Industrial control cable KVVP

aluminumflexiblesheathed

Application
This cable is designed for control, monitoring and protection circuits with rated voltage U0/U = 450/750V and below, suitable for control cabinets, machine panels and automation installations.

Materials and Standards

• Conductor: high-purity oxygen-free copper.
• Insulation: polyethylene.
• Shielding: aluminum foil + high-density tin-plated copper braid.
• Sheath: PVC.
• Standard: GB/T9330-2020.

Function in Control and Monitoring Systems
Provides stable signal transmission and reliable protection lines for industrial control and monitoring applications, minimizing electromagnetic interference on signal circuits.

Design Features

• Oxygen-free copper conductor for low resistance.
• Polyethylene insulation for electrical integrity.
• Dual-layer shielding (aluminum foil + tin-plated copper braid) to reduce EMI.
• PVC sheath for mechanical protection and flame retardance.
• Flexible construction with multiple conductor counts (typical: 2×1.0 mm² to 12×1.0 mm² and 2×1.5 mm²).

Performance and Operating Conditions
Low conductor resistance and high insulation resistance for signal integrity; rated long-term operating temperature ≤ 70°C; laying temperature ≥ 0°C. Improved shielding for industrial environments to minimize external interference.

Typical Applications

• Automation systems and industrial control panels (sensors, actuators, PLCs).
• Equipment repair and upgrades—suitable as replacement or upgrade cable.
• Installations where EMI shielding and signal reliability are critical (manufacturing plants, processing lines, monitoring systems).

Key Advantages

• Dual-layer shielding for enhanced EMI containment and signal fidelity.
• Optimized flexibility for routing inside control cabinets and cable ducts.
• Durable PVC outer jacket for mechanical protection and service life.

Operating Parameters (concise)

• Rated voltage: U0/U = 450/750V.
• Long-term allowable operating temperature: ≤ 70°C.
• Laying temperature: ≥ 0°C.
• Bending radius: D < 25 mm → ≥ 4D; D ≥ 25 mm → ≥ 6D.
• Construction layers: Conductor / Insulation / Shield / Sheath.

Typical Configurations and Key Metrics

• 2×1.0 mm² — Conductor structure: 1/1.13 mm; Insulation: 0.6 mm; Braid density: 80%; Sheath: 1.2 mm; Outer diameter ≈ 8.0 mm; Max conductor resistance at 20°C: 0.011 Ω/km; Min insulation resistance at 70°C: 18.1 MΩ·km.
• 3×1.0 mm² — Conductor structure: 1/1.13 mm; Insulation: 0.6 mm; Braid density: 80%; Sheath: 1.2 mm; Outer diameter ≈ 8.4 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 4×1.0 mm² — Outer diameter ≈ 8.9 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 5×1.0 mm² — Outer diameter ≈ 9.6 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 6×1.0 mm² — Outer diameter ≈ 10.2 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 7×1.0 mm² — Outer diameter ≈ 10.2 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 8×1.0 mm² — Outer diameter ≈ 11.2 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 10×1.0 mm² — Outer diameter ≈ 13.0 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 12×1.0 mm² — Insulation: 0.6 mm; Sheath: 1.5 mm; Outer diameter ≈ 13.6 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 18.1 MΩ·km.
• 2×1.5 mm² — Conductor structure: 1/1.38 mm; Insulation: 0.7 mm; Braid density: 80%; Sheath: 1.2 mm; Outer diameter ≈ 8.9 mm; Max R20°C: 0.011 Ω/km; Min R70°C: 12.1 MΩ·km.