Categories | Medium Voltage Power Cables |
---|---|
Name: | MV cables |
Rated voltage: | 6/10 kV; 12/20 kV; |
Applications: | electric power plants |
Max. conductor temperature in service: | 90° C. |
Minimum installation temperature: | -20° C. |
Halogen free: | EN 60332-1. |
Place of Origin: | Guangzhou, China |
Brand Name: | SUNWIN |
Certification: | ISO9001, ISO14001, OHSAS18001 |
MOQ: | Negotiable |
Price: | Negotiable |
Packaging Details: | 100 m / tied, or customized |
Delivery Time: | 10 day |
Payment Terms: | 30% deposit, the balance is settled on the delivery date |
Supply Ability: | 100,000 m / month |
Cross Linked Polyethylene Medium Voltage Power Cables For Electric Power Plants
N2XSY medium voltage copper power cable - Construction
1. Stranded (RM) bare copper.
2. Inner layer of semi-conducting material.
3. Core insulation of cross-linked polyethylene.
4. Outer layer of semi-conducting material.
5. Screen of copper wires.
6. Outer sheath of polyvinylchloride (PVC).
Available colours are black or red.
N2XSY medium voltage copper power cable - Technical data and tests
Rated voltage : 6/10 kV; 12/20 kV; 18/30 kV; 20,8/36 kV.
Cable standard : DIN VDE 0267-620.
Operating temperature, short circuit : 250° C.
Max. conductor temperature in service : 90° C.
Minimum installation temperature : -20° C.
Halogen free : EN 60332-1.
Lead free.
UV stability.
N2XSY medium voltage copper power cable - Applications
N2XSY - 6/10 kV; 12/20 kV; 18/30 kV; 20,8/36 kV - medium voltage
power cable is for static application in ground, within and outside
facilities, outdoor, in cable canals, in dry areas or in water.
Due to its very low factor of dielectric loss, which remains
constant over its entire operating lifetime, and owing to excellent
insulation property of XLPE-material, firmly longitudinally spliced
with inner and external screen of semi-conductive material
(extruded in one process), the cable has a high operating
reliability.
This cable can be used in switching blocks, transformer stations,
industrial plants and in electric power plants.
To avoid the effects of external impact, the adhering
semi-conductive layer extruded between conductor and insulation,
along with concentric copper conductor, secures restriction of
electric field and resistance to partial discharges.