Ultra-high Power Generation/Ultra-high Efficiency
Higher Bifacial Gain
Enhanced Reliability
Lower LID / LETID
High Compatibility
Optimized Temperature Coefficient
Lower Operating Temperature
Optimized Degradation
Outstanding Low Light Performance
Exceptional PID Resistance
Cell | Mono 182*91mm |
No. of cells | 156(6×26) |
Rated Maximum Power(Pmax) | 610W-630W |
Maximum Efficiency | 21.9-22.6% |
Junction Box | IP68,3 diodes |
Maximum System Voltage | 1000V/1500V DC |
Operating Temperature | -40℃~+85℃ |
Connectors | MC4 |
Dimension | 2455*1134*35mm |
No.of one 20GP container | /// |
No.of one 40HQ container | 620PCS |
12-year warranty for materials and processing;
30-year warranty for extra linear power output.
* Advanced automated production lines and first-class brand raw material suppliers ensure that solar panels are more reliable.
* All series of solar panels have passed TUV, CE, CQC, ISO,UNI9177- Fire Class 1 quality certification.
* Advanced Half-cells, MBB and PERC solar cell technology, higher solar panel efficiency and economic benefits.
* Grade A quality, more favorable price, 30 years longer service life.
Widely used in residential PV system, commercial & industrial PV system, utility-scale PV system, solar energy storage system, solar water pump, home solar system, solar monitoring, solar street lights, etc.
The M10 MBB, N-Type TopCon 156 Half Cell 610-630W Bifacial Solar Module is another high performance solar panel option for residential and commercial properties. The solar panel has 156 half-cells using MBB technology and N-type TopCon cell technology for efficient energy production.
With a power output range of 610-630W, this solar panel is ideal for properties with higher energy consumption needs, such as factories or large commercial properties. The high power output also means that fewer panels are needed to generate the same amount of energy, reducing the overall installation footprint and cost.
Like previous solar panels, the M10 MBB, N-type TopCon 156 half-cut 610-630W bifacial solar module also uses bifacial technology, allowing it to absorb energy from both sides, significantly increasing energy output. The technology allows the panels to capture light that bounces off the ground, buildings or other surrounding surfaces, increasing their energy production.
Another major innovation of this solar panel is its N-type TopCon cell technology. The technology increases the efficiency of solar cells by reducing the resistance of the circuitry within the cell, allowing for more efficient energy conversion. This results in a higher overall module efficiency compared to other conventional battery types.
Additionally, the MBB technology used in the solar panels provides more power while reducing potential shading losses. Using multi-busbar technology in solar cells increases module power generation by reducing resistance and increasing reliability. This technology reduces thermal stress within the battery and improves its durability under challenging environmental conditions.
M10 MBB, N-type TopCon 156 half-cell 610-630W bifacial solar modules are also designed for durability in harsh environmental conditions. The durable frame construction of the solar panels increases their ability to handle high wind loads, making them suitable for installation in windy areas. The tempered glass used in solar panels is durable and scratch-resistant, which increases their lifespan and reduces maintenance requirements.
Finally, like all solar panels, the M10 MBB, N-Type TopCon 156 Half-Cell 610-630W Bifacial Solar Module is an environmentally friendly option that allows homeowners and commercial users to reduce their dependence on the grid while contributing to a cleaner environment make a contribution.
In summary, the M10 MBB, N-Type TopCon 156 Half Cell 610-630W Bifacial Solar Module is a high efficiency solar panel that utilizes innovative technology to increase energy production while providing durability in challenging environmental conditions. Its high power output, bifacial and N-type TopCon cell technology, MBB technology and durable construction make it the first choice for those looking to generate renewable energy and reduce their environmental footprint.