Efficient monocrystalline solar modules

High-efficiency monocrystalline solar panels: High-efficiency monocrystalline solar panels are clean energy solutions with excellent performance and wide application in the current photovoltaic market.

Peak power: 710W

Cell type: monocrystalline silicon

Open circuit voltage (Voc): 48.28V

Short circuit current (Isc): 14.21A

Module efficiency: 23.3%

Temperature coefficient:

Pmax：-0.28%/°C

Voc：-0.24%/°C

Isc：+0.046%/°C

Frame type: anodized aluminum

Junction box protection level: IP68

Peak power: 610W

Cell type: Monocrystalline silicon

Open circuit voltage (Voc): 48.7V

Short circuit current (Isc): 15.94A

Module efficiency: 22.6%

Temperature coefficient:

Pmax：-0.28%/°C

Voc：-0.24%/°C

Isc：+0.046%/°C

Frame type: anodized aluminum

Junction box protection level: IP68

Product Features

High-efficiency power generation technology

Adopting advanced monocrystalline silicon technology, combined with PERC (back passivation), TOPCon (tunneling oxide passivation contact) and other processes, the conversion efficiency can reach more than 24%. Some products adopt half-cut cells and multi-busbar (MBB) design to further improve optical utilization and current collection capabilities.

Bifacial power generation design

Equipped with bifacial power generation technology, it can use ground reflected light to increase additional power generation, especially suitable for large ground power stations and industrial and commercial roofs.

Excellent low-light performance

Under low-light conditions such as haze and cloudy days, it has higher power output than conventional components, ensuring efficient power generation around the clock.

Low attenuation and high reliability

The attenuation rate in the first year is less than 2%, and the power output is guaranteed to be 80% within 25 years, with excellent anti-attenuation performance.

Low BOS cost and LCOE

Low voltage design and high power output reduce BOS costs such as cables, land, brackets and inverters

Core advantages:

1. High efficiency and excellent performance

Industry-leading conversion efficiency: The efficiency is as high as 24.3%, which is better than polycrystalline silicon and thin-film modules.

Excellent weak light performance: Stable power generation can be achieved even on cloudy days or in the morning and evening hours.

2. Durability and long life

Advanced anti-degradation technology: Using anti-PID (potential induced degradation) and anti-LID (light-induced degradation) processes, the power attenuation rate of monocrystalline silicon photovoltaic panels is low (0.3%-0.5%/year), and the service life can reach more than 30 years, which is the first choice for high-end photovoltaic projects.

Rugged design: IP68 protection level, corrosion-resistant frame and tempered glass surface, can withstand extreme temperatures (-40°C to +85°C), strong snow pressure (5400Pa) and harsh environments (coastal, desert, high altitude).

3. Intelligent technology integration

Multi-busbar (MBB) design: Reduce resistance loss and improve current collection efficiency.

Anti-reflective coating: Enhance light absorption and increase energy output.

4. Sustainability and compliance

Low carbon footprint: Energy-saving production processes are adopted, and carbon emissions over the entire life cycle are reduced by more than 90% compared with fossil energy.

International certifications: IEC, UL, TÜV, CE, CQC, ISO 9001, ISO 14001

Application scenarios

High-efficiency monocrystalline modules are widely used in a variety of scenarios:

Large ground power stations: suitable for mountainous, water surface, agricultural and photovoltaic complementary projects.

Industrial and commercial roofs: achieve higher installed capacity in limited space and reduce electricity costs.

Home distributed power stations: suitable for small household lighting, solar street lights, etc.