Premium PV1-F Solar Panel Cable Halogen-Free 1500V DC Photovoltaic Wire for Renewable Energy Systems

Outdoor solar projects face significant risks from intense UV radiation, extreme temperature fluctuations, and harsh weather, leading to cable aging, energy loss, and costly project delays. The PV1-F dedicated solar PV cable addresses these pain points with advanced photovoltaic-grade materials and a low-loss design. Featuring high-purity Class 5 stranded copper conductors, reinforced XLPE insulation, and a premium photovoltaic-grade weather-resistant sheath, the PV1-F cable maintains stable performance for 25 years in outdoor environments. It can operate seamlessly in extreme temperatures ranging from -45°C in the Arctic to 90°C in the desert, minimizing energy loss, and is waterproof, dustproof, and salt spray resistant. This product has passed EU (CE/RoHS 3.0), North American (UL 4703), Australian (SAA), and Middle East & North Africa (SASO) standard certifications, making it a trusted choice for global solar developers, EPC contractors, and renewable energy investors.

PV1-F is a high-performance, low-voltage (1kV) dedicated photovoltaic cable designed specifically for DC power transmission in photovoltaic systems, used to connect solar panels, combiner boxes, inverters, and energy storage systems. Its unique photovoltaic-optimized structure ensures long-term outdoor reliability: 5-ply ultrafine stranded copper conductor (flexible design, suitable for complex rooftop/solar power station installations, low resistance), reinforced cross-linked polyethylene (XLPE) insulation (heat resistant, aging resistant, high dielectric strength), and photovoltaic-grade polyolefin sheath (core weatherproof layer, UV stable, hydrolysis resistant, ozone resistant). "PV1-F" definition: PV = Photovoltaic (solar application); 1 = Rated voltage 1kV; F = Flexible 5-ply stranded conductor. Its advantages: Unlike ordinary outdoor cables, the PV1-F sheath is formulated with special UV absorbers and anti-aging additives and has passed 22,000 hours of accelerated aging testing. Furthermore, it features a flame-retardant design and low capacitance, ensuring safe operation and efficient energy transfer—crucial for solar projects with a lifespan exceeding 25 years.

• Enhanced 25-Year UV and Weather Durability: The photovoltaic-grade sheath complies with IEC 60811-504 and UL 4703 standards and can withstand 22,000 hours of accelerated UV aging testing (equivalent to 25 years of outdoor exposure). It can withstand desert sun, coastal salt spray, mountain snow, and sandstorms in the Middle East and North Africa—the sheath will not crack, peel, or degrade in performance. No need for frequent cable replacements, reducing long-term maintenance costs by 30%.
• Ultra-low transmission loss, improving solar power generation efficiency: The reinforced XLPE insulation layer has a uniform thickness, minimizing power loss (≤1.9% loss per 100 meters for a 4mm² cross-section), 15% lower than standard solar cables. This maximizes solar energy conversion efficiency, directly improving the project's return on investment. Compatible with all mainstream solar inverters (SMA, Fronius, Huawei, SolarEdge) and combiner boxes, allowing seamless integration into any solar system.
• Flame-retardant and chemically resistant, safe and reliable: Complies with IEC 60332-1-2 (flame retardant) and UL 1685 standards, preventing the spread of fire during short circuits. Halogen-free, compliant with RoHS 3.0 and REACH regulations—does not produce toxic gases or corrosive fumes when burning, suitable for residential rooftop photovoltaics and industrial solar parks. Resistant to industrial contaminants and weak acids/alkalis, suitable for solar projects in industrial areas.
• All-weather extreme adaptability (-45℃ to 90℃): The sheath uses an antifreeze and high-temperature resistant formula. Reliable operation in Arctic rooftop PV at -45°C, desert solar power plants at 90°C (ambient temperature + solar radiation), humid coastal environments at 65°C, and high-altitude solar projects. Outdoor installation requires no additional protective casing, saving 25% on project material costs.
• Global solar certifications and local compliance: CE/RoHS 3.0 (EU, compliant with EN 50618), UL 4703 (North America, compliant with NFPA 70 NEC), SAA (Australia/New Zealand), SASO (Middle East and North Africa) certifications. Customized local compliance documentation (grid connection report, safety certificate) is provided for target markets to ensure smooth project approval. In stock, shipping within 3 days, with global logistics partners guaranteeing on-time delivery.

Note: All specifications are in stock (fast shipping within 3 days). Bulk orders can be customized with core count (2 cores/4 cores) and cross-sectional area (1.5~35mm²), guaranteeing comprehensive UV resistance, low loss performance, and regional certification.

PV1-F cables are designed to meet global solar power transmission needs, covering application scenarios in regions with high compliance requirements:

• EU Market: Residential rooftop PV systems, Building Integrated Photovoltaics (BIPV), small-scale solar power plants, solar carport transmission lines (compliant with CE/RoHS 3.0 standards, meeting EU Solar Directive and grid connection standards)
• North American Market: Utility-scale solar power plants, industrial rooftop PV installations, solar-storage hybrid systems, community solar projects (UL 4703 certified, compliant with NFPA 70 NEC and IEEE 1547 grid connection standards)
• Australia and New Zealand: Coastal utility-scale solar power plants, inland remote area solar systems, residential rooftop PV, solar hot water transmission lines (SAA certified, resistant to coastal salt spray, inland UV radiation, and high temperatures)
• Middle East and North Africa Market: Desert solar power plants, Concentrated Solar Power (CSP) Auxiliary photovoltaic systems, commercial rooftop solar power in high-temperature areas, solar desalination plant transmission lines (SASO certified, heat-resistant, dust storm-resistant, UV-resistant)
• Global solar energy application scenarios: DC transmission for floating solar power plants, high-altitude solar projects in mountainous areas, agricultural solar greenhouse transmission lines, off-grid solar systems in remote areas (weatherproof, low-loss, compatible with all solar modules)