MMJ- HF/ EXQ Light

Installation (300/500 V and 450/750 V) cables with XLPE insulation and HFFR sheath

MMJ- HF/ EXQ Light

APPLICATION

For fixed surface and flush-mounted installations, indoors and outdoors. Also suitable for installation in a slot covered with plaster as specified e.g. in SFS 6000.
Not suitable for installation directly in ground nor directly in concrete without protective ducting.
Not for installations subject to electrical interference.
Direct sunlight (UV) may slightly alter the colour of the sheath.
This cable is recommended for use in public and industrial settings whenever good fire retardant qualities, reduced fumes, toxic and corrosive gases emissions are required in the case of fire.

CONSTRUCTION

  • Sheath
    HFFR compound
  • Bedding
    Halogen-free polyolefin compond
  • Conductors
    Cu rope
  • Insulation
    XLPE compound

TEHNICAL CHARACTERISTICS

  • Standard
    SFS 5544; SS 424 02 19-5
  • Test voltage
  • Rated voltage
    450/750 V 300/500 V
  • Fire propagation
    EN 60332-3-23
  • Core identification
    Acc.to HD 308 S2
  • Bending radius (min)
    multicore - 6D
  • Max. operating temperature
    90°C
  • Corrosive gases or halogens
    EN 60332-1-2
  • Min. temp. for cable laying
    -15°C
  • Max. short-circuit temperature
    250°C
Nominal cross-section Conductor construction Max. Resistance at 20°C Outer diam. (approx.) Cable weight (approx.)
mm2 Ω/km mm kg/km
2x1,5 RE 12,1 9,5 117
2x2,5 RE 7,41 9,5 150
2x6 RE 3,08 12,6 275
2x10 RE 1,83 15,0 390
2x16 RE 1,15 17,0 564
3G1,5 RE 12,1 9,90 150
3G2,5 RE 7,41 11,1 200
3G6 RE 3,08 13,6 360
3G10 RE 1,83 16,1 550
3G16 RE 1,15 17,9 695
4G1,5 RE 12,1 10,6 160
4G2,5 RE 7,41 11,6 209
4G6 RE 3,08 14,6 440
4G10 RE 1,83 18,1 700
4G16 RE 1,15 19,7 876
5G1,5 RE 12,1 11,1 197
5G2,5 RE 7,41 12,6 270
5G6 RE 3,08 16,1 525
5G10 RE 1,83 20,1 850
5G16 RE 1,15 21,4 1082
  • *Permissible current rating values are according to:
  • - three-phase circut
  • - laying depth of 0,8m for buried cables
  • K=1 - resistivity of the ground equal to 1,0K-m/W
  • K=1,5 - resistivity of the ground equal to 1,5K-m/W