulation and fire prevention measures should be taken.
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What should be paid attention to during the transportation and handling of cables?(1) During transportation, loading and unloading, cables and cable reels should not be damaged. It is strictly forbidden to push the cable reels directly from the vehicle. Generally, cables should not be transported and stored flat. (2) Before transporting or rolling the cable reel, ensure that the cable reel is firm, the cable is wound tightly, the oil pipe between the oil-filled cable and the pressure oil tank should be fixed without damage, the pressure oil tank should be firm, and the pressure indication should meet the requirements.
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What inspections should be carried out for the acceptance of cable lines?(1) The cable specifications should meet the regulations, the arrangement should be neat, no damage, and the signs should be complete, correct and clear; (2) The fixed bending radius of the cable, the related distance and the wiring of the metal sheath of the single-core power cable should meet the requirements; (3) The cable terminal and the middle head should not leak oil, and the installation should be firm. The oil pressure of the oil-filled cable and the meter setting should meet the requirements; (4) Good grounding; (5) The color of the cable terminal is correct, and the metal parts such as the bracket are completely painted; (6) There should be no debris in the cable trench, tunnel, and bridge, and the cover should be complete.
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