THW-90 450/750 V from 16 mm2
THW-90 120 mm2
Nexans ref. P00000156-5
- Packaging: Cut to length (m)
- Colour: Customer Request
- Midspan: No
THW-90 120 mm2
Nexans ref. P00026426-1
- Packaging: Cut to length (m)
- Colour: Customer Request
- Midspan: Yes
THW-90 150 mm2
Nexans ref. P00000157-5
- Packaging: Cut to length (m)
- Colour: Customer Request
- Midspan: No
THW-90 16 mm2
Nexans ref. P00008087-6 - Country ref. 10000473
- Packaging: Cut to length (m)
- Colour: Black
- Midspan: No
THW-90 16 mm2
Nexans ref. P00034323-0
- Packaging: Cut to length (m)
- Colour: Customer Request
- Midspan: Yes
Description
Description
Application
In fixed installations, in buildings, dry or wet indoor locations, in all installations requiring a current capacity greater than TW-80 cable.
STANDARDS
PRODUCT
NTP-IEC 60228; NTP 370.252; IEC 60228
TEST
UL 2556
CONSTRUCTION
1. Conductor: Compact soft copper, class 2.
2. Insulation: Compound polyvinyl chloride PVC.
MAIN CHARACTERISTICS
Good dielectric strength, resistance to moisture, grease, oil and heat up to serving temperature. Flame retardant VW-1.
CROSS SECTION
From 16 mm2 up to 500 mm2.
MARKING
INDECO S.A. THW-90 450/750 V - Section - OIL RESISTANCE II, DOES NOT PROPAGATE THE FLAME VW-1, MADE IN PERU - Year - Sequential length.
PACKING
Non returnable wooden reels.
COLOUR
To costumer request.
NATIONAL STANDARDS
NTP-IEC 60228: Conductors of insulated cables.
NTP 370.252: Thermoplastic and thermoset insulated cables of rated voltages up to and including 450/750 V.
IEC 60228: Conductors of insulated cables.
INTERNATIONAL STANDARDS
IEC 60228: Conductors of insulated cables.
UL 2556: Wire and Cable Test Methods. Section 9.3: FT1 (Vertical-Specimen) Flame Test.
UL 2556: Wire and Cable Test Methods. Section 9.4: VW1 (Vertical-Specimen) Flame Test.
UL 2556: Wire and Cable Test Methods. Section 4.1: Insulation, overall covering, and jacket materials tests.
UL 2556: Wire and Cable Test Methods. Section 4.2: Physical properties (ultimate elongation and tensile strength)
UL 2556: Wire and Cable Test Methods. Section 4.2.8.4: Gasoline Resistance.
UL 2556: Wire and Cable Test Methods. Section 7.15: Flexibility at room temperature after aging.
UL 2556: Wire and Cable Test Methods. Section 7.2: Heat shock.
UL 2556: Wire and Cable Test Methods. Section 7.6: Cold bend.
UL 2556: Wire and Cable Test Methods. Section 7.8: Deformation.
CALCULATION OF CURRENT CONDITION: BUILDING WIRE L.V.; 90°C
CURRENT CAPACITY VALUES AND CURRENT CALCULATION CONDITIONS BASED ON IEC 60364-5-52:2009 :
TABLE B.52.2 (METHOD A1: Two single-core cables in conduit in a thermally insulated wall).
TABLE B.52.10 (METHOD F: Two single-core cables in the air in flat formation and in contact).
Maximum conductor temperature : 90°C.
Ambient air temperature : 30°C.
The above values were corrected with a correction factor for the operating temperature of 90°C.
Characteristics
Characteristics
Construction characteristics
Construction characteristics
Electrical characteristics
Electrical characteristics
Usage characteristics
Usage characteristics
Resources
Resources
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