COLORED SOLAR PV GLASS

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Evangeline Deirdre Wilkinson
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1 COLORED SOLAR V GLASS OCT 2018

TURN YOUR BUILDING INTO A CLEAN OWER GENERATOR We are pleased to introduce you our latest technological development. A new building material specially designed for its integration into buildings.

2 TURN YOUR BUILDING INTO A CLEAN OWER GENERATOR We are pleased to introduce you our latest technological development. A new building material specially designed for its integration into buildings. A new material with an undeniable aesthetic value, that allows buildings to generate the energy they need thanks to the sun. A new building material that maximizes building s performance and turns them into power generators. A new building material that will revolutionize the industry forever. Welcome to the revolution. Welcome to the revolutionyx. VERTICAL SOLUTIONS (TILT 90º) Get $ 31 worth of clean power per square meter installing our Amorphous Silicon V Glass. #SANDREL #CLADDING #BALUSTRADE HORIZONTAL SOLUTIONS (TILT 0º) Get $ 49 worth of clean power per square meter installing our Amorphous Silicon V Glass. #SKYLIGHT #CANOY #RAISED FLOOR OTIMIZED SOLUTIONS (TILT 30º) Get $ 54 worth of clean power per square meter installing our Amorphous Silicon V Glass. #LOUVERS #ROOFS The tilt degree is the V Glass angle from horizontal: Tilt 0º = horizontal and tilt 90º = vertical. The optimized tilt considered is based on the location's latitude less than 10, following the Eurocodes and European Directive 2012/27/EU. These estimated values are calculated considering the price of electricity in Los Angeles at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered in Los Angeles: 30º.

#BRIGHT BLACK SOLID To be installed on non-vision areas to produce more energy eak ower: 57 Watt peak per square meter Energy Generated during the first year on a South-oriented Façade Loa Angeles: 5.

SEMITRANSARENT To be installed on vision areas since it allows natural light to pass through eak ower: 3.

3 #BRIGHT BLACK SOLID To be installed on non-vision areas to produce more energy eak ower: 57 Watt peak per square meter Energy Generated during the first year on a South-oriented Façade Loa Angeles: 5.47 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 143 kwh per square meter equivalent to $ 31 per square foot. SEMITRANSARENT To be installed on vision areas since it allows natural light to pass through eak ower: 3.16 Watt peak per square foot Energy Generated during the first year on a South-oriented Façade in Los Angeles: 3.24 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 85 kwh per square foot equivalent to $ 18 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. EARN $ 31 ER SQFT FAÇADE IN 30 YEARS EARN $ 54 ER SQFT OTIMIZED TILT IN 30 YEARS #VCLADDING Fig.: Rainscreen cladding. Solid on nonvision areas. Semitransparent on vision areas

#ANTHRACITE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot. Angeles: 4.

TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.

These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation.

4 #ANTHRACITE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot. Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot. TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square meter equivalent to $ 15 per square meter. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS Fig.: Anthracite opaque.

areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.

5 #GREY SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot. Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at 0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS The color varies depending on the sun s position. lease order real samples for your reference. Fig.: Grey translucent.

#BLUE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.

These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.

6 #BLUE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS #VCLADDING The aesthetics and prestige of glass, the power generation capability of V panels, and the thermal insulation of a rainscreen cladding system,come now together under a unique building material. Rainscreen cladding systems offer an optimized thermal and sound insulation; when combined with a building material that generates clean and free power thanks to the sun, it becomes unbeatable. Fig.: Blue solid. The color varies depending on the sun s position. lease order real samples for your reference.

The color varies depending on the sun s position. lease order real samples for your reference. #TURQUOISE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.

80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision

7 The color varies depending on the sun s position. lease order real samples for your reference. #TURQUOISE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square meter (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 49 ER SQFT OTIMIZED TILT IN 30 YEARS Fig.: Turquoise solid.

8 #TERRACOTA SOLID To be installed on non-vision areas to produce more energy eak ower: 50 Watt peak per square foot Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS Fig.: Terracota solid. The color varies depending on the sun s position. lease order real samples for your reference.

9 #BRONZE SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS Fig.: Bronze solid. The color varies depending on the sun s position. lease order real samples for your reference.

#GOLD SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.

vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.

