PV 1500V DC-AL Double Core
2 PfG 2642 Certified | 1500V DC Aluminum Alloy | LSZH Cross-linked Polyolefin Sheath
- Applied to Ground / Rooftop/ Floating PV Power Plants
- TUV/UL/IEC/CE/Ad8/CPR Certified & 25 Years Lifetime
- Suitable for Harsh Indoor and Outdoor Environment after Electron Irradiation
- Compatible with All Major Solar Connectors
- Delivery in 7 days within 200km
- Fast Sample Processing with Customized Solutions
- High-Quality Materials
- Affordable Price Options
- Global Delivery
- For better data protection, make sure that all uploads are secure
Save at least 30% on average
-
Product Description
DC1500V 2PFG 2642 PV1500DC-AL-K Aluminum Alloy Solar Cable : Product Description and Specifications
The DC1500V 2PFG 2642 Aluminum alloy solar cable flexibly connects photovoltaic systems. It holds key international certifications, including TUV, UL, IEC, and CE. Specifically, this multi-purpose cable suits large-scale stations, rooftops, and floating projects. It fully complies with UL4703, IEC 62930, EN 50618, Ad8, and CPR standards.
Furthermore, it excels in tough environments. For instance, it performs perfectly in deserts, coastal areas, and on lakes. Stable connections ensure safe long-term operation. Consequently, this reduces failure rates and cuts operational costs. Ultimately, it boosts efficiency and ensures sustainable profitability.
-
Advantages
PV 1500V DC-AL Double Core : Benefits and Features
a.Reduce the weight of the cable.
b. It actively resists external threats like ozone, acid, and alkali. Additionally, it withstands harsh climates, ensuring a 25-year lifespan.
c. This cable significantly reduces installation costs. You can bury it directly in the ground. Moreover, it supports series or parallel connections for multiple components.
d.The carrying capacity meets the requirements.
e.Aluminum conductor mechanical properties conform with Copper-aluminium connections safety.
f.Connections between copper-aluminum connectors and cables.
DC1500V 2PFG 2642 PV1500DC-AL-K Solar Cable in Aluminum Alloy - Specifications and Details
| Cable Construction | |
|---|---|
| Conductor | 2 PFG 2642 fifth aluminum alloy flexible conductor |
| Insulation | LSZH cross-linked Polyolefin(120℃) |
| Outer Sheath | LSZH cross-linked Polyolefin(120℃) |
| Sheath color | Black/Red |
| Nominal Voltage | DC1500V |
| Test Voltage | AC6.5kV/5min or DC15kV/5min without breakdown Conductor maximum working temperature when air laying:120℃/2000h |
| Conductor long-term working temperature | 90℃ |
| Ambient temperature | -40℃~+90℃ |
| Maximum short circuit temperature | ≤250℃/5S |
| Expected service life | 25 years |
| Bending radius | 6×D |
| Fire performance | IEC 60332-1 |
| Salt spray emission | IEC 61034;EN 50268-2 |
| Low fire load | DIN 51900 |
| Product certification | TUV 2 PFG 2642/01.22 |
Dimensions/Parameters
| Specification(mm²) | Insulation Normal Thickness(mm) | Sheath Normal Thickness(mm) | Outer Diameter (mm) | Max DC Resistance of Conductor at 20℃ (Ω/Km) | Min Insulation Resistance at 90℃ (mΩ/Km) |
|---|---|---|---|---|---|
| 2×4.0 | 0.7 | 0.8 | 5.6×11.4 | 8.1 | 0.709 |
| 2×6.0 | 0.7 | 0.8 | 6.2×12.6 | 5.05 | 0.61 |
| 2×10 | 0.8 | 0.8 | 7.3×14.8 | 3.08 | 0.489 |
Certifications Of PV 1500V DC-AL Double Core
-
Production Processes Of Photovoltaic Wire
JOCA operates a smart, digital production facility. Therefore, this setup streamlines both manufacturing and inspection processes. It significantly boosts efficiency and strict quality controls. Furthermore, we utilize modern technologies like image detection and lasers instead of manual assembly. This actively reduces mistakes and enhances product dependability. Ultimately, comprehensive testing guarantees the quality of all shipped goods.
