News Detail

Company news, delivery updates and technical insights published from WordPress.

More Updates

Use this page to publish company news and technical updates.

Technical Updates
Apr 08, 2026

Understanding Fire Resistant Cable Standards: A Complete Guide

Comprehensive guide to fire resistant cable standards including BS 6387, BS EN 50200, and IEC 60331. Learn cable construction, testing, certifications, and selection criteria.

Understanding Fire Resistant Cable Standards: A Complete Guide

Fire resistant cables are critical components in building safety systems. They ensure circuit integrity during a fire, allowing essential systems like fire alarms, emergency lighting, and evacuation systems to continue functioning. This guide explains the various standards and how to select the right fire resistant cable for your application.

Why Fire Resistant Cables Matter

During a fire, standard cables can fail within minutes due to insulation melting and conductor breakage. Fire resistant cables are designed to maintain circuit integrity for specified durations, enabling:

  • Fire alarm systems to continue detecting and reporting fires
  • Emergency lighting to guide evacuations
  • Fire pumps to operate for sprinkler systems
  • Public address systems to broadcast evacuation instructions
  • Smoke control systems to operate

Key Fire Resistant Cable Standards

BS 6387 — British Standard for Fire Resistant Cables

BS 6387 specifies performance requirements for cables required to maintain circuit integrity under fire conditions:

Category Test Condition Duration Application
Category W 650°C flame + water spray 15 minutes General fire alarm circuits
Category X 650°C flame only 3 hours Emergency power circuits
Category Y 650°C flame + mechanical shock 3 hours Critical systems
Category Z 950°C flame + mechanical shock + water 3 hours Most demanding applications

BS EN 50200 — European Fire Resistance Standard

BS EN 50200 defines the fire resistance test method for unprotected cables:

Classification Fire Test Duration Mechanical Shock Water Spray
PH 30 30 minutes Yes No
PH 60 60 minutes Yes No
PH 90 90 minutes Yes No
PH 120 120 minutes Yes No

IEC 60331 — International Standard

The IEC 60331 series provides internationally recognized fire resistance testing:

  • IEC 60331-1: Test for cables with rated voltage up to 0.6/1kV
  • IEC 60331-2: Test for cables with rated voltage above 1kV
  • Test temperature: 750°C (cables ≤20mm diameter) or 830°C (>20mm)

Fire Resistant Cable Construction

Mica Tape Wrapping

The primary difference in fire resistant cables is the mica tape barrier:

  • Mica is a naturally occurring mineral with excellent fire resistance
  • Applied helically around the conductor
  • Withstands temperatures up to 1000°C
  • Typically 0.1-0.15mm thickness

Insulation Materials

Common insulation materials in fire resistant cables:

  • XLPE (Cross-linked Polyethylene): Good fire resistance, common choice
  • MI (Mineral Insulated): Copper sheath with MgO insulation, highest performance
  • PE (Polyethylene): Used in low-smoke applications

Applications by Cable Type

Fire Alarm Systems

BS 5839-1 specifies requirements for fire alarm cables:

  • Minimum 1-hour fire resistance for circuit integrity
  • Red sheath preferred for identification
  • Fire detector circuits typically use enhanced grades

Emergency Lighting

BS 5266 requirements for emergency lighting cables:

  • Cables must maintain circuit integrity during fire
  • Typically minimum PH 60 classification
  • Green/yellow sheath for easy identification

Fire Fighting Equipment

For fire pumps and suppression systems:

  • Minimum PH 120 recommended
  • Water spray test compliance essential
  • Redundant cable runs often specified

Low Smoke Zero Halogen (LSZH) Options

Modern fire resistant cables often incorporate LSZH materials:

  • Reduced Smoke Density: Less dense smoke clouds during fire
  • Zero Halogen: No toxic HCl gas release
  • Corrosive Gas Emission: pH value > 4.3
  • Application: Enclosed spaces like tunnels, metro stations, high-rise buildings

Testing and Certification

Third-party testing and certification ensures cable performance:

Required Certifications

  • TUV: German safety certification
  • LPCB: Loss Prevention Certification Board (UK)
  • UL: Underwriters Laboratories (North America)
  • CE: European conformity marking

Factory Acceptance Testing

Batch testing typically includes:

  • Conductor resistance measurement
  • Insulation resistance testing
  • High voltage spark testing
  • Continuity verification

Installation Guidelines

Support and Fixing

  • Cable clips at 300mm intervals for vertical runs
  • Cable tray mounting with appropriate fixings
  • Expansion loops at structural movement joints

Jointing and Termination

Fire resistant cable systems require:

  • Fire-rated junction boxes and glands
  • Sealing of all entries to maintain fire barrier integrity
  • Terminations rated for same fire duration as cables

Conclusion

Understanding fire resistant cable standards is essential for specifying the right products for safety-critical applications. Always verify certifications, test reports, and ensure installation practices maintain the fire resistance integrity of the complete system.

FAQ

Q: What is the difference between fire resistant and fire retardant cables?

A: Fire resistant cables maintain circuit integrity during a fire for specified durations. Fire retardant cables slow the spread of fire but may not maintain circuit integrity. Fire resistant is the higher standard required for safety-critical circuits.

Q: How long must fire resistant cables maintain circuit integrity?

A: This depends on the application and local regulations. Fire alarm circuits typically require 1 hour minimum, while emergency power circuits for fire pumps may require 2-4 hours. Always consult applicable codes.

Q: Can fire resistant cables be installed in outdoor environments?

A: Yes, but they require additional UV and weather protection such as conduit or cable trays with covers. Check manufacturer specifications for outdoor rating.

WhatsApp Email Call