eBIPV Solar Facade, As a Disruptor Of High-Carbon Building Material
Taka Design MCM eBIPV SolarFacade replace natural stone, tiles and precast concrete. By combining solar power and digital technology, Its original MCM inventor creates a "triple evolution path" for building's surfaces: from application side, it supports municipal renewal, zero-carbon buildings, infrastructure upgrades, and aesthetic redefinition; from functional side, It provides a photovoltaic building-integrated(BIPV) energy system and a digital information platform. This dual innovation in materials and functionality transforms building surfaces into smart, energy-efficient, and information-rich systems, reshaping the construction industry's value chain.
Technical Principle
This invention of eSolarFacade is based on the precise control of the microscopic structure of the MCM Covering, enabling it to guide light to propagate in specific directions while maintaining its opaque characteristics. In practice, after the light penetrates this specially structured eCovering, it will be absorbed by the internal high-efficiency photovoltaic materials and converted into electrical energy. This process not only significantly improves the energy conversion efficiency of the material but also prevents light pollution in buildings caused by sunlight reflection.In addition to the unidirectional light-guiding function, the eCovering also employs a distinctive process to print 3D textures and patterns on the inorganic econiclay (zero-carbon) material. These textures and patterns not only enhance the visual appeal of the covering material but also integrate seamlessly with architectural design, elevating the overall aesthetic value of the building.
eBIPV Intellectual Property (IP)
New MCM eBIVP is the global pioneer of eSolar Facade. Currently, it holds 16 patented technologies that cover key aspects such as core technology R&D and product design. This not only demonstrates the company's exploratory capabilities in innovation practices but also provides strong support for optimizing product performance and enhancing market competitiveness.
New MCM eBIPV (eSolar Facade) Pro 5.0
MCM eBIPV has innovated a surface material that is opaque but has excellent light guidance function in the world. The breakthrough is based on precise manipulation of the microstructure of the innovative MCM covering, allowing it to guide light to travel in a specific direction while maintaining its opaque characteristics. In eBIPV applications, after light penetrates the face of this special structure, it is absorbed by the internal high-efficiency photovoltaic material and converted into electricity. This process not only significantly improves the power generation efficiency of photovoltaic materials, but also ensures the effective use of light and avoids unnecessary energy loss. In addition to the one-way light guide function, as an inventor also realizes the printing of personalized patterns and textures on MCM covering through special processes. These patterns not only enhance the visual effect of the surface, but also perfectly integrate with the architectural design and enhance the overall aesthetic value of the building. This innovation of eBIPV successfully solved the destruction of traditional BIPV to architectural visual art and broke through its aesthetic limitations. Nowadays, eBIPV products can not only provide clean energy, but also show unique artistic charm as part of the building.
MCM eBIPV - Award-Winning Innovation
Revolutionizing Solar Energy with Opaque, Light-Guiding Surfaces. A breakthrough innovation that blends seamlessly with architectural aesthetics, unlocking new possibilities for sustainable and visually stunning buildings.
MCM eBIPV Powering Buildings, Generating Revenue
Setting a new standard in sustainable energy solutions. Harness the sun's energy to reduce your electricity costs and create a new revenue stream while blending seamlessly with your building facade. Powering buildings, generating revenue, beautifully.
Aesthetics And Energy Generation
Photovoltaic facade allow buildings to generate additional power without compromising aesthetics, functionality and views.
Beyond Traditional BIPV Glass - Ushering in Solar-Active Surface Innovation
This breakthrough is built on four key pillars:
1.Expressive Aesthetics, Unbounded
Recreate the authentic textures of stone, wood, or brick across any façade, seamlessly integrating solar functionality without compromising design freedom.
2. Versatility That Break The Glass Barrier
Go beyond the limitations of traditional glass BIPV. Our solution is designed for the 90% of buildings without glass curtain walls, unlocking solar potential for virtually any structure.
3. Generate Over 60% More Power Than Standard 60% Transmittance
Generate over 60% more power than standard 60% transmittance glass BIPV (certified by CQC/TUV) while reducing the product’s carbon footprint by 54.6% (certified by BV), maximizing energy yield and sustainability.
4. Smarter, Multi-Functional Building Envelope
Transform your façade into an intelligent surface, with options for integrated displays, enhanced thermal insulation, or air-purifying negative ion release for healthier, adaptive spaces.
Available in Stone, Wood, and Brick - Standard Model
Commercial eSolar Facade
Commercial eSolarFacade primarily targets the commercial / industrial building market, meeting the dual demands of businesses for renewable energy and enhanced aesthetic appeal in architecture.
