Characterisctics & Advantages |
Safe and Reliable |
Durability Certified reliability in harsh environments such as high temperature, high humidity ,extreme drought, and offshore,etc |
Life time The usage life of tempered glass is ultra-long, even exceeds the lifetime of architectures without impacting of irresistible force. |
Firmness Dual glass module with a wide variety choice of tempered glass. |
Wind-Pressure-Resistance Passed the tests of accelerated aging, wind-resistance, and pressure-resistance. |
Crack-Resisyance 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 |
Efficiency 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 Degradation <0.6% per year. Total degradation <14% in 25 years. |
Light Absorption High spectum match, sunlight absorption rate >95%. |
Angle Dependency 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 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. |
PID effect No impact from PID effect. Power degradation is extremely low. |
Power output comparison Under same installation condition, deliver >10% more electricity. |
Green and Sustainable |
Energy Consumption Zero gas or water waste; low energy consumption; lowest carbon emission. |
Recycle Full recycle at the end of product lifetime. |
Maintenance Non-sticky surface with self-cleansing. |
Electrical Specification | |||||
Size | Light Transmittance | 40% | 20% | 10% | |
1200mmX600mm | Nominal Power | Pmpp(W) | 60 | 80 | 90 |
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 | |
1200mmX2400mm | Nominal Power | Pmpp(W) | 240 | 320 | - |
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 | - |
Joint Manufacturing by Ruike New Engergy and Grand Glass.
Photovoltaic Power generation glass is used for outer decoration, thermal insulation, waterproof and power generation.