Solar Cable
Solar cable is an electron beam cross-link cable rated at 120°C to withstand harsh weather conditions and mechanical shock in the equipment to which it belongs.
Solar technology will be one of the green energy technologies of the future, and solar energy or photovoltaic (PV) is becoming more and more widely used internationally. In addition to the rapid development of government-supported PV power plants, ZMS Cable is expanding its solarflex portable extension solar cable system production line with plans to put into production solar cables and assemblies that will be sold worldwide. ZMS produces high-quality 4 mm, and 6 mm solar DC cables. You can always contact us for the latest solar cable prices and more discounts.
ZMS Solar Power Cable Details
Solar PV H1Z2Z2-K Tinned Copper Cable
Solar PV H1Z2Z2-K cables are suitable for PV system installations in mobile and fixed installations. Our products are certified by TUV. It complies with IEC 62930 and EN 50618 standards. It is suitable for solar power farms, rooftop solar installations, floating power plants, etc. It is a highly flexible cable, especially suitable for connection between photovoltaic solar panels.
- Rated Voltage: 1000V AC, or 1500V DC
- Conductor Material: Tinned Copper
- Number of Conductors: single-core/ dual-core
- Cross Section: 1.5 mm2~95 mm2
- Outer sheath: Low smoke halogen-free (LSHF), XLPO
- The High Voltage Test: AC 6,5kV, or DC 15kV
- Working Temperature: -40℃~90℃
Max. Conductor Temperature: 120℃ - Standard: EN 50618/IEC 62930
- Certification: International TUV certification
Solar DC Cable
Solar cables are also known as photovoltaic cables, PV cables, etc. The structured shape is generally single-core round or two-core parallel.
Main Structure
– Conductor: tinned copper wire soft conductor twisted together.
– Insulation: halogen-free low smoke flame retardant irradiated cross-linked polyolefin.
– Sheath: Halogen-free, low smoke, flame retardant irradiated cross-linked polyolefin.
– Rated voltage: 1500V DC
– Wire Size: 4mm 6mm 2.5 Square
Properties
– Ozone-resistant ACC. to EN 50396 Weather and UV-resistant acc. to HD 605/Al
– Halogen-free ACC. to EN 50267-2-1, EN 60684-2
– Resistant to acid and bases ACC, to EN 60811-2-1
– Flame-resistant acc.to VDE 0482-332-1-2, DIN EN 60332-1-2, IEC 60332-1
– Very robust and abrasion-resistant sheath ACC, to DiN EN 53516
– Resistant to short-circuits up to 200’℃ thanks to their double insulation; short-circuits temperature 200℃/5 sec.
Specification And Size
Number of Cores & Nominal Cross Section | Number of Shares/Cable | Nominal Conductor Diameter | Nominal Insulation Thickness | Nominal Sheath Thickness | Nominal Outer Diameter | Nameplate Weight |
Diameter | ||||||
No. ×mm² | – | mm | mm | mm | mm | kg/km |
1×1.5 | 30/0.25 | 1.58 | 1.14 | 0.82 | 5.4 | 52 |
1×2.5 | 50/0.25 | 2.04 | 1.14 | 0.82 | 5.8 | 67 |
1×4.0 | 56/0.30 | 2.59 | 1.14 | 0.82 | 6.4 | 87 |
1×6.0 | 84/0.30 | 3.17 | 1.14 | 0.82 | 7 | 113 |
1×10 | 78/0.40 | 4.07 | 1.52 | 0.82 | 8.6 | 178 |
1×16 | 128/0.40 | 5.22 | 1.52 | 0.82 | 9.8 | 254 |
1×25 | 199/0.40 | 6.51 | 1.52 | 0.82 | 11.1 | 363 |
1×35 | 279/0.40 | 7.71 | 1.52 | 0.82 | 12.3 | 473 |
If you have other specifications and dimensional requirements for PV cables, please contact us.
Features Solar DC Cables
High quality raw materials, Environmental protection PVC, High purity copper
Plastic protective cover, waterproof, fire, flame retardant, by good insulation
Highly efficient electrification through multiple cable quality tests
Applications
Large photovoltaic power generation
Rural building photovoltaic (PV)power generation
City street light photovoltaic (PV)power generation
Photovoltaic industrial building (PV)power generation
Cooperation With ZMS
Photovoltaic Cable Project With ZMS
- DC UV solar cable 6 sq mm
- DC solar cable 25 sq mm
- CP4A (Solar combiner connector M12 )
ZMS guarantees on-time delivery and product quality with a 99.9% pass rate and offers a wide range of qualifications in its cooperation.
PV Cable Technical Performance Requirements
- Insulation resistance conductor resistance ρ≤4.95 Ω/km at 20 ℃. sheath surface resistance ρ≥ 109Ω.cm.
