MV-105 (N2XSEYBAIY) 5 kV 133% I.L.; with bare ground. Cond.; FT4/IEEE 1202
Power distribution in medium voltage.
StandardsInternational : FT4 IEEE1202 ; IEC 60332-1-2; IEC 60754-1; UIC 895
National : ASTM B 8; ICEA S-93-639; SAE J-1127; UL 2556; UL 44
Power distribution in medium voltage. As transformer feeders in substations. In power plants, industrial and operation installations, in residential areas mining installations where high mechanical strength is required. The type of conformation of the interlocked armour make has a high resistance to loads that could be placed on it.
1. Conductor: Compacted soft copper, class B.
2. Inner semi-conductor: Extruded.
3. Insulation: Cross linked polyethylene XLPE-TR (Tree retardant) 105°C.
4. External semi-conductor: Extruded strippable.
These last three components extruded CV (continuous vulcanization) triple extrusion in dry cure process.
5. Individual screen: Copper tapes.
6. Bare grounding conductor: Compacted soft copper, class B.
7. Separation sheath: Anti-flame compound polyvinyl chloride PVC.
8. Armor: Interlocked aluminum tape.
9. Outer sheath: Anti-flame compound polyvinyl chloride PVC.
Excellent properties against heat aging. Insulation level of 133%. Its armour provides additional mechanical protection and provides flexibility compared with other types of armour. Resistance to abrasion, moisture and sunlight. Resistance to liquid fuels and oils according to UIC 895 OR. Resistance to sulfuric acid according to SAE J1127. Low halogen content according to IEC 60754-1. Resistant to gasoline GR I according to UL 44. Fire retardant according to IEEE 1202/FT-4.
INDECO S.A. MV-105 (N2XSEYBAIY) 5 kV 133% I.L. - (Nb. Cores x Gauge + Grounding Cond. Gauge) - Year - Sequential Length.
Non returnable wooden reels.
Insulation: Natural (Core identification with binder tapes: white, black, red).
Outer sheath: Black.
ASTM B8: Concentric-Lay-Stranded copper conductors, hard, medium-hard, or soft.
ICEA S-93-639: 5-46 kV shielded power cable for use in the transmission and distribution of electric energy. Oil immersion test.
IEC 60332-1-2: Test for vertical flame propagation for a single insulated wire or cable - Procedure for 1 kW pre-mixed flame.
UL 2556: Wire and Cable Test Methods. Section 9.3: FT1 (Vertical-Specimen) Flame Test.
FT4/IEEE 1202: Vertical Tray Flame Test.
IEC 60754-1: Test on gases evolved during combustion of materials from cables - Part 1: Determination of the halogen acid gas content.
SAE J1127: Standard for Vehicle Cables. Battery cable Clause 6.7 (Compatibility of fluids) - Resistance to Sulfuric Acid.
UL 44: Thermoset-Insulated Wires and Cables. Section 5.17: Gasoline and oil resistance.
UIC 895 OR: Technical specifications for the supply of insulated electric cables for railway vehicles - Oil resistance.
UL 2556: Wire and Cable Test Methods. Section 220.127.116.11: Carbon-Arc and Xenon-Arc Tests- Sunlight resistance.
|Conductor material||Soft copper|
|Material of the inner semi-conductor||Extruded|
|Material of the external semi-conductor||Extruded strippable|
|Individual screen||Copper tapes helically applied|
|Armour type||Interlocked aluminum tape|
|Outer sheath||Flame retardant PVC|
|Dielectric strength core to screen DC, min.||18.0kV|
|Time of application Dielectric strength core to screen DC||5min.|
|Voltage for partial discharge test||18.0kV|
|Maximal partial discharge test||5pC|
|Mechanical resistance to impacts||Excellent|
|Slightly halogenous||IEC 60754-1|
|U.V resistance||UL 2556 - Sunlight Resistance|
|Flame retardant||IEC 60332-1-2; FT1|
|Fire retardant||FT4/IEEE 1202|
|Oil resistance||UIC 895 OR|
|Fuel resistance||GR I - UL44|
|Maximum operating temperature||105°C|
|Overload maximum core temperature||140°C|
|Short-circuit max. conductor temperature||250°C|
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