Solar PV Panels PV Panels

 

 

Jinko

JKM330M-60H

5 Busbar Solar Cell

5 busbar solar cell adopts new technology to improve the efficiency of modules, offers a better aesthetic appearance, making it perfect for rooftop installation.

High Efficiency 

Higher module conversion efficiency(up to 19.37%) benefits from Half Cells structure( low resistance characteristics).

PID Resistant 

Limited power degradation of Eagle module caused by PID effect is guaranteed under strict testing condition (85℃/85%RH,96hours) for mass production.

Low-light Performance

Advanced glass and solar cell surface texturing allow for excellent performance in low-light environments.

Severe Weather Resilience

Certified to withstand wind load (2400 Pascal) and snow load (5400 Pascal).

Durability against extreme environmental conditions

High salt mist and ammonia resistance certified by TUV NORD.

 

Technical Datasheet

Jinko JKM330M-60H

 

 

QCells

Q.PEAK DUO G6+ 350W

Low Electricity Generation Costs

Higher yield per surface area, lower BOS costs, higher power classes, and an efficiency rate of up to 20.3%.

Innovative All-Weather Technology

Optimal yields, whatever the weather with excellent low-light and temperature behaviour.

Enduring High Performance

Long-term yield security with Anti LID Technology, Anti PID Technology1 , Hot-Spot Protect and Traceable Quality Tra.Q™.

Extreme Weather Rating

High-tech aluminium alloy frame, certified for high snow (5400Pa) and wind loads (2400Pa).

A Reliable Investment

Inclusive 12-year product warranty and 25-year linear performance warranty.

State of the Art Module Technology

Q.ANTUM DUO combines cutting edge cell separation and innovative wiring with Q.ANTUM Technology.

 

Technical Datasheet

QCells QPEAK DUO G6 2 1

 

 

Trina

DD08M.08(II)

Increased power generation with MBB & half-cut technologies

This Honey M product adopts multi-bus bar technology, which can shorten the current conduction distance by more than 50% and thus lower the internal ribbon resistance loss. With finer and narrower bus bars, more sunlight will be reflected back to the round ribbon, thus increasing energy efficiency. The unique circuit design of half-cut cells can reduce power loss to 1/4 compared to full cells, which results in a decrease of electrical resistance within the ribbon and finally improves the overall module efficiency by more than 2%

Reduced LCOE by improved performance

The Honey M module is compatible with all major balance of system components and module electronics. The half-cut cell design allows it to work at lower temperatures, which improves energy generation per watt. And the unique cell string design makes each cell string work independently, which can significantly reduce the energy loss due to mismatch caused by inter-row shading.

High Reliability

The Honey M module is one of the industry’s most trusted modules. With stronger resistance against hotspots and excessive temperature, half-cut cells can improve module reliability. The application of multi-bus bar cells results in more uniform loads to prevent stress, resulting in better performance even in case of slight cracking. Nowadays the market share of PV modules featuring MBB technology is dominant in the global solar industry.

 

Technical Datasheet

Trina DD08M.08(II)

 

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