BIPV component style
Various manufacturers are able to produce custom BIPV solar panels in various sizes, shapes, colors, transparencies and efficiencies. All of our photovoltaic products can be produced using full or cut solar cells according to demand.
1. Translucent BIPV module
Metsolar manufactures standard glass/glass, glass/backsheet BIPV solar panel options that can vary in size, shape, transparency, JB, etc. For seamless integration and hybrid designs.
Serve with a glass of your choice
Different transmittance
With full, diced, bifacial solar cells
2. All Black/All Black Module
All black modules are used when full fusion with objects is required and stealth is required.
with satin glass
with float glass
3. Terracotta/red solar modules
Terracotta modules for BIPV projects are mainly focused on architectural heritage and old towns, areas where there are strong constraints on architectural design. This solution brings advantages and design freedom to architects, allowing them to have energy active roofs or solar facades, while keeping such buildings similar to their surroundings.
with terracotta glass
4. Colored glass module
Roofs and façades with stained glass from Kromatix™ (SwissINSO’s innovative solar glass) or modules produced with technology from Solaxess, where the solar cells are barely visible, really stand out.
12 dynamic colors
glass color
5. BIPV customization
options
size and shape
Color of glass, backsheet, solar cell
transparency
thickness and weight
Efficiency Options and Junction Box Combinations
other
Case Highlights
Xiamen Lianbang Technology Co., Ltd. is a leading technology company in the field of solar energy and related sustainable technologies. We have the experience, capability and financial viability required to successfully implement affordable wind & photovoltaic systems and on/off-grid power system solutions and products. We provide turnkey services including assessment, design, permitting, procurement, installation, commissioning, and operation and maintenance. We take a creative approach to designing photovoltaic systems so that they are price-competitive, high-performance and attractive.