NYCWY

Underground cable with PVC insulation and PVC sheath, screened

Underground cable with PVC insulation and PVC sheath, screened

Standard: VDE 0276-603
Design
1 Copper conductor, round solid (RE), round stranded (RM), resp. sector-shaped stranded (SM)
2 Core insulation (PVC)
3 Inner covering (EPDM)
4 Concentric screen (bare copper wires applied with changing direction of lay) and counter helix (copper tape)
5 Sheath (PVC black, UV-resistant)
Application
Power distribution cables in power stations, industrial installations and switchgears, as well as in local mains.
For fixed installation underground, in interior premises, cable ducts, in the open air, in water – as permitted by the local building regulation – if protection against shock hazard in the event of mechanical damage or electrical screening is required. The concentric ceander conductor can be used as PE or PEN conductor and needs not be cut when assembling branch joints.
Technical Data
Rated voltage: kV   0.6/1
Test voltage: kV/Hz     4/50
Laying temperature: °C     min. –5
Operating temperature: °C     -50 up to +70
Conductor temperature: °C     max. +70
Short-circuit temperature: °C/s     max. +160 /5
Core identification:       HD 3080 S2
Fire properties: mm     flame retardant acc. to EN 60332-1-2
Bending radius (mind.):       15× Ø of cable (single-core) and 12x Ø of cable (multi-core)
Certificate: VDE Germany, GOST-R Russia

NYCWY

Underground cable with PVC insulation and PVC sheath, screened

no. of cores
x nom. cross
section
max.
conductor
resistance
current
rating
in the ground
current
rating
in the air
outer
diameter
Cu-
number
total
weight

mm²

Ohm/km

A

A
appr.
mm
appr.
kg/km
appr.
kg/km
200701 2 × 10 RE/10 1,830 95 72 19,0 312 643
200702 3 × 10 RE/10 1,830 79 60 22,0 408 854
200703 4 × 10 RE/10 1,830 79 60 21,5 504 913
200704 2 × 16 RE/16 1,150 122 95 22,0 489 889
200705 3 × 16 RE/16 1,150 102 80 22,0 643 1.020
200706 4 × 16 RE/16 1,150 102 80 25,5 796 1.309
200707 3 × 25 RM/16 0,727 133 108 26,0 902 1.438
200708 3 × 25 RM/25 0,727 133 108 26,5 1.003 1.524
200709 4 × 25 RM/16 0,727 133 108 28,0 1.142 1.709
200710 3 × 35 SM/16 0,524 160 132 28,0 1.190 1.583
200711 3 × 35 SM/35 0,524 160 132 29,0 1.402 1.947
200712 4 × 35 SM/16 0,524 160 132 31,5 1.526 1.990
200713 3 × 50 SM/25 0,387 190 160 32,0 1.723 2.112
200714 3 × 50 SM/50 0,387 190 160 32,5 2.000 2.326
200715 4 × 50 SM/25 0,387 190 160 36,0 2.203 2.688
200716 3 × 70 SM/35 0,268 234 202 36,0 2.410 2.931
200717 3 × 70 SM/70 0,268 234 202 36,5 2.796 3.255
200718 4 × 70 SM/35 0,268 234 202 40,5 3.082 3.650
200719 3 × 95 SM/50 0,193 280 249 40,5 3.296 3.867
200720 3 × 95 SM/95 0,193 280 249 41,5 3.791 4.317
200721 4 × 95 SM/50 0,193 280 249 46,0 4.208 5.001
200722 3 × 120 SM/70 0,153 319 289 44,0 4.236 4.778
200723 3 × 120 SM/120 0,153 319 289 44,0 4.786 5.255
200724 4 × 120 SM/70 0,153 319 289 50,0 5.288 6.736
200725 3 × 150 SM/70 0,124 357 329 48,5 5.100 5.863
200726 3 × 150 SM/150 0,124 357 329 50,0 5.970 6.608
200727 4 × 150 SM/70 0,124 357 329 56,0 6.540 7.985
200728 3 × 185 SM/95 0,099 402 377 52,5 6.386 8.120
200729 4 × 185 SM/95 0,099 402 377 59,5 8.159 9.305
200730 3 × 240 SM/120 0,075 463 443 59,0 8.242 9.312
200731 4 × 240 SM/120 0,075 463 443 66,0 10.546 12.105
200732 1 × 300 RM/35 0,060 518 504 34,3 3.274 3.759

→ Other cross-sections on request.

Technical values can change. No responsibility is therefore taken for correctness.