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CPV Modules

28% efficient, 438Wp STC

Light and thin design for easy transportation and installation

Optimized for low-cost, utility-scale installation

Large acceptance angle reduces tracker requirements

Passive cooling using finned heat sink keeps temperature low

One-time impact moldingfor the enclosure strengthens sealing and durability

Smooth glass front with a silicone-on-glass lens

Fully automated manufacturing for high reliability

CPV Module - Technical Specs

Specifications UL-SUB-8703 Test Conditions Standard Test Conditions
DNI (W/m2) 900 1000
Air Mass AM1.5D AM1.5D
Cell Temperature (ºC)   25
Ambient Temperature (ºC) 20  
Wind Speed (m/s) 4  
Peak Power (Wdc) 375 438
Solar Cell Type Triple-Juntion Solar Cell
Module Model LPM
Concentration Ratio 1000X
Solar Sells per Module 50
Weight (Single Module) 45 kg
Dimensions 1.69 x 1.15 x 0.29
Power Output Attenuation (25 years) 20%
Rated Operating Temperature - 40 ºC ~ + 65 ºC
Dieletric Strength 3000V
Wind Resistance 145km/h
Ice-Hail Resistance Comply with IEC standards 25 mm ice ball at 22 m/s
Capacity of anti-sand dust Completely Sealed
Acceptance Anle (Degrees) +/-
Voc (V, Nominal 151
Isc (A, Nominal) 3.28
Vmp (V, Nominal) 133
Imp (V, Nominal) 3.13
Voc TC - 0.21000 V / ºC
Isc TC - 0.00037 A / ºC
Power TC - 0.165% / ºC

CPV Advantages

Cheaper than traditional panels: The LCOE (levelized cost of Energy) is approximately 20-30% and 50% lower than the C-Si panels produced between 2011 and 2014 respectively. It is estimated to be the first panels to be compatible with electric grid parity.

Less space: A CPV system requires 40-50% less than the Si-C panels and 70-80% less than normal photovoltaic panels.

More Efficient: The CPV panels have an efficiency 1.5-2 times higher than the C-SI and 2.5-5 times higher than normal photovoltaic.

Ideal for arid climates: In extreme heat conditions, the ratio of efficiency loss is only 1/3 compared to the other panels.

Faster payback: It is 1 / 4-1 / 6 faster than the C-Si technology and 1 / 2-1 / 3 than ordinary photovoltaic panels.

Excellent performance in the late afternoon: When costs are usually higher.

Less degradation over time: The HCPV systems are more resistant and the level of degradation over time is not as high compared to traditional panels.

100% ecological: The HCPV technology is free of any pollutant emission and has an extremely low consumption to energy level.