The SUN-MASTER SOLAR CARPORTS are a sustainable complete solution that offers far more than just protection for vehicles. They generate clean electricity, are durable, stable, and, of course, installed in compliance with VDE standards.
Featuring integrated roof drainage, galvanized trapezoidal steel sheeting with anti-drip coating, and a robust substructure, they stand for the highest quality and safety. Whether as a ready-made installation or a practical kit – the carports can be ideally combined with SUN-MASTER energy storage modules and inverters, thus creating maximum efficiency and independence.
Dual Functionality
Protection for vehicles and simultaneous power generation for households or e-mobility.
Durable Quality
Stable substructure, galvanized trapezoidal steel sheeting with anti-drip coating, and VDE-compliant installation.
High Flexibility
Available in three sizes, combinable with energy storage systems and inverters for maximum efficiency.
Safe, standard-compliant electrical systems
When PV modules are connected in series, voltages of over 400 V DC are generated – a range that requires the utmost care during planning and installation. SUN-MASTER solar carports are therefore already equipped with all the necessary components to ensure a safe and reliable VDE-compliant installation. This means you benefit from maximum safety, tested quality and a system that has been professionally designed from the outset.
Integrated roof drainage – discreet, reliable, durable
A well-designed roof drainage system is crucial for maintaining the value of your carport. At SUN-MASTER, it is elegantly integrated into the structure, virtually invisible, and works reliably in the background. This ensures that water is effectively drained away, the structure is protected, and operational safety is guaranteed in the long term – for a carport that continues to impress over time.
The roof – thoughtfully designed down to the last detail
The roof is made of galvanised trapezoidal steel sheet, ensuring reliable water drainage. At the same time, it effectively protects the underside of the modules and the plug connections from moisture. An integrated anti-drip coating prevents the formation of condensation, ensuring that the area under the carport remains permanently dry. The design is also visually appealing: the clean underside of the roof ensures a high-quality and neat appearance.
The substructure – stable, precisely fitted, durable
The substructure is designed for maximum stability and is precisely tailored to the modules. This virtually eliminates any warping and ensures that mechanical stresses are kept away from the modules – ensuring a long service life and high reliability.
The screws are fitted directly into the timber structure and remain invisible – ensuring a clean look and a well-thought-out overall appearance.
SUN-MASTER solar carports are available in a range of sizes and high-quality timber species, allowing them to be tailored perfectly to your building layout and personal preferences.
COMPACT – Ideal for single parking spaces, a compact solution
Area: 28.32 m², of which 27.01 m² is solar panels. 95.38% of the area is covered by solar panels.
PLUS – More power and space, perfect for two vehicles
Area: 34.56 m², of which 32.41 m² is solar panels. 93.79% of the area is covered by solar panels.
MAX – Larger area and power, optimal for families or small fleets
Area: 53.28 m², of which 48.62 m² is solar panels. 91.26% of the area is covered by solar panels.
*Orientation 225º South-West, Source: www.globalsolaratlas.info
Technical Data Sheet: Solar Carport COMPACT
Detailed technical specifications, performance figures and system information.
Technical Data Sheet: Solar Carport PLUS
Detailed technical specifications, performance figures and system information.
Technical Data Sheet: Solar Carport MAX
Detailed technical specifications, performance figures and system information.
Product information: Solar carports
The features of solar carports explained.
Energy Storage
MULTISTORAGE HUB
Inverter
solar carport
Commorcial Carports
Consulting
Individual, transparent and tailored to your requirements.
Customer service
Support with the expansion of existing PV systems as well as reliable repair and maintenance.
Our energy storage system is usually installed in a basement, cellar vault, or a
suitable storage room. For maximum safety – especially when multiple
modules are stacked on top of each other – our technicians perform a professional wall mounting.
The modules are delivered by freight forwarder or by our own team. Thanks to integrated rollers, they can be easily moved to the installation site, after which the rollers are removed. Alternatively, the modules can also be safely lifted using the integrated eyelet system. For stacking the energy storage modules, the eyelets can also be removed.
Our energy storage modules utilize particularly safe 48V technology. The installed LiFePO₄ cells are considered extremely reliable and, unlike conventional lithium-ion batteries, cannot self-ignite. This means for you: maximum safety with full performance.
In the front area of the storage system, where the electronics such as the BMS and wiring are located, our engineers have deliberately planned additional space. This ensures good ventilation and protects the components from overheating. At the same time, we remain flexible: In case of future adjustments – for example, due to new legal requirements or new state-of-the-art components – additional components can be easily integrated.
Fundamentally, our energy storage systems are very durable and low-maintenance. However, if a malfunction does occur, the failure is usually attributable to the electronics—specifically the BMS (Battery Management System) or the communication interfaces (RS485 / CAN bus). These components are subjected to greater stress than the actual LiFePO₄ cells, which are extremely robust and long-lasting.
The typical spare part costs per module are approximately:
BMS: €200–250
Communication Board: €250–300
LiFePO₄ Cell Unit: €150–200
Briefly explained:
BMS (Battery Management System): Monitors and protects the cells, ensures uniform charging and discharging.
RS485 / CAN-BUS: Enables communication between the storage system and the inverter and master module.
All components in the energy storage system are securely mounted and thus protected from vibrations. The stable aluminum frame provides additional stability, while the outer casing made of HPL panels offers particularly robust protection.
HPL (High Pressure Laminate) is a high-pressure laminate characterized by its extreme robustness: It is shock- and scratch-resistant, withstands moisture and UV radiation, and is flame-retardant (fire protection class B1). Thus, the internal components are reliably protected against external environmental influences such as heat, moisture, or mechanical stress – and the storage system remains operational long-term.
Thanks to the modular design, maximum operational reliability is thus ensured.
