AL Solar Cable TÜV 2PfG 2642 PV1500 DC 1.5kV
High-performance aluminum solar cable certified to TÜV 2PfG 2642, rated for 1500V DC. Designed for reliable power transmission in commercial and utility-scale PV systems.
The DC aluminum solar cable is TÜV 2PfG 2642 certified and engineered for secure connections between photovoltaic modules and inverters. Designed for long-term outdoor use, it offers excellent resistance to UV exposure, ozone, and moisture, making it a dependable choice for solar cable suppliers and PV system manufacturers requiring durable, high-performance cabling solutions.
Product Specifications
Conductor : Stranded Aluminum Alloy, class 5
Insulation : Cross-linked compound, Black
Jacket : Cross-linked compound, Black or Red
Rated temperature : -40℃ to 90℃
Rated voltage : 1500V DC
Advantages
Electron Beam Cross Linked compound, XLPE/XLPE.
Resistance against UV, Ozone, Fluids, Oil, Salt & General Weathering.
Halogen Free, Flame Retardant, Low Smoke Emission.
25 years of lifetime expectancy.
RoHS-compliant according to EU norms.
Higher water resistance.
TECHNICAL DATA
Operation temperature : -40℃ to 120℃
Ambient temperature : -40℃ to 90℃
Nominal voltage : AC U0/U 1000/1000 V、DC U0/U 1500/1500 V
Max permitted operation voltage : DC 1800V
Test voltage : 6500 V
Item Data
Item description(Part No.) | Cross Section(mm²) | Color | AWG(approx) | Insulation Thickness(mm) | Jacket Thickness(mm) | Outer Dia(mm) | Conductor Resistance (Max. mΏ/m) |
|---|---|---|---|---|---|---|---|
11008040705 | 1 x 4.0 mm² | Black | 12 | 0.70 | 0.80 | 5.6±0.2 | 7.20 |
11008040806 | 1 x 4.0 mm² | Red | 12 | 0.70 | 0.80 | 5.6±0.2 | 7.20 |
11008060707 | 1 x 6.0 mm² | Black | 10 | 0.70 | 0.80 | 6.2±0.2 | 4.80 |
11008060808 | 1 x 6.0 mm² | Red | 10 | 0.70 | 0.80 | 6.2±0.2 | 4.80 |
11008010709 | 1 x 10 mm² | Black | 8 | 0.80 | 0.80 | 7.3±0.2 | 3.08 |
11008010810 | 1 x 10 mm² | Red | 8 | 0.80 | 0.80 | 7.3±0.2 | 3.08 |
FAQs
1. What is the PV1500DC-AL TÜV 2PfG 2642 aluminum solar cable?
The PV1500DC-AL is a TÜV-certified photovoltaic (PV) cable designed for 1500V DC solar systems. Featuring an aluminum conductor with dual-layer insulation, it provides a cost-effective, reliable alternative to copper cables in utility-scale solar installations.
2. What are the advantages of aluminum PV cables compared to copper?
Aluminum solar cables are lighter and more affordable than copper alternatives. While conductivity is slightly lower, they perform exceptionally well in long-distance installations where weight reduction and cost efficiency are priorities.
3. What does the TÜV 2PfG 2642 certification ensure?
TÜV 2PfG 2642 is a strict German standard that guarantees safety, mechanical durability, thermal resistance, and UV stability of PV cables. TÜV-certified PV1500DC-AL cables meet global quality and reliability expectations for solar applications.
4. Where is the PV1500DC-AL 1.5KV aluminum solar cable used?
This cable is ideal for large-scale solar power plants, including ground-mounted and rooftop systems. It is used to connect solar modules to combiner boxes and inverters in high-voltage DC circuits.
5. Can this aluminum solar cable be installed outdoors or underground?
Yes. The cable features UV-resistant, flame-retardant insulation, making it suitable for direct burial, conduit, rooftop, or free-air installations in harsh outdoor conditions.
6. What are the voltage and temperature ratings of the PV1500DC-AL cable?
Rated for 1500V DC, the cable reliably operates in temperatures from -40°C to +120°C, ensuring long-term performance in demanding climates.
7. What sizes are available for the PV1500DC-AL cable?
The cable is available in cross-sectional sizes ranging from 10mm² to 120mm², allowing precise matching to current-carrying capacity and voltage drop requirements for solar installations.
8. Why choose a TÜV-certified PV1500DC-AL aluminum solar cable?
TÜV-certified PV1500DC-AL cables provide safe, high-quality, and cost-effective performance for EPC contractors, solar distributors, and utility-scale solar developers, making them a reliable choice for modern solar power systems.
