Red,black aluminum alloy conductor TUV Certification Solar PV DC Cable 0.6/1.0kV - Wubai Cable

Aluminum Alloy Solar Cable

Aluminum Alloy Solar Cable Weight Reduction and Cost Reduction: Compared with copper-core photovoltaic cables, under the substitution of the same electrical conditions, the weight of the cable can be reduced by 15%, and the material cost can be reduced by about 40%.

Quick Comparison of Aluminum and Tinned Copper Solar Cable
Feature	Aluminum Solar Cable	Tinned Copper Solar Cable
Electrical Conductivity	Lower (larger size required)	Higher
Weight	Very light	Heavier
Installation Cost	Lower	Higher
Corrosion Resistance	Good (installation-sensitive)	Excellent
Thermal Expansion	Higher	Lower
Material Cost	Low	High

Product Model: PV1500DC - AL

Product Standard: 2PG 2642 standard

Product Usage:

Series cables between photovoltaic modules on the DC side in the photovoltaic power generation system, parallel cables between strings and from strings to the DC distribution box (combiner box), and cables from the DC distribution box to the inverter.

Product Execution Standard:

2 PfG 2642/01.22 "Requirements for Aluminum Alloy Core Cables for Photovoltaic Systems".

Structure

Conductor: Aluminum Alloy Insulation: Low-smoke, halogen-free, flame-retardant irradiated polyolefin Outer Sheath: Low-smoke, halogen-free, flame-retardant irradiated polyolefin Sheath Color: Black/Red

Characteristic
Rated voltage	DC 1.5KV / AC 0.6/1KV
Test voltage	6000V
Operating temperature	-40℃~125℃
Short circuit temperature	280℃ 5s
Bending radius	D＜8mm 4D; D≥8mm 6D
Service life	≥25 Years
Standard	2PfG 2642/11.17
Certification	TUV/EN/UL/CE

Aluminum alloy conductor Solar PV DC Cable 1500V
Construction：
Cross Section (mm²)	Conductor ( No./mm)	Insulation Thickness(mm)	Jacket Thickness (mm)	Cable Diameter (mm)	Conductor Resistance at 20℃(Ω/km)	Weight of Cable (KG/KM)
2.5	34/0.2	0.7	0.8	5.3	≤13.20	32
4	56/0.3	0.7	0.8	5.8	≤8.10	42
6	84/0.3	0.7	0.8	6.3	≤5.05	51
10	78/0.4	0.8	0.8	7.5	≤3.08	75
16	119/0.4	0.9	0.9	9	≤1.91	108
25	189/0.4	1	1	10.7	≤1.20	157
35	266/0.4	1.1	1.1	12.2	≤0.868	207
50	371/0.4	1.2	1.2	14	≤0.641	276
70	342/0.5	1.2	1.2	15.9	≤0.443	365
95	456/0.5	1.3	1.3	18.1	≤0.320	476
120	589/0.5	1.3	1.3	19.6	≤0.253	572
150	722/0.5	1.4	1.4	21.7	≤0.206	702
185	888/0.5	1.6	1.6	24.2	≤0.164	870
240	1184/0.5	1.7	1.7	27.2	≤0.125	1115
300	1525/0.5	1.8	1.8	30	≤0.1000	1378
400	2013/0.5	2	2	34.1	≤0.0778	1791

Special Characteristics:

Weight Reduction and Cost Reduction: Compared with copper-core photovoltaic cables, under the substitution of the same electrical conditions, the weight of the cable can be reduced by 15%, and the material cost can be reduced by about 40%.

Excellent Weather Resistance: Both the insulation layer and sheath layer of the cable adopt special irradiation cross-linked polyolefin materials for photovoltaic cables with a temperature resistance of 120°C, enabling the finished cable to have good characteristics such as ultraviolet resistance, ozone resistance, acid and alkali resistance, flame retardancy, and environmental protection. The service life of the cable is not less than 25 years.

Excellent Creep Resistance: The creep resistance of the new alloy conductor is three times that of ordinary aluminum and equivalent to that of copper, ensuring stable and reliable electrical connections.

Certification

Our solar cables have obtained multiple international certifications, including TUV, EN, UL, CE and CQC, ensuring compliance with various market regulations worldwide. These certifications attest to the durability, efficiency, and long-term stability of our cables, making them suitable for various photovoltaic applications, from residential solar panels to large-scale solar farms.

Packing

The regular packaging includes rolls of 100 meters, 200 meters, 500 meters, 1000 meters, and 3000 meters. Customers can choose the most suitable packaging size based on their project requirements.