Power Generation Glass
Power generation glass consists of two pieces of glass, CdTe (cadmium telluride) power generation layer and PVB. It is a kind of power generation glass which uses photovoltaic effect of CdTe semiconductor interface to convert light energy directly into electricity.
Power generation glass can be customized composite light transmission, color, glaze, hollow, light-emitting components, playing the effect of outer decoration, thermal insulation, waterproof and power generation.
|Characterisctics & Advantages|
|Safe and Reliable|
Certified reliability in harsh environments such as high temperature, high humidity ,extreme drought, and offshore,etc
The usage life of tempered glass is ultra-long, even exceeds the lifetime of architectures without impacting of irresistible force.
Dual glass module with a wide variety choice of tempered glass.
Passed the tests of accelerated aging, wind-resistance, and pressure-resistance.
Module can still work with some cracks induced by external force which tempered glass can sustain.
|Hot Spot Effect
Absence of hot spot induced fire hazard. Safe and efficient.
|Stable and Efficient|
Theoretical conversion rate is 30%, laboratory conversion rate exceeds 20%, mass production conversion rate is 16% which expected to reach 17%-18% in the near future, deliver 10% more electricity than normal c-Si.
Degradation <0.6% per year. Total degradation <14% in 25 years.
High spectum match, sunlight absorption rate >95%.
Less sensitive to installing angle, can be applied to vertical walls of buildings.
|Weak light effect
Superior performance under weak light, generate more electricity than other established PV technologies (c-Si, poly-Si)
|Shading power loss
Low power loss caused by shading. Modules still work well when partially blocked.
Temperature coefficient is <3%. Impact of temperature on energy yield is very low. Modules can work properly in severe cold and hot area due to wide working temperature range.
No impact from PID effect. Power degradation is extremely low.
|Power output comparison
Under same installation condition, deliver >10% more electricity.
|Green and Sustainable|
Zero gas or water waste; low energy consumption; lowest carbon emission.
Full recycle at the end of product lifetime.
Non-sticky surface with self-cleansing.
|Voltage at Pmax||Vmpp（V）||87||87||87|
|Current at Pmax||Impp（A）||0.69||0.92||1.03|
|Open Circuit Voltage||Voc（V）||117||117||117|
|Short Circuit Current||Isc（A）||0.72||0.94||1.06|
|Voltage at Pmax||Vmpp（V）||87||87||-|
|Current at Pmax||Impp（A）||2.76||3.68||-|
|Open Circuit Voltage||Voc（V）||117||117||-|
|Short Circuit Current||Isc（A）||2.28||3.76||-|