PV 1500V DC-AL Single Core
DC1500V 2PFG 2642 PV1500DC-AL-K Aluminum alloy solar cable
- Ground/ Rooftop/ Floating PV Power Plant Application.
- 25 Years Lifetime & TUV/UL/IEC/CE/Ad8/CPR Certificates
- Suitable for Harsh Indoor and Outdoor Environments 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
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Product Description
PV 1500V DC-AL Single Core : Product Description and Specifications
The DC1500V 2PFG 2642 Aluminum Alloy Solar Cable offers a flexible, reliable solution for interconnecting PV systems. It strictly complies with global standards, including UL4703, IEC 62930, EN 50618, Ad8, and CPR. Furthermore, it holds certifications from TUV, UL, IEC, and CE.
Therefore, this cable suits large-scale stations, rooftops, and floating projects perfectly. It works effectively on diverse roof types, such as desert sands, lakefronts, or snowy mountain tops. Stable connections guarantee your PV system’s long lifespan. Consequently, this increases output capability and saves on running expenses.
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Advantages
PV 1500V DC-AL Single core: Benefits and Features
a.Minimize the weight of cables.
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.
d.Carrying capacity meets the requirements.
e.Aluminum conductors meet Copper-aluminum connection safety mechanical properties standards.
f.Copper-Aluminium joint connectors, plus cable jointings
PV 1500V DC-AL Single Core Specifications
| 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) | Conductor Construction(n x mm) | 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) |
|---|---|---|---|---|---|---|
| 1×4.0 | 56x0.3 | 0.7 | 0.8 | 2.59 | 8.1 | 0.709 |
| 1×6.0 | 84x0.3 | 0.7 | 0.8 | 3.17 | 5.05 | 0.61 |
| 1×10 | 80x0.4 | 0.8 | 0.8 | 4.12 | 3.08 | 0.489 |
| 1×16 | 126x0.4 | 0.9 | 0.9 | 5.18 | 1.91 | 0.395 |
| 1x25 | 199x0.4 | 1 | 1 | 7.36 | 1.2 | 0.393 |
| 1x35 | 278x0.4 | 1.1 | 1.1 | 8.7 | 0.868 | 0.335 |
| 1x50 | 398x0.4 | 1.2 | 1.2 | 10.4 | 0.641 | 0.314 |
Certifications Of PV1500DC-AL-K Solar Cabl
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Production Processes Of Photovoltaic Wire
The smart and digital setup of JOCA cable factory is one that streamlines production processes as well as inspection. This improves the product’s reliability through manual assembly errors reduction by integrating them with intelligent and digital technologies. The factory employs advanced tools like digital image detection and laser technology in its inspection ceremony to ensure high quality products with peak performance.
Packing For Shipment
Different packaging techniques have been adapted to meet specific transportation 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 a PV 1500V DC-AL single core cable?
A: A PV 1500V DC-AL Single Core Cable, it is a solar cable type designed for power generation in photovoltaic systems. It can achieve high voltage levels of 1500 VDC which are applicable to the interconnection of solar panels and inverters in large-scale roofs or ground farms. These cables typically have one conductor, made of copper or aluminium and have been optimized to transmit electricity well with minimal loss.
Q: What are the technical properties of 1500V DC solar cables?
A: The primary features of every 1500V DC Solar Cable, including PV 1500V DC-AL single core, involve high temperature and UV resistance so that they can survive extreme environments, as visible in outdoor solar installations. Also, these cords are meant to be flame-retardant, halogen-free, ozone-resistant, and radiation-resistant, which helps develop safer and more dependable power generation systems. For instance, while maintaining some flexibility and durability necessary during installation, insulation materials used in this case were chosen on purpose to protect against all such factors.
Q: How does the size and material of a conductor affect the performance of a solar cable?
A: The size (normally in mm2 e.g., 6mm2 for some solar cables) and material (usually copper or aluminum) of conductors significantly determine how well a given type of solar cable performs. Larger sizes plus materials featuring lower resistivity, like copper, can transfer more current efficiently because they lose less heat energy than smaller sizes or those having higher-resistance conductors, making them more appropriate for photovoltaic systems transmitting high powers over long distances.
Q: Can PV 1500V DC-AL single core cables be used in all types of solar installations?
A: Truly versatile, PV 1500V DC-AL single core cables find applications even residential rooftops, commercial rooftops and large-scale ground farms. Being robust and having a high voltage rating, they can be installed underground or over the air to link string boxes to inverters. Nonetheless, when selecting the cable type and size, one should take into account particular installation conditions and statutory requirements.
Q: What certifications should I look for in a high-quality solar cable?
A: Highly-rated solar cables such as PV 1500V DC-AL single core must have certified indications that guarantee strict international safety, performance and durability standards are met. Some notable certificates include those covered by TUV, which are European specifications, and other types of relevant certification covering international requirements for photovoltaic systems or regulations of certain countries. These are verifications of the capacity of a cable to withstand all possible conditions in photovoltaic installations.
Q: How important is the solar cable’s resistance to UV and ozone in solar installations?
A: It is important for solar cables to resist UV radiation and ozone especially if they are to be used in solar installations that will be exposed continuously to direct sunlight as well as different outdoor elements. The reason why there are UV-resistant cables is so that they can stand being exposed to sun rays without breaking down, whereas ozone-resistant ones prevent them from degrading due to huge concentrations of ozone. All these characteristics are very necessary because they guarantee reliable operation within long-term frames of reference, i.e., they help avoid an untimely failure of conductors thus maintaining system integrity levels at maximums throughout the lifetime operations of any given power station.
Q: What role does the insulation thickness play in the performance of a PV cable?
A: One of the most important factors for consideration when designing and installing a solar power plant is the insulation thickness on all PV cables. This ensures safety by preventing electrical shock and short circuits, and it also guards them from mechanical and environmental stress. Moreover, it contributes to the overall resistance of the cables against UV rays and ozone as well as high temperatures. The specific requirements for insulation thickness depend on the cable’s voltage rating, application, and environmental conditions.
Q: How to choose the right supplier for PV 1500V DC-AL single core cables?
A: There are several things to consider before selecting among potential manufacturers of PV1500V DC-AL single core cables, including product accreditation/ certification, support provided during the technical installation process, quality assurance processes followed by a manufacturing company or organization that produces such products, and finally, historical background of that company in this industry sector. In addition, search for suppliers who can offer TUV-certified/ compliant Cables. Additionally, go with one that provides full sales back-up, including technical advice tailored to your particular installation circumstances as well as your safety & reliability criteria.



