Commercial/industrial BIPV needs to be customized based on the specific design and purpose of the building, so it is essential to intervene during the design phase to ensure the perfect integration of the product. Commercial eBIPV can be personalized according to the specific needs of clients and the characteristics of the building. including aspects such as size,shape, color, and texture.
Application Case Scenarios
Civil eSolar Facade
The civil eSolarFacade can be installed at the designated locations on existing buildings, including the exterior walls, roofs, and fences of residential buildings. It does not require complex design, with standardized specifications and easy installation, making it perfect for DIY applications.
Civil eSolarFacade can seamlessly integrate with and maintain the original building appearance by matching the building materials (such as stone, wood, or brick).
Combining various materials with eSolarFacade (such as brick walls with wood/stone eBIPV) can create striking visual contrasts and offer innovative architectural styles.
Civil eSolar Facade Advantages
Civil eSolarFacade is not only suitable for exterior walls and roofs but also for a wider range of architectural elements, such as fences and balcony railings, offering more possibilities for partial applications on existing buildings. In contrast, glass BIPV, restricted by its transparent nature, is more suitable for areas requiring natural light, such as roofs and certain wall sections, making its application scenarios relatively limited.
The versatility of eSolarFacade allows for easy transformation of architectural styles and DIY installation through mixing diferent materials and colors, catering to diverse aesthetic needs, while glass BIPV ofers a more singular style.
Civil eSolarFacade ofers a variety of material options, including stone, wood, and brick, allowing it to seamlessly integrate into various architectural styles and enhance the overall aesthetic of the building. In contrast, glass BIPV has a single material manifestation, making it dificult to blend with all architectural styles, especially in situations where it is necessary to aintain or emphasize the original material characteristics of the building.
Civil eSolarFacade has a simple and quick installation process that requires no complex design, thereby reducing installation costs and time. In contrast, glass BIPV involves considerations of light transmittance and structural strength, making the design and installation process relatively complex, with longer design and construction periods and higher costs.
Application Case Scenarios
eSolar Facade Technical Parameters
Energy Efficiency Comparison:
Power Efficiency:60% HIGHER than glass BIPV with 60% transmittance(CQC/TUV certification)
Carbon Emissions:54.6% lower than glass BIPV(BV certification)
Electrical Specifications
Test Conditions :STC(Standard Test Conditions 1000 W/m2-AM 1.5 -Temperature 25°C)
Maximum Power (Pmax) :59.23~ 166.62 W
Maximum Power Voltage (Vpmax) :20.70 ~29.22 V
Maximum Power Current (Ipmax): 2.86 ~ 5.70 A
Open Circuit Voltage(Voc) :24.18 ~35.52V
Short Circuit Current (Isc) :3.15 ~ 6.17A
Module Efficiency :9.12% ~17.63%
Maximum System Voltage (VDC) :1000 V (TUV/CE/CB/CQC/UKCA)
Series Fuse Rating: 25 A
Power & Other Electrical Specification Tolerance: 5%
Mechanical Properties
Module Weight :15.28kg/m2 (variable for different texture)
Dimensions(Lx W x T): 1140x570x30mm,1200x600x30mm,1254x751x30mm,1260x746x30mm
Maximum Surface Load(Wind / Snow) :2400 Pa rear & front
Hail Impact Resistance :Ø25mm @23.0 m/s
Glass : No
Back support :Aluminium honeycomb composite panel ,Aluminum frame
Cables & Connectors :300mm,1000mm, 1200mm,4mm2
Front layer : Photon eCovering (High durability, UV resistant)
Backsheet : eCovering (High durability, UV resistant)
Bypass Diodes :2 diodes
Junction Box :Ip68 rated,TUV certified
Temperature Ratings
Temperature Coefficient Isc :0.036%/°C
Temperature Coefficient Voc :-0.25%/°C
Temperature Coefficient Pmax :-0.30% /°C
Nominal Module Operating Temperature :42±3°C
Operating Temperature :-40°C~+85°C
Product limited warranty: 25 years
Perfomance Warranty:
fi ≥98% end of 1st year
fi ≥90% end of 12th year
fi ≥80% end of 25th year
25 Year Warranty
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More Customization Options:
Beyond power generation, eBIPV(eSolarFacade) can be tailored for display, insulation, negative ion release, and more, enhancing building performance and comfort.
Learn more eDisplay
Learn more Negative Oxygen Ion‑Releasing Function