10 #GOLD SOLID To be installed on non-vision areas to produce more energy eak ower: 4.65 Watt peak per square foot Angeles: 4.80 kwh per square foot (20% less in East or West façade and 65% less Energy Generated over 30 Years: 125 kwh per square foot equivalent to $ 26 per square foot TRANSLUCENT To be installed on vision areas since it allows natural light to pass through eak ower: 2.65 Watt peak per square foot Angeles: 2.78 kwh per square foot (20% less in East or West façade and 65% less Energy Generated in 30 Years: 72.2 kwh per square foot equivalent to $ 15 per square foot. These estimated values are calculated considering the price of electricity at $0.16 per kwh, and a 2% electricity price inflation. The photovoltaic estimation has been calculated using Vsyst V5.11 and it considers a 16% loss associated to the Balance of System. System losses from V Glass power degradation have also been considered. Optimized tilt considered: 30º EARN $ 26 ER SQFT FAÇADE IN 30 YEARS EARN $ 48 ER SQFT OTIMIZED TILT IN 30 YEARS Fig.: Gold solid. The color varies depending on the sun s position. lease order real samples for your reference.

11 #V FAÇADE

Opaque Solar V Glass Semi-transparent Solar V Glass Sheet Metal Finish Wall resistance test Engineering services Brackets and anchors Vertical Aluminium rofile We Recommend Insulation Material We

BY TEN SQUARE FEET OF V GLASS IN YOUR LOCATION 10 square feet of glass can produce enough energy to feed 7 points of light on average for 4 hours every day.

12 Opaque Solar V Glass Semi-transparent Solar V Glass Sheet Metal Finish Wall resistance test Engineering services Brackets and anchors Vertical Aluminium rofile We Recommend Insulation Material We Recommend Cable Tray V Glass to be Cut ro Size on jobsite Aluminium Clips for Glass We Recommend TO INSTALL A HOTOVOLTAIC GLASS FAÇADE IS EASY AND FAST CALCULATE HOW MANY OINTS OF LIGHT CAN BE OWERED BY TEN SQUARE FEET OF V GLASS IN YOUR LOCATION 10 square feet of glass can produce enough energy to feed 7 points of light on average for 4 hours every day. Select your location and calculate how many points of light you can power with Onyx Solar V Glass in your building. The estimation is calculated for vertical façades facing the Equator (opaque glass). Glass oriented East or West: up to 5 points of light. Glass oriented to the contrary of Equator: up to 2.5 points of light. Semi-transparent glass generates approximately 40% less. Select your location and calculate how many points of light you can power with our glass. The number of light points powered by 10 square feet of glass is an average estimate where factors such as surrounding shadows, own shadows, potential losses due to system balance and other external impacts are not taken into account. These factors can lead to a reduction in energy production. LED lights 6 W. The glass is opaque on non-vision areas but semi-transparent on vision areas allowing the natural light to enter the building throught its windows and the visual contact with the exterior. Our Solar V glass is less expensive than other materials for cladding unable to generate electricity. It offers an Inmediate payback time allowing building owners to achieve positive cash flows from day one. AVAILABLE COLORS: 10 SQUARE FEET OF HOTOVOLTAIC GLASS INSTALLED IN THE FAÇADE OWERS U TO 7 OINTS OF LIGHT EACH DAY

13 #V BALUSTRADE

average for 4 hours every day. Select your location and calculate how many points of light you can power with Onyx Solar V Glass in your building.

Glass oriented to the contrary of Equator: up to 2.5 points of light. Semi-transparent glass generates approximately 40% less.

The number of light points powered by ten square meter of glass is an average estimate where factors such as surrounding shadows, own shadows, potential losses due

Our Solar V glass is less expensive than other materials unable to generate electricity.

14 Vertical Aluminum profile Cable Tray Opaque Solar V Glass V Glass to be Cut to Size on jobsite TO INSTALL A HOTOVOLTAIC GLASS BALUSTRADE IS EASY AND FAST CALCULATE HOW MANY OINTS OF LIGHT CAN BE OWERED BY TEN SQUARE FEET OF V GLASS IN YOUR LOCATION 10 square feet of glass can produce enough energy to feed 7 points of light on average for 4 hours every day. Select your location and calculate how many points of light you can power with Onyx Solar V Glass in your building. The estimation is calculated for vertical façades facing the Equator (opaque glass). Glass oriented East or West: up to 5 points of light. Glass oriented to the contrary of Equator: up to 2.5 points of light. Semi-transparent glass generates approximately 40% less. Select your location and calculate how many points of light you can power with our glass. The number of light points powered by ten square meter of glass is an average estimate where factors such as surrounding shadows, own shadows, potential losses due to system balance and other external impacts are not taken into account. These factors can lead to a reduction in energy production. LED lights 6 W. Our Solar V glass is less expensive than other materials unable to generate electricity. It offers an inmediate payback time allowing building owners to achieve positive cash flows from day one. AVAILABLE COLORS: The Antracite and all metallized colors are available in opaque and translucent finish allowing the natural light to enter the building. The black color is available in opaque and semi-transparent. 10 SQUARE FEET OF HOTOVOLTAIC GLASS INSTALLED IN THE BALUSTRADE OWERS U TO 7 OINTS OF LIGHT EACH DAY