Packing For Shipment
Different packaging techniques can meet various transport needs.
| Packing Pictures | Packing Method | Qty/pallet(pcs) | Meter/pallet (M) | G.W/pallet(KGS) | Pallet size (m) | Pallet/20GP | Meter/20GP |
|---|---|---|---|---|---|---|---|
![]() | 100M/ROLL | 4mm²-176pcs | 4mm²-17600m | 4mm²-1144kgs | 1.12x1.12x1.12m | 20 | 4mm²-352000m |
| 6mm²-160pcs | 6mm²-16000m | 6mm²-1360kgs | 6mm²-320000m | ||||
![]() | 200M/ROLL | 4mm²-90pcs | 4mm²-18000m | 4mm²-1170kgs | 1.12x1.12x1.12m | 20 | 4mm²-360000m |
| 6mm²-81pcs | 6mm²-16200m | 6mm²-1377kgs | 6mm²-324000m | ||||
![]() | 100m/plastic drum | 4mm²-125pcs | 4mm²-12500m | 4mm²-850kgs | 1.12x1.12x1.12m | 20 | 4mm²-250000m |
| 6mm²-100pcs | 6mm²-10000m | 6mm²-900kgs | 6mm²-200000m | ||||
![]() | 500m/wood drum | 4mm²-27pcs | 4mm²-13500m | 4mm²-1197kgs | 1.12x1.12x1.12 | 20 | 4mm²-270000m |
| 6mm²-27pcs | 6mm²-13500m | 6mm²-930kgs | 6mm²-270000m | ||||
![]() | 1000M/wood drum | 4mm²-12pcs | 4mm²-12000m | 4mm²-830kgs | 1.12x1.12x1.12 | 20 | 4mm²-240000m |
| 6mm²-12pcs | 6mm²-12000m | 6mm²-1070kgs | 6mm²-240000m |
Have more questions?
Q: What is the significance of using a PV 1500V DC-AL Double Core cable in solar installations?
A: The PV 1500V DC-AL Double Core cable is highly significant in solar installations because it allows for more efficient power transfer over long distances and at less loss of power, through its capability to support high voltage levels up to 1500 volts. While guaranteeing lightness and cost effectiveness due to its aluminum core, the cable maintains adequate conductivity necessary for solar PV systems. The double core design is important for reliable and safe parallel connection of solar panels that contribute to overall efficiency and safety of the whole system.
Q: Can the PV 1500V DC-AL Double Core cable be used for direct burial?
A: Yes. This is because this type of electric wire – the PV 1500V DC-AL Double Core cable – has been designed mainly for direct burial applications. This makes it have a strong body made out of materials such as insulation and sheath with cross-linked polyethylene (XLPE) or similar halogen-free materials that protect it from UV radiation, damage by mechanical forces, and moisture. Hence, it is very useful in reducing additional conduits or protections where outdoor installations are done.
Q: Is the PV 1500V DC-AL Double Core cable resistant to UV and environmental factors?
A: Of course! It is worth mentioning that when designing this type of wire – the PV 1500V DC-AL Double Core cable – an outermost sheath was added with proof against both UV radiation and halogens. This, therefore, means that even under severe sunlight conditions or other things like changeable weather conditions, these cables are not affected; hence, they last longer in outdoor photovoltaic facilities. These are some elements contained in its composition that prevent deterioration brought about by exposure to sunlight, water or temperature changes.
Q: What connectors are recommended for use with the PV 1500V DC-AL Double Core cable?
A: Connectors specifically designed for PV 1500V DC should be used. These connectors are often made from high quality UV resistant materials, and they can handle high voltages and currents typical of solar PV systems. It is also important to ensure that the connector is compatible with a neutral aluminum strand and has been approved for its use in electricity generated from sunlight.
Q: How does the aluminum core in the PV 1500V DC-AL Double Core cable compare to copper in terms of efficiency and cost?
A: The aluminum core of these cables offers an alternative that is not only efficient but also makes it cost effective as compared to copper for solar power systems. For this reason, instead of using smaller cross-sectional areas, these cables are built with larger ones so as to compensate for the low conductivity of aluminum against copper’s higher one. This method provides enough electrical performance at a lower price within solar energy installations. Furthermore, it weighs less than copper, thus simplifying installation and logistics and reducing overall costs.
Q: Is there any special way of installing PV 1500V DC-AL Double Core cable in solar PV systems?
A. Yes, safety and the best performance of PV 1500V DC-AL Double Core cable in Solar PV systems can only be achieved by following certain installation guidelines. These include keeping appropriate distances from heat sources, meeting local codes for direct buried cables by ensuring that the burial depth is at an acceptable level and utilizing proper handling tools and methods during connection and attachment of aluminum core. Additionally, it’s important to have a good earthling system that provides protection against faulted electricity supply, hence preventing shock accidents. Always refer to manufacturer guidelines and local regulations for detailed installation requirements.



















