ERVITAL FIRE SAFE CABLES
In today’s world of rapid urbanization and technological
advancements, the risk of fire has become a pressing
concern. Protecting lives and property requires robust
fire safety measures, and cables play a crucial role in
ensuring critical systems remain operational during
emergencies.
Ervital Fire Safe Cables are designed to meet the highest
standards of fire resistance, offering unparalleled
protection for your building. These cables are engineered to
withstand extreme temperatures, minimize smoke and
toxic emissions, and maintain circuit integrity, even in the
most challenging fire scenarios.
ERVITAL FIRE SAFE CABLES
A specialized cable designed to resist fire and maintain electrical
continuity during fire conditions. It’s made with fire-resistant
materials and produces minimal smoke and toxic gases. This cable
is ideal for applications where safety is paramount, such as
emergency lighting and fire detection systems.
- Used as a power and control cable
- In emergency lighting
- In fire detection
- In fire alarm system circuits
- In places where human life and valuable materials and equipment need to be protected
| Conductor | EN 60228 Class 1 (RE) & 2 (RM) Electrolytic Copper |
| Insulation | EN 50363-1 EI2 Cross-linked Ceramic Forming Polymer Compound |
| Colour Code | 2-core : Brown, Blue or Brown, Brown 3-core : Brown, Black, Grey 4-core : Blue, Brown, Black, Grey |
| Stranding | Cores shall be laid up using the sequence of colours specified |
| Wrapping | Pes Tape |
| Screen | Al-Pes Tape + Tinned Copper Drain Wire (min. 0,5 mm²) |
| Sheath | EN 50290-2-27 HFFR Compound |
| Sheath Colour | RAL 3000 Red Other applicable colors: RAL 2003 Orange, RAL 9005 Black, RAL 9010 White |
| CONDUCTOR RESISTANCE | OPERATING VOLTAGE | MIN.BENDING RADIUS | TEST VOLTAGE | TEMPERATURE RANGE | ||
| mm² 1 1,5 2,5 4 | Ω/km 18,1 12,1 7,41 4,61 | 300/500 V | 6x Cable Ø | CORE/CORE CORE/SCREEN | 2000 V 2000 V | -30⁰C ~ +70⁰C (Temp. for stationary condition) -5⁰C ~ +50⁰C (Temp. for moving condition) *+90°C (Max.Permissible Operating Temperature at Conductor) **Permissible short-circuit temperature 250 °C |
| Cross Section mm² | Overall Diameter (mm) | Approx. Weight (kg/km) | Product Code |
| 2×1 (RE) | 6,0 | 60 | MDER079700200100R |
| 2×1,5 (RE) | 7,0 | 79 | MDER079700200150R |
| 3×1,5 (RE) | 7,6 | 104 | MDER079700300150R |
| 4×1,5 (RE) | 8,3 | 127 | MDER079700400150R |
| 2×1,5 (RM) | 7,4 | 82 | MDER139700200150R |
| 3×1,5 (RM) | 8,0 | 109 | MDER139700300150R |
| 4×1,5 (RM) | 9,0 | 140 | MDER139700400150R |
| 2×2,5 (RE) | 9,0 | 113 | MDER079700200250R |
| 3×2,5 (RE) | 9,1 | 153 | MDER079700300250R |
| 4×2,5 (RE) | 10,1 | 195 | MDER079700400250R |
| 2×2,5 (RM) | 8,8 | 116 | MDER139700200250R |
| 3×2,5 (RM) | 9,5 | 156 | MDER139700300250R |
| 4×2,5 (RM) | 10,6 | 201 | MDER139700400250R |
| FLAME RETARDANT TEST | FLAME PROPAGATION TEST | SMOKE DENSITY TEST | TEST ON CORROSIVENESS COMBUSTION GASES | HALOGEN FREE TEST | CIRCUIT INTEGRITY TEST (FE180) | CIRCUIT INTEGRITY WITH SHOCK TEST (PH120) | CIRCUIT INTEGRITY TEST (CWZ) |
| EN 60332-1-2 | EN IEC 60332-3-24 | EN 61034-2 | EN 60754-2 | EN 60754-1 | IEC 60331-21 | EN 50200 | BS 6387 |
LPCB – DownloadERVITAL FIRE SAFE GOLD CABLES
A specialized cable designed to maintain electrical continuity
during fires. It’s made with fire-resistant materials and can
withstand high temperatures for extended periods. This cable is
commonly used in emergency lighting, fire detection systems,
and other safety-critical applications. Its key features include fire
resistance, low smoke emission, and halogen-free construction.