15 #V FLOOR

Walkable Solar anel Wood allet Grid Member Support strip TO INSTALL A WALKABLE V FLOOR IS EASY AND FAST CALCULATE HOW MANY OINTS OF LIGHT CAN BE OWERED BY ONE SQUARE METER OF V GLASS IN YOUR LOCATION

Select your location and calculate how many points of light you can power with Onyx Solar V Glass in your building.

16 Walkable Solar anel Wood allet Grid Member Support strip TO INSTALL A WALKABLE V FLOOR IS EASY AND FAST CALCULATE HOW MANY OINTS OF LIGHT CAN BE OWERED BY ONE SQUARE METER OF V GLASS IN YOUR LOCATION Each square meter of glass can produce enough energy to feed 10 points of light on average for 4 hours every day. Select your location and calculate how many points of light you can power with Onyx Solar V Glass in your building. Select your location and calculate how many points of light you can power with our glass. The number of light points powered by each square meter of glass is an average estimate where factors such as surrounding shadows, own shadows, potential losses due to system balance and other external impacts are not taken into account. These factors can lead to a reduction in energy production. LED lights 6 W. We Recommend 1 SQUARE METER OF HOTOVOLTAIC GLASS INSTALLED IN THE WALKABLE FLOOR OWERS U TO 10 OINTS OF LIGHT EACH DAY

CERTIFICATIONS & QUALITY TESTS CUT TO SIZE ON THE JOBSITE Our photovoltaic glass product has been engineered to meet the ever changing building s

It is the first photovoltaic building material that can be cut to size on the jobsite, thus facilitating its installation and avoiding customization

Our three-ply V glasses have been tested under more adverse conditions of temperature, humidity, mechanical loads and impacts than any other building

Onyx Solar s amorphous Silicon laminated glass complies with the requirements specified for salt corrosion test, severity level 5. IEC 61646:2009.

Safety qualification for V modules for constructive use. UL 1703. Flat-late hotovoltaic Modules and anels. EN 14449. Glass in building.

For safety glazing materials used in buildings - safety performance specifications and methods of test, American National Standard.

In order to ensure the product s electrical isolation and safety conditions, all glass units planned to be cut on the jobsite are not supplied with an

This product line has been designed in a single standard sizes which have proven to be ideal formats for an easy manipulation, and a lightweight and

However, if your project requires a different glass configuration, please contact us to discuss the glass dimension, thickness and composition that will

Onyx has met additional local requirements such as MCS certificate for the United Kingdom (with more than 100 products), DEWA SHAMS in Dubai (with more than

17 CERTIFICATIONS & QUALITY TESTS CUT TO SIZE ON THE JOBSITE Our photovoltaic glass product has been engineered to meet the ever changing building s architectural needs. It is the first photovoltaic building material that can be cut to size on the jobsite, thus facilitating its installation and avoiding customization processes in the factory. Our three-ply V glasses have been tested under more adverse conditions of temperature, humidity, mechanical loads and impacts than any other building material. They are completely suitable for their architectural integration. IEC Onyx Solar s amorphous Silicon laminated glass complies with the requirements specified for salt corrosion test, severity level 5. IEC 61646:2009. Thin-film terrestial photovoltaic (V) modules. Design qualification and type approval. IEC :2007. Safety qualification for V modules for constructive use. UL Flat-late hotovoltaic Modules and anels. EN Glass in building. Laminated glass and laminated safety glass. Evaluation of conformity/product standard. Fire test according to UL 790 and ASTM E84: Material. ANSI Z97.1:2015. For safety glazing materials used in buildings - safety performance specifications and methods of test, American National Standard. Double laminated and three-ply laminated safety glass Solving corner conditions and opening areas has never been so easy. In order to ensure the product s electrical isolation and safety conditions, all glass units planned to be cut on the jobsite are not supplied with an electrical junction box, so it cannot be interconnected to the rest of the system. This product line has been designed in a single standard sizes which have proven to be ideal formats for an easy manipulation, and a lightweight and extremely affordable solution. However, if your project requires a different glass configuration, please contact us to discuss the glass dimension, thickness and composition that will meet your needs best. Onyx has met additional local requirements such as MCS certificate for the United Kingdom (with more than 100 products), DEWA SHAMS in Dubai (with more than 100 products), CEC in Australia and INMETRO in Brazil Onyx Solar offers a five-year term warranty for manufacturing defects. And maximum 20% loss of power output during first 20 years. TEMERATURE CYCLING TEST (TC200): Our glasses are subjected to 200 cycles of temperature from -40ºF to ºF.. HUMIDITY TEST (HF10): Our V glasses are subjected to 10 cycles of ºF following by freezing stage as 85% relative humidity at -40ªF. DAM HEAT TEST (DHT1000): Our V Glasses are subjected to 1000 hours at 85ºC and 85% relative humidity CLASS A MECHANICAL LOADING TEST Our system supports up to a tested load of 112 psf (5400 a). The deflection of the system (structure and glass) is below L/240 where L is equal to the clear span length in meters of the deflected member. SURFACE BURNING CHARACTERISTICS OF BUILDING MATERIALS (UL 790) Flame spread index 25 Smoke-developed index 180. HAIL IMACT TEST Our V Glasses received 11 impacts of ice balls with a diameter of 75 mm in a selected location at 39 m/s.

