Products

 Cables
Booklet Armoured
XLPE to BS5467 & IEC 502
Construction:
Conductor: Stranded or Solid Plain Annealed Copper
Insulation: XLPE (Cross Linked Polyethylene)
Bedding: Extruded PVC
Armour: Galvanised Steel Wire Armour
Sheath: PVC Black
Application:
Designed for use in mains supply electricity. These cables are provided with mechanical protection and are therefore suitable for external use and direct burial
Technical Data:
Voltage: 600/1000V
Temperature Range: -40C to +90C
Relevant Standards:
Conductor: To BS6360
Armour: To BS442
Sheath: To BS6746 Type G
XLPE Power Cables
600/1000V to BS5467 and in accordance with IEC 502
Construction:
Conductor: Plain Annealed Copper
Insulation: Cross Linked Polyethylene (XLPE)
Bedding: Extruded PVC
Armour: Galvanised Steel Wire Armour
Sheath: Application:
Designed for mains supply electricity. This range of cables is suitable for outside use and direct burial. XLPE offers advantages over both PVC and Polythene, notably in its ability to allow greater current carrying capacity, higher overload and short circuit performance.
Technical Data:
Voltage: 00/1000v
Operating Temperature Range: -40C to +90C
Relevant Standards:
Conductor: To BS6360
Insulation: XLPE Type GP8 to BS6899
Armour: To BS1442
Sheath: To BS6746 Type 9

LSF Booklet & Power Cables
To BS6724 and in accordance with
IEC 332 part 3

Construction:
Conductor: Plain Annealed Copper
Insulation: Cross Linked Polyethylene (XLPE)
Bedding: Thermosetting Low Smoke and fumecompound L.S.F
Armour: Galvanised Steel Wire Armour
Sheath: Thermo-setting Low Smoke and Fume Compound - L.S.F
Application:
This range of Cable is designed for use in environments where fire, dense smoke and toxic fumes would cause a danger to life and equipment
Technical Data:
Voltage: 600/1000v
Operating Temperature Range: -10C to +90C
H.C.L Emission: Relevant Standards:
Cable manufacture in accordance with BS6724
Insulation: BS6724
Armour: BS1442
Sheath: BS6724
Flame Test: BS4066 Part 3 & IEC 332 Part 3 Cat C
SY
PVC PVC GSWB PVC
Construction:
Conductor: Fine Wire Strands of Plain  Annealed Copper
Insulation: PVC, Laying Up: Cores twisted together in Layers
Core Identification: Number Coded, Black Cores with White Numbers + Green/Yellow or Colour Coded
Bedding: PVC
Armour: Galvanised Steel Wire Armour
Sheath: PVC Transparent
Application:
Designed to offer a combination of mechanical protection and exceptional flexibility. Applications include:- control gear, machine tools, presses and any environment where protection against impact and tensile strength is required
Technical Data:
Voltage: 300/500V
Test Voltage: 3000V
Operating Temperature Range:
-5C to +80C flexing
-30C to +80C fixed
Minimum Bending Radius: 20 x Cable diameter
Relevant Standards:
Conductor: Stranding to VDE 0295 Class 5 and VDE 0812
Core Identification: VDE 0293
Sheath: VDE 0250 Part 405

6491X
Fixed Wiring Cables
Construction:
Conductor: Stranded Plain Annealed Copper
Insulation: PVC
Application:
Fixed Wiring Cables have been designed for use in Domestic, Industrial Power and Lighting Applications
Technical Data:
Voltage: 450/750V (designated suitable for 600/1000V systems)
Operating Temperature Range: -20C to +70C
Relevant Standards:
BS6004/75, Cenelec Code H07V-R

6181Y/6181X
Fixed Wiring Cables
Construction:
Conductor: Stranded Plain Annealed Copper
Insulation: PVC (6181Y) or 6181X)
Sheath: PVC
Application:
Double Insulated Surface Wiring Cable for Power, Lighting and Switching Circuits
Technical Data:
Voltage:
300/500V below 50mm2
600/1000V above 50mm2
Operating Temperature Range: -20C to + 70C
Relevant Standards:
Conductor:
BS6360 up to 35mm2
BS6346 50mm2 above

Arctic Grade
PVC PVC
Construction:
Conductor: Flexible Tinned Annealed Copper
Insulation: Arctic Grade PVC
Sheath: Arctic Grade PVC
Application:
Designed to operate in and withstand severe climatic conditions. Arctic Grade PVC remains flexible at a temperature of -20C. Normal PVC becomes brittle at 0C when flexed.
Technical Data:
Voltage: 300/500V
Test Voltage: 2500V
Temperature Range: -20C to + 70C
Relevant Standards:
Managed generally in accordance with BS 6500t 1984