- Meeting the requirements of BS 7629-1:2015 Standard 60
- Used as a power and control cable
- In emergency lighting
- In fire detection
- In fire alarm system circuits
- In places where human life and valuable materials and equipment need to be protected
Typical application standards are: BS 5839-1, BS 5839-9, BS 5266-1, BS 8519 (Cat-1)
| Conductor | EN 60228 Class 1 (RE) & 2 (RM) Electrolytic Copper |
| Insulation | EN 50363-1 EI2 Cross-linked Ceramic Forming Polymer Compound |
| Colour Code | 2-core : Brown, Blue or Brown, Brown 3-core : Brown, Black, Grey 4-core : Blue, Brown, Black, Grey |
| Stranding | Cores shall be laid up using the sequence of colours specified |
| Screen | Copolymer laminated aluminium tape with the metallic element in contact with the uninsulated circuit protective conductor which is the same section and class as the insulated conductors |
| Sheath | BS 7655-6.1 LTS3 type HFFR Compound |
| Sheath Colour | RAL 3000 Red Other applicable colors: RAL 2003 Orange, RAL 9005 Black, RAL 9010 White |
| CONDUCTOR RESISTANCE | OPERATING VOLTAGE | MIN.BENDING RADIUS | TEST VOLTAGE | TEMPERATURE RANGE | ||
| mm² 1 1,5 2,5 4 | Ω/km 18,1 12,1 7,41 4,61 | 300/500 V | 6x Cable Ø | CORE/CORE CORE/SCREEN | 2000 V 2000 V | -30⁰C ~ +70⁰C (Temp. for stationary condition) -5⁰C ~ +50⁰C (Temp. for moving condition) *+90°C (Max.Permissible Operating Temperature at Conductor) **Permissible short-circuit temperature 250 °C |
| Cross Section mm² | Overall Diameter (mm) | Approx. Weight (kg/km) | Product Code |
| 2×1 (RE) | 6,9 | 77 | MDER029700200100R |
| 2×1,5 (RE) | 7,9 | 101 | MDER029700200150R |
| 3×1,5 (RE) | 8,3 | 125 | MDER029700300150R |
| 4×1,5 (RE) | 9,3 | 156 | MDER029700400150R |
| 2×2,5 (RE) | 9,3 | 148 | MDER029700200250R |
| 3×2,5 (RE) | 9,8 | 184 | MDER029700300250R |
| 4×2,5 (RE) | 10,9 | 230 | MDER029700400250R |
| 2×4 (RE) | 10,3 | 202 | MDER029700200400R |
| 3×4 (RE) | 10,9 | 253 | MDER029700300400R |
| 4×4 (RE) | 12,1 | 316 | MDER029700400400R |
| 2×4 (RM) | 10,9 | 207 | MDER030000200400R |
| 3×4 (RM) | 11,5 | 260 | MDER030000300400R |
| 4×4 (RM) | 12,8 | 325 | MDER030000400400R |
| FLAME RETARDANT TEST | FLAME PROPAGATION TEST | SMOKE DENSITY TEST | TEST ON CORROSIVENESS COMBUSTION GASES | HALOGEN FREE TEST | CIRCUIT INTEGRITY TEST (FE180) | CIRCUIT INTEGRITY WITH SHOCK TEST (PH120) | CIRCUIT INTEGRITY WITH SHOCK and WATER SPRAY TEST (PH30) | CIRCUIT INTEGRITY TEST (CWZ) |
| EN 60332-1-2 | EN IEC 60332-3-22 | EN 61034-2 | EN 60754-2 | EN 60754-1 | IEC 60331-21 | EN 50200 | EN 50200 ANNEX-E | BS 6387 |