- Pressure test water temperature 20 ± 5 ℃, immersion length 10M, time 1H, AC frequency voltage 8000V, maintain 5min without breakdown.
- Combustion test vertical combustion test: the distance between the upper fixed point and the beginning of carbonization ≥ 50 mm. combustion downward extension of the distance to the upper fixed point ≤ 540 mm. combustion gas corrosion test: PH value ≥ 4.3, conductivity ≤ 10μ S / mm.
- Inner layer insulation mechanical properties before the aging tensile test: tensile strength ≥ 5N/mm2, elongation at break ≥ 200%. After aging (135±2℃), tensile strength change ≤±30%, elongation at break change ≤±30%. Air bomb aging tensile test: air pressure 5.5bar (127 ℃) tensile strength change ≤ + 30%, elongation at break change ≤ + 30%. Thermal elongation test: oven temperature 250 ± 3 ℃, mechanical pressure 20N/cm2 elongation under load ≤ 100%, elongation after unloading ≤ 25%.
- Mechanical properties of the sheath before aging tensile: tensile strength ≥ 10.0N/mm2. Elongation at break ≥ 300%. After aging (85 ± 2 ℃): elongation at break ≥ 250%. Change in tensile strength ≤ ± -15%. Elongation at break change ≤ -25%.
- Weather resistance test Low-temperature bending test of sheath: -40±2℃ in the freezer, 16 hours, no cracks can be seen by visual inspection after the test. Inner layer insulation and sheath ozone resistance: ozone concentration 250-300pphm, 24h, no cracking in 180o bending part after visual inspection. Sheath weather resistance cycle: sprinkling 18min, xenon lamp drying 102min test temperature 45±5°C. Total test time of at least 500h immediately followed by 7.1 bending test at room temperature, no cracks.
- No. 2 oil (ISO1817 ) test after oil immersion compressive strength retention ≥ 60%. Oil immersion after tensile elongation retention ≥ 70%. Diameter change after oil immersion ≤ 160.
Why Choose ZMS?
Quality Certification Services: ZMS cable products are manufactured according to GB, IEC, BS, NFC, ASTM, DIN, and other international standards. Our technical team can customize cable products that meet your requirements according to your needs.
Profession Customer Service: ZMS provides free professional consulting services to provide you with one-stop project solution services and rapid product delivery solutions. And we can give reasonably excellent solar cable prices.
Delivery And Shipping Services: While we at ZMS provide high-quality cables, we also provide good delivery solutions. While ensuring the safe delivery of products, we provide the best packaging and transportation solutions, greatly reducing customers’ transportation costs.
Packaging of ZMS: ZMS cable packaging is provided in the form of wooden reels, corrugated boxes, and coils. The cable ends are sealed with BOPP self-adhesive tape and a non-hygroscopic sealing cap to protect the cable ends from moisture. We can print the required marks on the outside of the barrel with waterproof material according to customer requirements.
Selection of Photovoltaic Solar Cables
The cables used in the low-voltage DC transmission part of the solar photovoltaic power system have different requirements for the connection of different components because of the different use environments and technical requirements.
The overall factors to be considered are cable insulation performance, heat and flame resistance, aging performance, and wire diameter specifications.
Specific Requirements are as Follows
1. Solar modules and components between the connection cable, generally use the connection cable attached to the module junction box directly connected, the length is not enough to use a special extension cable.
Depending on the size of the module power, this type of connection cable has a cross-sectional area of 2.5m ㎡, 4.0m ㎡, 6.0m ㎡ , and other three specifications.
This type of connection cable uses a double layer of insulation sheath, which has superior resistance to UV, water, ozone, acid, and salt erosion, superior all-weather capability, and wear resistance.
2. The connection cable between the battery and the inverter requires the use of UL-tested multi-strand flexible wire, connected as close as possible. Choosing short and thick cables can reduce the loss of the system, and improve efficiency and reliability.
3. The connection cable between the battery array and controller or DC junction box is also required to use UL-tested multi-stranded flexible wire with the cross-sectional area according to the maximum output current of the array.
The DC cable cross-sectional area of the named parts is determined based on the following principles.
Solar cell modules and components between the connection cable, battery and battery connection cable, AC load connection cable, generally selected cable rated current for each cable in the maximum continuous operating current of 1.25 times.
Connection cables between solar cell arrays and arrays, connection cables between batteries (groups), and inverters are generally selected with a cable current rating of 1.5 times the maximum continuous operating current in each cable.
The above is the recommendation of ZMS cable team personnel. If there is anything else you do not understand, you can always contact the ZMS team. We will be happy to serve you.