PV1-F Solar Cable (TUV 2PfG 1169) | DC1000V/1500V PV Wire
TÜV 2PfG 1169 PV1-F LSZH Electron-beam Cross-linked Solar Cable
- Conductor : Electrolytic annealed tinned copper conductor, class 5 according to EN 60228 / IEC 60228.
- Insulation : Halogen free thermosetting rubber insulation, type EI6 according to EN 50363-1, according to
table 4 of the TÜV Standard and according to table 6 of the UTE Standard. - Outer sheath : Halogen free thermosetting rubber outer sheath, type EM8 according to EN 50363-6, according
to table 4 of TÜV Standard and according to table 6 of UTE Standard. Red or black colour.
- 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
PV1-F Description of Solar Cable Product
Secure reliable connections in photovoltaic systems worldwide with this highly flexible PV1-F solar cable. Furthermore, it actively holds full certifications from TUV, UL, IEC, CE, and RETIE. Specifically, it strictly meets rigorous standards like UL4703, IEC62930, and EN50618/CPR.
In addition, this versatile cable connects diverse applications, including utility-scale farms, rooftops, and floating stations. It effectively withstands harsh outdoor climates, ranging from deserts to coastal areas. Consequently, choose our PV1-F cable for stable, long-term operation. It actively minimizes failure rates and maximizes your investment returns.
-
Advantages
PV1-F - Discover the Advantages
a. Electron-beam crosslinked compounds
b. UV, ozone and hydrolysis resistant
c. High temperature resistant ,the materials do not melt or flow
d. Good cold flexibility
e. Very long service life > 25 years at 90 ℃
f. Compatible to all popular connectors
PV1-F Solar Cable Specifications
| Cable Construction | |
|---|---|
| Conductor | Tinned copper, electrical property & Structure in accordance with EN60228 Class 5. |
| Insulation | LSZH electron-beam cross-linked Polyolefin copolymer ROHS material, prior color black or as per customer's request. |
| Outer Sheath | LSZH & UV-resistant electron-beam cross-linked Polyolefin copolymer ROHS material, prior color black or as per customer's request. |
| Technical Specification | |
| Nominal Voltage | UO/U 0.6/1KV(AC)/ 1KV(DC) |
| Test Voltage | No break down at 6.5kv(AC)50HZ 5min & 20℃±0.5/15kv(DC)5min 20℃±0.5 |
| Temperature Rating connectors | Working temperature -40℃~+90℃,Max conductor temperature 125C(continuously20h),Allowable short circuit temperature 200°C in 5second |
| Service Life | Expected life spanz25 years |
| Bending Radius | Fixed installation>4D, Occasionally moved>5D |
| Material Properties/Standards | |
| Fire-resistant Performance | IEC 60332-1 |
| Gas Emission | IEC 61034;EN50268-2 |
| Low fire load | DIN 51900 |
| Approvals | TUV 2PFG 1169/08.2007 PV1-F |
| UNE211 23 | UNE 20.460-5-52,UTE C 32-502 |
Dimensions/Parameters
| Construction | Conductor Construction | Insulation Nominal Thickness | Sheath Nominal Thickness | Outer diameter | ConductorResistance at 20℃ Max | Current Carrying Capacity |
|---|---|---|---|---|---|---|
| n×mm2 | n×mm | mm | mm | mm | Ω/Km | A |
| 1×2.5 | 49x0.24 | ≥0.5 | ≥0.5 | 5.2 | 8.21 | 41 |
| 1×4.0 | 56×0.28 | ≥0.5 | ≥0.5 | 5.9 | 5.09 | 55 |
| 1×6 | 84×0.28 | ≥0.5 | ≥0.5 | 6.2 | 3.39 | 70 |
| 1×10 | 77x0.39 | ≥0.5 | ≥0.5 | 7.3 | 1.95 | 98 |
| 1x16 | 126x0.39 | ≥0.5 | ≥0.5 | 8.5 | 1.24 | 132 |
Solar cable PV1-F TUV certifications
-
Solor Cable Production Processes
At the JOCA cable factory, our high-tech, digitalized manufacturing system optimizes efficiency and accuracy in both production and inspection. By minimizing manual intervention, this process reduces human error and significantly enhances product reliability. Our use of advanced technologies, including digital intelligent image detection, laser detection, and comprehensive testing machinery, guarantees that every product meets excellent quality standards before shipment.
