Half-cut cell technology is to cut the cell into two seperate parts by mature infrared laser, hence halve the working current. The thermal loss on the ribbon will be remarkably reduced and the module’s power increases by 2%. The reliability of module is also enhanced.
The combination of half-cut cell technology and bifacial module can amplify the gain over the effect of current-reduction.
Product Description
Trina Technology
Multi-busbar Technology
In comparison with the conventional 5 busbar design, the innovative multi-busbar design on the cell can shorten the current collection transverse path by 50% and thereby reduce remarkably the cell internal resistance, which contributes a 1% - 1.5% increase in the power output compared with 5 busbar design.
The MBB design can also mitigate the performance loss caused by blocked electrical pathways in case of cell microcracks and finger electrode erosion due to external factors.
In comparison with the conventional 5 busbar design, the innovative multi-busbar design on the cell can shorten the current collection transverse path by 50% and thereby reduce remarkably the cell internal resistance, which contributes a 1% - 1.5% increase in the power output compared with 5 busbar design.
The MBB design can also mitigate the performance loss caused by blocked electrical pathways in case of cell microcracks and finger electrode erosion due to external factors.
PERC Technology
PERC Cell
The PERC cell has a passivated rear side and a laser grooving process, which significantly improves the cell efficiency.
The PERC cell has a passivated rear side and a laser grooving process, which significantly improves the cell efficiency.
Bifacial PERC
For a bifacial PERC cell, the Al back surface field is replaced by Al grid, hence render the majority of rear side transparent
which enable the cell to absorb light and generate electricity from both sides.
For a bifacial PERC cell, the Al back surface field is replaced by Al grid, hence render the majority of rear side transparent
which enable the cell to absorb light and generate electricity from both sides.
Half-cut Technology
Electrical Data
Vertex(Backsheet) | DE18M(II) | DE19 | DE20 | ||
Power range | 485W~510W | 530W-555W | 585W-605W | ||
Power Tolerance-PMAX (W) | 0 ~ +5W | ||||
Maximum Power Voltage-VMPP (V) | 42.2~43.2V | 30.8~31.8V | 33.8~34.6V | ||
Maximum Power Current-IMPP (A) | 11.49~11.81A | 17.21~17.45A | 17.31~17.49A | ||
Open Circuit Voltage-VOC (V) | 51.1~52.1V | 37.1~38.1V | 40.9~41.7V | ||
Short Circuit Current-ISC (A) | 12.07~12.42A | 18.31~18.56A | 18.37~18.57A | ||
Module Efficiency (%) | 20.1~21.2 | 20.3~21.2 | 20.7~21.4 |
Vertex(Bifacial) | DEG18MC.20(II) | DEG19C.20 | DEG20C.20 | ||
Power range | 480~505W | 525W~550W | 580W~600W | ||
Power Tolerance-PMAX (W) | 0 ~ +5W | ||||
Maximum Power Voltage-VMPP (V) | 42.2~43.7V | 30.8~31.8V | 33.8~34.6V | ||
Maximum Power Current-IMPP (A) | 11.38~11.56A | 17.04~17.29A | 17.16~17.34A | ||
Open Circuit Voltage-VOC (V) | 50.7~51.7V | 37.1~38.1V | 40.9~41.7V | ||
Short Circuit Current-ISC (A) | 11.97~12.17A | 18.14~18.39A | 18.21~18.42A | ||
Module Efficiency (%) | 20.1~21.2 | 20.1~21.0 | 20.5~21.2 |
Vertex S | DE09 | DE09.05 | DE09.08(Black frame) | ||
Power range | 390W~405W | 380W~395W | 390~405W | ||
Power Tolerance-PMAX (W) | 0 ~ +5W | ||||
Maximum Power Voltage-VMPP (V) | 33.8~34.4V | 33.4~34.0V | 33.8~34.4V | ||
Maximum Power Current-IMPP (A) | 11.54~11.77A | 11.38~11.62A | 11.54~11.77A | ||
Open Circuit Voltage-VOC (V) | 40.8~41.4V | 40.4~41.0V | 40.8~41.4V | ||
Short Circuit Current-ISC (A) | 12.14~12.34A | 12.00~12.21A | 12.14~12.34A | ||
Module Efficiency (%) | 20.3~21.1 | 19.8~20.5 | 20.3~21.1 |
Others | Honey M: DE08M(II) | Tallmax M: DE17M(II) | Duomax Twin(Bifacial)144: DEG17MC.20(II) | ||
Power range | 360W~380W | 435W~460W | 430W~450W | ||
Power Tolerance-PMAX (W) | 0 ~ +5W | ||||
Maximum Power Voltage-VMPP (V) | 33.6~34.7V | 40.5~41.3V | 40.5~41.7V | ||
Maximum Power Current-IMPP (A) | 10.7~10.96A | 10.74~11.13A | 10.62~10.8A | ||
Open Circuit Voltage-VOC (V) | 40.7~41.9V | 49~50V | 48.7~49.5V | ||
Short Circuit Current-ISC (A) | 11.24~11.52A | 11.31~11.68A | 11.2~11.36A | ||
Module Efficiency (%) | 19.6~20.7 | 19.9~21.0 | 19.5~20.4 |
STC: Irradiance 1000W/m2, Cell Temperature 25°C, Air Mass AM1.5.
Measuring tolerance: ±3%
Details Images
Trina Factory
Trina Solar has recently built three Vertex Super Factories in Yiwu, Zhejiang, as well as Suqian and Yancheng in Jiangsu, China.By the end of 2020, Trina Solar will see its 210mm Vertex module production capacity exceeding 22GW, and will further shoot over 50GW in 2021 across the globe.
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Delivery & Payment Terms
Payment Terms | T/T | EXW | 30% in advance for deposit payment, the balance payments will be paid before shipment. | ||||
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CFR/C&F | 30% in advance for deposit payment, the balance will be paid against copy of B/L | ||||||
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L/C | For the amount of one shipment above 50,000 usd, L/C at sight is acceptable. | ||||||
West Union | |||||||
Paypal | |||||||
Delivery Time | 7~25 days after receiving the payment or the deposit payment |
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