Cáp Điều Khiển Helukabel TOPFLEX®-EMV-UV-3 PLUS 2XSLCH-J | Chính Hãng – Chống Nhiễu – Giá Tốt Nhất
TOPFLEX®-EMV-UV-3 PLUS 2XSLCH-J |
for power supply connections to frequency converters, 0,6/1 kV, halogen-free,
|
Technical data
- Special motor power supply cable for
frequency converters adapted to
DIN VDE 0250 - Temperature range
flexing -5°C to +90°C
fixed installation -40°C to +90°C - Permissible operating temperature
at conductor +90°C - Nominal voltage
U0/U 600/1000 V - Max. permissible operating voltage
– 3-Phase and single phase
operation 700/1200 V
– DC operation 900/1800 V - Test voltage
4000 V - Coupling resistance
acc. to different cross sections
max. 250 Ohm/km - Minimum bending radius
flexing for outer Ø:
up to 12 mm: 10x cable Ø
> 12-20 mm: 15x cable Ø
> 20 mm: 20x cable Ø
fixed installation for outer Ø:
up to 12 mm: 5x cable Ø
> 12-20 mm: 7,5x cable Ø
> 20 mm: 10x cable Ø
Cable structure
- Bare copper conductor, fine wire
acc. to DIN VDE 0295 cl.5 /
IEC 60228 cl.5 - Core insulation of cross-linked
polyethylene (XLPE) - Core identification BK, BN, GY
- GN-YE conductor (divided into 3)
- 3+3 core design
- Cores stranded in concentric layers
- 1. Screen with special aluminium film
2. Tinned copper braided screen,
approx. 85% coverage - Outer sheath special polyolefin compound
- Sheath colour: black (RAL 9005)
- With meter marking
Tests
- Flame test acc. to
DIN VDE 0482-332-3-24 /
DIN EN 60332-3-24 / IEC 60332-3-24 - Flame retardant
acc. to DIN VDE 0482-332-1-2 /
DIN EN 60332-1-2 / IEC 60332-1-2 - Corrosiveness of combustion gases
acc. to DIN VDE 0482-754-2 /
DIN EN 60754-2 / IEC 60754-2 - Smoke density acc. to
DIN VDE 0482-1034-1+2 /
DIN EN 61034-1+2 / IEC 61034-1+2 - UV-resistant acc. to DIN EN ISO 4892-2
- Meets EMC requirements acc. to
EN 55011 and DIN VDE 0875-11
Properties
- Halogen-free
- Low mutual capacitance
- Low coupling resistance for high
electromagnetic compatibility - This screened motor supply cable with low
mutual capacitance of the single cores be-
cause of the special XLPE core insulation
and low screen capacitance enable a low-
loss transmission of the power - Due to the optimal screening an
interference-free operation of
frequency converters is obtained - The 3 PLUS-construction of motor power
supply cables features a symmetrical
3-core design, improved in terms of EMC
characteristics comparing favorably with a
4-core version. The protective conductor
PE, divided into 3 is uniformly stranded in
the interstices. This enables an extremely
concentric structure. - The minimum cross section of 0,75 mm²
meets the requirements of DIN EN 60204-1 - The materials used during manufacturing
are cadmium-free, contain no silicone
and are free from substances harmful
to the wetting properties of lacquers
Note
- **) The current carrying capacity for
permanent operation at ambient temperature
of 30°C. For deviating ambient temperatures
the conversion factors should be used and
for further see the indication in
DIN VDE 0298-4. - AWG sizes are approximate equivalent
values. The actual cross section is in mm².
Application
As a supply and connecting cable for medium mechanical stresses in fixed installations and forced movements in dry, moist and wet environments and for outdoor applications. Respecting the permissible operating temperature at the conductor of +90°C permits a higher current carrying capacity than PE insulated power distribution cables. Used in the automobile industry, food industry, environmental engineering, packaging industry, toolmaking machinery, handling equipment, for SIMOVERT drivers, they are particularly suitable for use with industrial pumps, ventilators, conveyor belts and air-conditioning installations and similar applications.
EMC = Electromagnetic compatibility
To optimize the EMC features we recommend a large round contact of the copper braiding on both ends.
CE = Product conforms with Low-Voltage Directive 2014/35/EU.
Downloads
Data sheet
Certificate of compliance
| Part no. | No.cores x cross-sec. mm² |
Outer Ø
app. mm |
Coupling resistance | Power ratings **)
with 3 loaded cores in Amperes |
Cop. weight kg / km |
Weight
app. kg / km |
AWG-No. | |
|---|---|---|---|---|---|---|---|---|
| at 1 MHz
Ohm/km |
at 30 MHz
Ohm/km |
|||||||
| 24536 | 3 x 1,5 + 3 G 0,25 | 9,2 | 23 | 86,0 | 140,0 | 16 | ||
| 24537 | 3 x 2,5 + 3 G 0,5 | 10,8 | 18 | 210 | 32 | 144,0 | 220,0 | 14 |
| 24538 | 3 x 4 + 3 G 0,75 | 12,3 | 11 | 210 | 42 | 224,0 | 323,0 | 10 |
| 24539 | 3 x 6 + 3 G 1 | 14,0 | 6 | 150 | 54 | 298,0 | 420,0 | 10 |
| 24540 | 3 x 10 + 3 G 1,5 | 17,6 | 7 | 180 | 75 | 491,0 | 615,0 | 10 |
| 24541 | 3 x 16 + 3 G 2,5 | 20,4 | 9 | 190 | 100 | 723,0 | 819,0 | 6 |
| 24542 | 3 x 25 + 3 G 4 | 23,2 | 4 | 95 | 127 | 1138,0 | 1325,0 | 10 |
| 24543 | 3 x 35 + 3 G 6 | 26,1 | 3 | 85 | 158 | 1535,0 | 1718,0 | 2 |
| 24544 | 3 x 50 + 3 G 10 | 30,8 | 2 | 40 | 192 | 2208,0 | 2399,0 | 2 |
| 24545 | 3 x 70 + 3 G 10 | 34,2 | 2 | 45 | 246 | 2871,0 | 3056,0 | 2/0 |
| 24546 | 3 x 95 + 3 G 16 | 37,8 | 1 | 50 | 298 | 3953,0 | 4162,0 | 3/0 |
| 24583 | 3 x 120 + 3 G 16 | 42,6 | 346 | 4836,0 | 5075,0 | 4/0 | ||
| 24584 | 3 x 150 + 3 G 25 | 47,5 | 399 | 5412,0 | 6128,0 | 300 kcmil | ||
| 24585 | 3 x 185 + 3 G 35 | 53,4 | 456 | 6969,0 | 7189,0 | 350 kcmil | ||
| 24586 | 3 x 240 + 3 G 42,5 | 58,7 | 538 | 8540,0 | 9540,0 | 500 kcmil | ||
