>> Crystalline photovoltaic glass: an ideal solution where orientation and inclination can be freely selected. Peak power: 120-180 Wp/sqm (11.1 to 16.7 Wp/Sq Ft).
120 to180 W/sqm
11.1 to 16.7 W/Sq Ft

>> CIS/CIGS* photovoltaic glass: a suitable material for BIPV due to its versatile nature and its availability in a range of colors. Peak power: 90 to 130 Wp/sqm (8.4 to 12.0 Wp/Sq Ft).
90 to 130 W/sqm
8.4 to 12.0 W/Sq Ft

>> a-Si · microamorphous photovoltaic glass: an ideal solution for diffuse radiation conditions. It is thermally stable as well as aesthetically attractive. Peak power: 50 to 90 Wp/sqm (4.6 to 8.4 Wp/Sq Ft).
50 to 90 W/sqm
4.6 to 8.4 W/Sq Ft

· Electrical characteristics at Standard Test Conditions (STC):
Irradiance: 92.94 W/Sq Ft (1000 W/sqm) Spectrum: AM 1.5 Temperature: 25 ºC

>> Crystalline technology based photovoltaic glass (mono/poli): - 0.45 %/°C.
>> CIS/CIGS and μ-crystalline technology based photovoltaic glass: - 0.36 %/°C.
>> a-Si microamorphous technology based photovoltaic glass: - 0.13 %/°C.

The thermal coefficient is a parameter reflecting the stability of the system under extreme meteorological conditions. The less the interval of variation per Celsius degree is, the more stable the system is, allowing heat loss to be minimal and the temperature dispersion to be better.

*CIS/CIGS: Copper-Indium-Selenium / Copper-Indium-Gallium-Selenium.