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products formPRODUCTS
ELECTRICAL PARAMETERS AT STC | ||||||
TYPE | JAM72D30 -525/MB | JAM72D30 -530/MB | JAM72D30 -535/MB | JAM72D30 -540/MB | JAM72D30 -545/MB | JAM72D30 -550/MB |
Rated Maximum Power(Pmax) [W] | 525 | 530 | 535 | 540 | 545 | 550 |
Open Circuit Voltage(Voc) [V] | 49.15 | 49.3 | 49.45 | 49.6 | 49.75 | 49.9 |
Maximum Power Voltage(Vmp) [V] | 41.15 | 41.31 | 41.47 | 41.64 | 41.8 | 41.96 |
Short Circuit Current(lsc) [A] | 13.65 | 13.72 | 13.79 | 13.86 | 13.93 | 14 |
Maximum Power Current(lmp) [A] | 12.76 | 12.83 | 12.9 | 12.97 | 13.04 | 13.11 |
Module Efficiency [%] | 20.3 | 20.5 | 20.7 | 20.9 | 21.1 | 21.3 |
Power Tolerance | 0-+5W | |||||
Temperature Coefficient of lsc(a_lsc) | +0.045%/掳C | |||||
Temperature Coefficient of Vbc(p_Voc) | -0.275%/掳C | |||||
Temperature Coefficient of Pmax(v_Pmp) | -0.350%/掳C | |||||
STC | Irradiance 1000W/m2, cell temperature 25掳C, AM1.5G | |||||
ELECTRICAL CHARACTERISTICS WITH 10% SOLAR IRRADIATION RATIO | ||||||
TYPE | JAM72D30 -525/MB | JAM72D30 -530/MB | JAM72D30 -535/MB | JAM72D30 -540/MB | JAM72D30 -545/MB | JAM72D30 -550/MB |
Rated Max Power(Pmax) [W] | 562 | 567 | 572 | 578 | 583 | 589 |
Open Circuit Voltage(Voc) [V] | 49.54 | 49.67 | 49.8 | 49.93 | 50.03 | 50.21 |
Max Power Voltage(Vmp) [V] | 41.14 | 41.31 | 41.47 | 41.65 | 41.78 | 41.95 |
Short Circuit Current(lsc) [A] | 14.61 | 14.68 | 14.76 | 14.83 | 14.91 | 14.98 |
Max Power Current(lmp) [A] | 13.65 | 13.73 | 13.8 | 13.88 | 13.95 | 14.03 |
Irradiation Ratio(rear7front) | 10% | |||||
*For NexTracker installations, Maximum Static Load, Front is 2400Pa while Maximum Static Load, Back is 2400Pa. | ||||||
**Bifaciality=Pmax,rear/Rated Pmax,front | ||||||
OPERATING CONDITIONS | ||||||
Maximum System Voltage | 1500V DC | |||||
Operating Temperature | -40掳C~+85掳C | |||||
Maximum Series Fuse Rating | 30A | |||||
Maximum Static Load,Front* Maximum Static Load,Back* | 5400Pa(112 lb/ft2) | |||||
2400Pa(50 lb/ft2) | ||||||
NOCT | 45卤2掳C | |||||
Bifaciality** | 70%卤10% | |||||
Fire Performance | UL Type 29 |
products DESCRIPTIONPRODUCTS
JAM72D30 MB 535~560W
DeepBlue 3.0 Pro is an upgrade of DeepBlue 3.0. The module size is the same as that of DeepBlue 3.0, and has outstanding advantages such as higher conversion efficiency, excellent power generation capacity, and high reliability. Adopting the new-generation gapless encapsulating technology, the conversion efficiency of DeepBlue 3.0 Pro is as high as 21.7%. The power of the 72-cell type reaches 560W and 78-cell type 605W.
1. PERCIUM+ cells
Applying the new-generation high-efficiency PERCIUM+ cells, DeepBlue 3.0 series modules achieve more than 23.1% of average mass-produced cell efficiency by improving the passivation process on the front and back, superior
low-irradiance power generation performance, and outstanding high-temperature power generation performance.
2. Half-cell technology
Adopting the half-cell technology, DeepBlue 3.0 series modules have both higher conversion efficiency and lower normal operating cell temperature (NOCT). The working temperature of half-cell modules is 2-3°C lower than that of full-cell modules, and the hot spot temperature of half-cell modules is 10-20°C lower than that of full-cell modules. In addition, half-cell modules have lower shading loss.
3. Gallium-doped technology
All high-efficiency mono-crystalline cells are made of gallium-doped silicon wafers, which have better anti-degradation performance and ensure durable and stable high-efficiency power generation. The first year degradation is within 2%.
4. Multi-busbar cell technology
With MBB cell technology, DeepBlue 3.0 series modules identify 11 busbar as the best solution by taking comprehensive account of cell efficiency, production yield and cost, which have shortened the current transmission distance and reduced resistance loss, thus increasing the conversion efficiency of cells, and reducing the impact of broken grids and micro-cracks on module performance.
The cells are designed with circular ribbons, and the IAM performance is better than those with conventional flat ribbons at the time of oblique light incidence. Moreover, more busbar designed with smaller diameter circular ribbons can reduce the impact of stress, and effectively improve the high and low temperature resistance performance and mechanical load performance of modules
5.Advanced module technologies
a. High-transmittance glasses are used to improve light transmittance and weather resistance of the modules.
b. Encapsulation film and backsheet are optimized to improve the power and reliability of the modules.
c. Cell-cutting technology is improved to reduce the damage from laser and improve the product reliability.
5. With optional innovative slot frame design, the modules feature lighter weight,
6. More convenient installation and better performance in mechanical load.