Packing For Shipment
There are numerous packaging techniques that can be used to cater for different transportation requirements.
| 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’s PV1-F cable used for?
A: PV1-F cable is made for carrying DC power in solar setups, mainly running between your solar panels and the inverter. It’s built to handle outdoor conditions for years, and it doesn’t flinch at strong sun, temperature swings, or rough weather.
Q: What makes the specification of PV1-F solar cable unique?
A: The specification of PV1-F solar cable meets the EN 50618 standard, which makes it applicable for all photovoltaic systems. The high voltage rating, flame retardant properties, and ability to resist UV and ozone are some features of this type of cables. Tinned copper is usually used as a conductor material which provides better conduction and lessens corrosion risks. Thanks to halogen-free insulation and sheath materials with low smoke development during combustion, fire safety is improved.
Q: What are the technical specifications of PV1-F solar cable?
A: Technical specifications for PV1-F solar cables include conductor material (usually tinned copper for its best conductivity and corrosion resistance), insulation materials like halogen free low smoke producing ones enhancing its safety, rated voltage (up to 1.5kVDC usually used when linking modules to inverters) as well as compliance with EN 50618 standard. In order to withstand environmental factors like heat or cold weather conditions, these specifications make the PV1-F wire very sustainable while enabling transfer of electricity across sun driven photovoltaic plants.
Q: How does the size and type of conductor affect pv1-f solar cable performance?
A: The size (in mm² e.g., 6mm²) or even type (often tin coated copper) can strongly influence the functionality of PV1-F solar cables.Thus bigger conductors facilitate more current flow that is needed for systems with high power output. The copper tinning on the conductors assist in preventing corrosion and providing better electrical connectivity, which ensures efficient power transmission and durability of the solar energy system.
Q: Can twin PV1-F solar cable be used for commercial solar applications?
A: Yes, twin PV1-F solar cables are perfect for use in commercial solar applications because they have a very strong design alongside technical specifications that meet all the requirements. These types of wires known as twins are particularly convenient when it comes to connecting several solar panels or arrays in an efficient manner thereby facilitating easier installation as well as optimised interconnectivity between solar PV systems within a commercial setup.
Q: What are some fittings that help in the connection of pv1-f solar cable for a solar energy system?
A: Essential accessories for connecting PV1-F solar cable in a solar energy system include connectors used to securely join lengths of cable, and cable clips or mounts which allow cables to be managed and organized. It is important to use accessories that are designed compatible with the electrical and mechanical properties of PV1-F solar cable so as to have safe and efficient installation.
Q: How does resistance against varied weather conditions determine the choice of a solar pv cable?
A: A major criterion for selecting a suitable Solar PV Cable is its resistance to weather because it will be exposed to outdoor conditions such as UV radiation, temperature fluctuations, moisture etcetera. The ideal Solar PV Cable has UV-Resistant insulation, flame retardant characteristics and weatherproof design to ensure reliable performance and durability in diverse environmental settings. Consequently, this kind of PV cable is best suited for locations where harsh climatic conditions can be experienced.
Q: Why would one use pv1-f solar cables rather than regular electric wires when installing photovoltaic systems?
A: Some advantages of using PV1-F solar cables instead of common electric wires during installations of panels involve their increased resilience, capability under extreme ultraviolet light, hard climates and conformity with EN 50618 standard applicable for photovoltaic systems. In addition, these cables cater for specific voltage/current requirements in a complete guaranteeing both high transmission efficiency between inverters/battery storage units along with safe power flow from the panel itself.



