Fig.: Amorphous Silicon. Semi-transparent inside. Black outside.

Both our semi-transparent and translucent a-si photovoltaic glass products are optimal in terms of solar control, since they efficiently block heat transfer (g-value > 66%) and filter up to 99% UV

Our photovoltaic glass is supplied in solid, semi-transparent or translucent finishes. This helps managing skylights or façade window openings.

18 Fig.: Amorphous Silicon. Semi-transparent inside. Black outside. Our photovoltaic glass generates power at the same time that it lets light inside the building; this helps decreasing the need for artificial lighting, and also improving comfort inside the space. Our photovoltaic glass generates power at the same time that it lets light inside the building; this helps decreasing the need for artificial lighting, and also improving comfort inside the space. Both our semi-transparent and translucent a-si photovoltaic glass products are optimal in terms of solar control, since they efficiently block heat transfer (g-value > 66%) and filter up to 99% UV radiation. This helps preventing overheating inside the building, as well as decreasing the HVAC usage. Occupants can enjoy tons of natural light too. Our photovoltaic glass is supplied in solid, semi-transparent or translucent finishes. This helps managing skylights or façade window openings. Our photovoltaic glass is installed over the EXTERIOR VIEW INTERIOR VIEW TRANSARENT V GLASS TRANSLUCENT V GLASS Semitransparent amorphous silicon glass allows natural light to enter the building and visual contact with the exterior. Fig.:Amorphous Silicon V Glass. Translucent

#VSKYLIGHT HORIZONTAL SOLUTIONS Onyx Solar hotovoltaic Glass is also an ideal product to be used horizontally, as a glass for canopies, ventilated roofs and raised-access floor systems.

The wide range of colors available, along with translucent and semi-transparent designs, boosts design freedom and durability.

100% CUSTOMIZED Would you like to see our artistic side? Check out our catalog with dozens of customized photovoltaic glass designs. You choose the color, shape, finish and size. We create it for you.

19 #VSKYLIGHT HORIZONTAL SOLUTIONS Onyx Solar hotovoltaic Glass is also an ideal product to be used horizontally, as a glass for canopies, ventilated roofs and raised-access floor systems. It has also been tested to UL and IEC standards for these specific applications. Our safety laminated V glass is an optimal product for canopy, sunshade applications and even skylight (three-ply). The wide range of colors available, along with translucent and semi-transparent designs, boosts design freedom and durability. Installing photovoltaic glass horizontally follows a very similar process compared to vertical facades; however they offer greater energy yield since the glass is best exposed towards the sun. 100% CUSTOMIZED Would you like to see our artistic side? Check out our catalog with dozens of customized photovoltaic glass designs. You choose the color, shape, finish and size. We create it for you. 12 REASONS TO CHOOSE OUR V GLASS It produces clean, free energy. It insulates your building. It is the only building material that pays off throughout its lifespan. It is financed over 30 years with no upfront cost. It unlocks Tax Credits and Incentives. It increases the value of your property. It has a competitive price. Similar to other alternative building materials unable to generate energy. It provides undeniable aesthetics for new construction and renovation projects It is available in eight different colors. It is available in semi-transparent and translucent finishes. It is quick and easy to install. It is easy to cut-to-size on the jobsite.

TECHNICAL DATA This building material consists of a laminated safety glass that embeds a thin layer of amorphous silicon solar cells, providing it with photovoltaic properties.

Thanks to our photovoltaic glass, buildings can now generate the energy they need.

