Conducting The Energy - Xinfeng Cable

Medium Voltage Covered Conductors (MVCC) CCSX CCST Cable

Leading China Aerial MVCC Cable Manufacturer

Applications

Medium Voltage Covered Conductors (MVCC) are developed to improve the reliability of the distribution of electricity. Covered conductors consist of a conductor insulated by a covering made of insulating material(s) as protection against accidental contacts with other covered conductors and with grounded parts such as tree branches etc.

Share This Page

Standards

IEC: 61089
IS: 398 Part-IV
BS EN: 50182/50397
IEC: 60502

Medium Voltage Covered Conductors (MVCC) CCSX CCST

Construction

Conductor: Stranded non-compacted all aluminum alloy (AAAC) or aluminum conductor steel reinforced (ACSR).
Water Blocking Layer: Extruded, longitudinal water blocking layer (Strippable type, semiconductive, Black).
Conductor Screen: Extruded semi-conductive compound, Black.
Inner Insulation: Extruded cross linked polyethylene (XLPE, Natural).
Outer Insulation: Extruded cross linked polyethylene (UV Stabilized, Tracking & Erosion resistant XLPE, Black).

Characteristics

  • Voltage Rating: 6.6 KV ~ 33 KV
  • U(Um) Max traction: 40N/mm²
  • Halogen-free: Yes
  • UV-resistant: Yes
  • Max. Short circuit temperature: +250°C
  • Min. installation temperature: +80°C
  • Bending radius:  During extraction: 15xD / During final installation: 10xD

Specifications

MVCC are produced in voltage rating between 6.6 KV to 33 KV.

Medium Voltage Covered Conductor(MVCC) systems can be found in South America, Africa, Asia, the Middle East,
Siberia and all across Europe. Examples of applications and reasons for choosing the amokabel covered conductor
system include:

• Forest areas – increased reliability if in contact with branches
and trees across the phases after storms
• Bird and wildlife protection areas – increased safety
• Plantations – increased reliability if in contact with branches
• Urban areas – reduced footprint due to reduced phase-to-phase distance
• Very cold climates – ice more easily released from the conductor
• Coastal areas – protects the aluminium from corrosion
• Voltage upgrades – reduced phase-to-phase distance allows the use of existing poles and crossarms

Conductor structure and size

Approx. Diameter   of Conductor Thickness      of Conductor screen Thickness      of Inner insulation Thickness      of Outer insulation Approx. Cable  OD. Approx. Weight of conductor Approx. Weight of cable Maximum Conductor Resistance at 20°C Approx. calculated Breaking Load

Continuous Current Rating

Nominal Cross Section

Stranding & wire dia.

mm²

No./mm mm mm mm mm mm kg/km kg/km Ω/kM kN A

MVCC Cable 11kV Voltage Rating

22

7/2.00 6.0 0.3 1.2 1.1 11.7 60.16 144 1.5410 6.45 115
34 7/2.50 7.5 0.3 1.2 1.1 13.2 94.00 196 0.9900 10.11

150

55

7/3.15 9.5 0.3 1.2 1.1 15.2 149.20 276 0.6210 16.03 234

80

7/3.81 11.4 0.3 1.2 1.1 17.1 218.26 372 0.4250 23.41

270

100 7/4.26 12.8 0.3 1.2 1.1 18.5 272.86 446 0.3390 29.26

325

120

19/2.83 14.2 0.3 1.2 1.1 19.9 329.18 531 0.2787 33.25 370
148 19/3.15 15.8 0.3 1.2 1.1 21.5 406.91 633 0.2290 43.50

440

232

19/3.94 19.7 0.3 1.2 1.1 25.4 636.67 922 0.1471 68.05 520

MVCC Cable 22kV Voltage Rating

22

7/2.00 6.0 0.3 1.32 1.1 11.9 60.16 149 1.5410 6.45 115
34 7/2.50 7.5 0.3 1.32 1.1 13.4 94.00 201 0.9900 10.11

150

55

7/3.15 9.5 0.3 1.32 1.1 15.4 149.20 282 0.6210 16.03 234
80 7/3.81 11.4 0.3 1.32 1.1 17.4 218.26 379 0.4250 23.41

270

100

7/4.26 12.8 0.3 1.32 1.1 18.7 272.86 453 0.3390 29.26 325
120 19/2.83 14.2 0.3 1.32 1.1 20.1 329.18 539 0.2787 33.25

370

148

19/3.15 15.8 0.3 1.32 1.1 21.7 406.91 641 0.2290 43.50 440
232 19/3.94 19.7 0.3 1.32 1.1 25.6 636.67 932 0.1471 68.05

520

MVCC Cable 33kV Voltage Rating

22

7/2.00 6.0 0.4 2.43 1.2 14.6 60.16 204 1.5410 6.45 115
34 7/2.50 7.5 0.4 2.43 1.2 16.1 94.00 262 0.9900 10.11

150

55

7/3.15 9.5 0.4 2.43 1.2 18.0 149.20 351 0.6210 16.03 234
80 7/3.81 11.4 0.4 2.43 1.2 20.0 218.26 456 0.4250 23.41

270

100

7/4.26 12.8 0.4 2.43 1.2 21.3 272.86 536 0.3390 29.26 325
120 19/2.83 14.2 0.4 2.43 1.2 22.7 329.18 628 0.2787 33.25

370

148

19/3.15 15.8 0.4 2.43 1.2 24.3 406.91 737 0.2290 43.50

440

232 19/3.94 19.7 0.4 2.43 1.2 28.3 636.67 1044 0.1471 68.05

520

Continuous Current Ratings are based on an ambient temperature of 40⁰C, maximum conductor temperature of 80⁰C abd solar radiation intensity of 1000 w/m2

 

GET A FREE QUOTE NOW!

Contact Form Demo (#3)