Specifically designed for photovoltaic systems, these TUV aluminum solar DC cables ensure optimal energy transmission, durability, and safety. Made from high-quality aluminum and featuring a TUV certification, you can trust that our cable will not only meet but exceed industry standards. Experience enhanced performance and longevity with FRCABLE's TUV Aluminum Solar DC Cable, the ultimate choice for a sustainable and efficient solar power system.
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CE H1z2z2-K 6 mm2 1500V Solar Cable
* Rated Voltage: DC 1500V
* Ambient Temperature:-40ºC--90ºC Max
* Temperature at Conductor 120ºC:
* Conductor: Tin-Plated copper, Class5
* Insulation:125ºC XLPE
* Jacket:125ºC XLPE
* Color: Black
* Marking: FRCABLE TÜV EN50618 H1Z2Z2-K DC 1.5KV, 1X6.0mm2 Meter marking
Specially crafted for photovoltaic installations, these TUV copper solar DC cables provide exceptional energy transmission, resilience, and safety. Manufactured with top-grade copper and boasting a TUV certification, our cables consistently surpass industry expectations. Enhance your solar power system's performance and longevity with the TUV Copper Solar DC Cables, the ultimate solution for a reliable and eco-friendly energy source.
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10 mm2 Solar Cable Copper XLPE Double Insulated
* Rated Voltage: DC 1500V
* Ambient Temperature: -40ºC--90ºC Max
* Temperature at Conductor 120ºC
* Conductor: Tin-Plated copper, Class5
* Insulation: 125ºC XLPE
* Jacket: 125ºC XLPE
* Color: Black
* Marking: FRCABLE IEC 62930 DC 1.5KV, 1X4.0mm2 Meter marking
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25mm2 CE H1z2z2-K 1500V Solar Cable
* Rated Voltage: DC 1500V
* Ambient Temperature:-40ºC--90ºC Max
*Temperature at Conductor:120ºC
* Conductor: Tin-Plated copper, Class5
* Insulation:125ºC XLPE
* Jacket:125ºC XLPE
* Color: Black
* Marking: FRCABLE TÜV EN50618 H1Z2Z2-K DC 1.5KV, 1X6.0mm2 Meter marking
* Rated Voltage: DC 900V AC600/1000V
* Ambient Temperature:-40ºC--90ºC Max
*Temperature at Conductor:120ºC
* Conductor: Tin-Plated copper, Class5
* Insulation:125ºC XLPE
* Jacket:125ºC XLPE
* Color: Insulation: Black
* Marking: FRCABLE TÜV 2PFG 1169 PV1-F DC 0.9KV, 1X4.0mm2 TÜV NO. R******* + Meter marking
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6 mm2 H1z2z2-K En50618 Solar Cable
* Rated Voltage: DC 1500V
* Ambient Temperature:-40ºC--90ºC Max
*Temperature at Conductor 120ºC:
* Conductor: Tin-Plated copper, Class5
* Insulation:125ºC XLPE
* Jacket:125ºC XLPE
* Color: Black
* Marking: FRCABLE TÜV EN50618 H1Z2Z2-K DC 1.5KV, 1X6.0mm2 Meter marking
FAQs
Q: What is TUV certification for solar cables?
A: TUV certification is a quality assurance process that verifies that solar cables meet the relevant international standards for safety, performance, and durability. TUV certification is issued by independent testing organizations such as TUV Rheinland or TUV SUD.
Q: What are the services offered by TUV Rheinland for solar and photovoltaics (PV)?
A: TUV Rheinland is an independent testing organization that provides a range of services for solar and photovoltaics (PV) industry, such as: Testing and certification of PV modules, Supply chain management, buyers’ services to assist investors, developers, EPCs, utilities, etc, independent engineering for PV power plants.
Q: What are the differences between copper series and aluminum series solar cables?
A: 1) Material: The copper series uses pure copper as conductor material, while the aluminum series uses aluminum alloy as conductor material. 2) Performance: The copper series has higher conductivity, durability, heat resistance, and flexibility than the aluminum series. 3) Cost: The copper series is more expensive than the aluminum series.
Q: What are the advantages of copper solar cables over aluminum solar cables?
A: Copper cables have Higher conductivity, durability, heat resistance, and flexibility, which means less power loss and higher efficiency, longer lifespan and lower maintenance costs, better performance in hot environments, easier installation and handling.
Q: How to choose the right size and type of TUV solar cable for my PV system?
A: The right size and type of TUV solar cable for your PV system depends on several factors, such as: The voltage and current ratings of your PV modules and inverters, or the length and layout of your cable runs. You should consult a qualified electrician or a PV system designer to determine the best cable size and type for your specific application.