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PRODUCTSPhotovoltaic Cable
Application:
These cables are designed for connecting photovoltaic system components inside and outside of buildings and equipment with high mechanical requirements and extreme weather conditions.
Standard and Approval:
DIN EN 50618 (H1Z2Z2-K)
Cable construction:
Conductor: Stranded tinned copper conductor per DIN VDE 0295 and IEC 60228 Class 5.
Insulation: Electron beam cross-linked, halogen free and flame retardant compound.
Sheath: Electron beam cross-linked, LSZH and flame retardant compound, Black
Electrical Properties:
Rated Voltage U0/U: 1/1 kV AC; 1.5/1.5 kV DC
Maximum Permitted DC Voltage: 1.8 kV DC (conductor/conductor, non earthed system, circuit not under load)
Insulation Resistance: 1000 MΩ-km
Spark Test: 6000 Vac (8400 Vdc)
Voltage Withstand: 6500 Vac for 5 min
Thermal Properties:
Maximum Voltage:1.2KV (AC), 1.8KV (DC)
Ambient Temperature: -40℃ ~ +90℃
Maximum Temperature At Conductor: 120℃ (20000h) according to IEC/EN 60216-1
Short Circuit Temperature: 250℃/5 sec
Thermal Endurance Test: According to EN 60216-2 (temperature index +120° C)
Damp-Heat Resistance: According to EN 50618, Table 2with 85% humidity(test acc. to EN 60068-2-78)
Mechanical Properties:
Minimum Bending Radius: 4×OD (fixed), 5×OD (flexing)
Dynamic Penetration:According to Acc. to EN 50618, Annex D,Meets requirements of EN 50618.
Tensile Strength And Elongation Of Insulation And Jacket: 250℃
Anticipated Period Of Use: 25 years
Ovality:≤15%
Chemical Properties
Ozone Resistance: According to EN 60811-403(25℃,24h,(250 to 300) × 10−4%) ;Method B: EN 50396(40℃,72h,55%RH, (200 × 10−6%)
Weathering- UV Resistance( Resistance on sheath): tensile strength and elongation at break after 720h (360 Cycles) of exposure to UV lights (acc. to EN 50289-4-17, Method A According to HD 605/A1)
Ammoniac resistant:
Very good resistance to oils and chemicals
High wear and robust, abrasion resistant
EC directives:
The cables are conform to the EC directives CE 2006/95/EC (Low voltage directive) and RoHS 2002/95/EC (Restriction of Hazardous Substances)
Fire Performance:
Flame retardant according to EN 50265-2-1, IEC 60332-1, VDE 0482-332-1-2, DIN EN 60332-1-2
Low smoke emission according to EN 61034-2 (Light Transmittance ≥60%)
Halogen free according to EN 50525-1, Annex B
Low corrosivity of gases according to EN 50267-2-2, IEC 60754-2
Dimensions and Weight:
| No. of Cores ×Nominal Cross Section |
No. ofStranding | Nominal Conuctor Diameter | Nominal Insulation Thickness | Nominal Sheath Thickness | Nominal Overall Diamater | Nominal Weight |
|---|---|---|---|---|---|---|
| No. ×mm² | - | mm | mm | mm | mm | kg/km |
1×1.5 |
30/0.25 |
1.58 |
0.70 |
0.80 |
5.4 |
40 |
1×2.5 |
50/0.25 |
2.04 |
0.70 |
0.80 |
5.9 |
50 |
1×4.0 |
56/0.30 |
2.59 |
0.70 |
0.80 |
6.6 |
70 |
1×6.0 |
84/0.30 |
3.17 |
0.70 |
0.80 |
7.4 |
80 |
1×10 |
78/0.40 |
4.07 |
0.70 |
0.80 |
8.8 |
130 |
1×16 |
128/0.40 |
5.22 |
0.70 |
0.90 |
10.1 |
200 |
1×25 |
199/0.40 |
6.51 |
0.90 |
1.00 |
12.5 |
290 |
1×35 |
279/0.40 |
7.71 |
0.90 |
1.10 |
14.0 |
400 |
1×50 |
396/0.40 |
9.00 |
1.00 |
1.20 |
16.3 |
550 |
1×70 |
360/0.50 |
10.8 |
1.10 |
1.20 |
18.7 |
750 |
1×95 |
475/0.50 |
12.6 |
1.10 |
1.30 |
20.8 |
970 |
1×120 |
608/0.50 |
14.2 |
1.20 |
1.30 |
22.8 |
1220 |
1×150 |
756/0.50 |
15.8 |
1.40 |
1.40 |
25.5 |
1510 |
1×185 |
925/0.50 |
17.4 |
1.60 |
1.60 |
28.5 |
1850 |
1×240 |
1221/0.50 |
20.4 |
1.70 |
1.70 |
32.1 |
2400 |
Current Carrying Capacity
Cross Section |
AWG | Maximum Conductor Resistance at 20℃ |
Maximum insulation Resistance at 20℃ |
Maximum insulation Resistance at 90℃ |
Current Carrying Capacity | |||
|---|---|---|---|---|---|---|---|---|
| Single cable free in air | Single cable on surfaces | 2 loaded cables adjacent on surfaces |
||||||
| mm² | - | Ω | MΩ.km | MΩ.km | A | A | A | |
1.5 |
16 |
13.7 |
859 |
0.859 |
30 |
29 |
24 |
|
2.5 |
14 |
8.21 |
691 |
0.691 |
41 |
39 |
33 |
|
4 |
12 |
5.09 |
579 |
0.579 |
55 |
52 |
44 |
|
6 |
10 |
3.39 |
499 |
0.499 |
70 |
67 |
57 |
|
10 |
8 |
1.95 |
424 |
0.424 |
98 |
93 |
79 |
|
16 |
6 |
1.24 |
342 |
0.342 |
132 |
125 |
107 |
|
25 |
4 |
0.795 |
339 |
0.339 |
176 |
167 |
142 |
|
35 |
2 |
0.565 |
287 |
0.287 |
218 |
207 |
176 |
|
50 |
1/0 |
0.393 |
268 |
0.268 |
276 |
262 |
221 |
|
70 |
2/0 |
0.277 |
247 |
0.247 |
347 |
330 |
278 |
|
95 |
3/0 |
0.210 |
220 |
0.220 |
416 |
395 |
333 |
|
120 |
4/0 |
0.164 |
211 |
0.211 |
488 |
464 |
390 |
|
150 |
300 kcmil |
0.132 |
206 |
0.206 |
566 |
538 |
453 |
|
185 |
350 kcmil |
0.108 |
200 |
0.200 |
644 |
612 |
515 |
|
240 |
450 kcmil |
0.082 |
198 |
0.198 |
775 |
736 |
620 |
|
Conversion Factor for Deviating Temperatures
Ambient Temperature ℃ |
Conversion Factor |
|---|---|
Up to 60 |
1.00 |
70 |
0.91 |
80 |
0.82 |
90 |
0.71 |
100 |
0.58 |
110 |
0.41 |
Reduction factor for accumulation according to IEC 60364-5-52, Table B.52-17