Choose the product of your preference and calculate the energy that your building will produce in our website. https://www.onyxsolar.

Translucent Translucent eak ower 46 Wp 46 Wp 40 Wp 40 Wp 27 Wp 27 Wp 22 Wp 22 Wp Wp/sqft 5.47 5.47 4.80 4.80 3.24 3.24 2.78 2.

20 TECHNICAL DATA This building material consists of a laminated safety glass that embeds a thin layer of amorphous silicon solar cells, providing it with photovoltaic properties. Thus, our glass product converts photons gifted to us by the sun into electricity that our buildings can enjoy for free. Thanks to our photovoltaic glass, buildings can now generate the energy they need. Our photovoltaic a-si glass offers up to 57 Wp per square meter, and once installed, it produces up to 770 per square meter worth of clean power. Choose the product of your preference and calculate the energy that your building will produce in our website. photovoltaic-estimation-tool Standard hotovoltaic Glass Color Black Black Anthracite Metallized Black Black Anthracite Metallized Finish Solid Solid Solid Solid Semi-Transparent Semi-Transparent Translucent Translucent eak ower 46 Wp 46 Wp 40 Wp 40 Wp 27 Wp 27 Wp 22 Wp 22 Wp Wp/sqft Minimum pieces to operate AC output* DC output** Open-circuit voltage Shortcircuit Current Voltage at nominal power Current at nominal power ower tolerance not to exceed +/- 5% +/- 5% +/- 5% +/- 5% +/- 5% +/- 5% +/- 5% +/- 5% Size 49 x x x x x x x x 25 Thickness 5/16 (two-ply) 1/2 (Three-ply) 1/2 (Three-ply) 1/2 (Three-ply) 5/16 (two-ply) 1/2 (Three-ply) 1/2 (Three-ply) 1/2 (Three-ply) Weight (lbs) Wind resistance Design load IEC psf 75 psf 75 psf 75 psf 50 psf 75 psf 75 psf 75 psf Wind resistance Test load IEC psf 112 psf 112 psf 112 psf 75 psf 112 psf 112 psf 112 psf Fire rated spread flaming UL790 Fire rated brand burning UL790 Class C Class C Impact resistance UNE-EN 12600:2003 1(B)1 1(B)1 1(B)1 1(B)1 1(B)1 1(B)1 1(B)1 1(B)1 UL listed components IEC listed components UL listed fabricated glass O O IEC listed fabricated glass O O Reference 034-CN-1245x CN-1245x CN-1245x635001AE 434-CN-1245x635201GY 034-CN-1245x CN-1245x CN-1245x635201AE 434-CN-1245x635201GY Floor (Anthracite) Solid anti-slip 21 Wp /- 5% 49 x 25 11/16 (Three-ply) psf 112 psf 1(B)1 S636-CN-0600x Onyx Solar has a policy of continuous product development and reserves the right to alter product designs or specifications without prior notice. Limits: Maximum system voltage 1000 Vsys (V) Operating module temperature C Temperature Coefficients: Temperature Coefficient of mpp -0,19 %/ºC Temperature Coefficient of Voc -0,28 %/ºC Temperature Coefficient of Isc +0,09 %/ºC * An inverter is needed to transform from DC to AC. Inverter considered: FRONIUS Galvo 1,5-1 ** A charge controller and a baterry are needed to manage the energy flows. Charge controller considered: VICTRON MT 75/10 Two-ply laminated glass V Glass Download hotovoltaic Glass Specifiications in CSI Format in our website. End units can be cut-to-size on the jobsite. These units are supplied with no junction box and they do not generate power Interlayer Glass 49 Three-ply laminated glass Glass Interlayer V Glass Interlayer Glass

22 THE GLOBAL LEADER IN HOTOVOLTAIC GLASS FOR BUILDINGS More than 150 projects completed in 40 countries for companies and institutions such as:. semi-transparent inside, black outside In cooperation with leading contractors such as: and with top architects such as: More than 50 international awards recognize Onyx Solar as the world leader company in solar V glass for buildings. THE DEFINITVE SOLUTION FOR RENOVATION ROJECTS AND NEW CONSTRUCTION

THE MOST AWARD-WINING HOTOVOLTAIC COMANY ON

SAIN alma de Mallorca, 8 Avila 05194 hone: +34

com UNITED STATES 79 Madison Avenue, Ste.

23 THE MOST AWARD-WINING HOTOVOLTAIC COMANY ON THE GLOBE. SAIN alma de Mallorca, 8 Avila hone: info@onyxsolar.com UNITED STATES 79 Madison Avenue, Ste. #640 New York City, hone: usa@onyxsolar.com