Photovoltaic systems
Use the energy of the sun - inexhaustible and climate-friendly.
Photovoltaic systems from professionals ✔ Over 35 years of experience ✔ More than 120 employees ✔ In use worldwide ✔ Quality made in Germany ✔
We are your reliable partner for the design, implementation and maintenance of your photovoltaic system. Under our professional supervision, we ensure a smooth process from brainstorming to implementation. In addition, we offer comprehensive service for the maintenance of your plant to ensure optimal performance and longevity.
Future-proof energy supply with photovoltaics
Photovoltaic systems are a sustainable and environmentally friendly way to generate energy. The sun provides inexhaustible energy and photovoltaic systems convert this into electricity without causing CO2 emissions. As a result, they make an important contribution to climate protection and can also be a sensible investment for your home or business.
Use the energy of the sun and reduce your electricity costs in the long term. Solar technology not only offers the opportunity to generate environmentally friendly energy, but also to store it efficiently. Solar storage units offer an optimal solution here by storing surplus energy from photovoltaic systems and making it available when needed. In this way, self-consumption can be increased and the purchase of expensive grid electricity reduced. In addition, solar storage can also be used as an emergency power supply. Learn more about the advantages of photovoltaic systems and let us advise you.
Use the energy of the sun and reduce your electricity costs in the long term. Solar technology not only offers the opportunity to generate environmentally friendly energy, but also to store it efficiently. Solar storage units offer an optimal solution here by storing surplus energy from photovoltaic systems and making it available when needed. In this way, self-consumption can be increased and the purchase of expensive grid electricity reduced. In addition, solar storage can also be used as an emergency power supply. Learn more about the advantages of photovoltaic systems and let us advise you.
Planning your PV plant
Careful planning is essential for the successful operation of your photovoltaic (PV) system. The following points should be considered:
- Site analysis and system positioning: the optimal performance of your PV system depends heavily on the siting and orientation of the solar modules. You should check if your location has enough sunshine hours and if the modules can be aligned to the optimal solar irradiation (usually south orientation in the northern hemisphere). Shadows cast by surrounding buildings or trees should be avoided.
- Size and power of the PV system: The size of your system should be matched to your electricity consumption and the available area. Oversizing the system will result in unnecessary costs, while undersizing it will not adequately meet your energy needs.
- Economic efficiency check: In addition to the technical aspects, an economic efficiency check should also be carried out. Here, the profitability of the PV system is calculated, taking into account investment costs, operating costs, possible savings.
- Selection of components and installer: Quality and reliability of the components (solar modules, inverters, substructure, etc.) are crucial for the long-term operation of your PV system. Equally important is the choice of an experienced and qualified installer who will professionally install and commission the system.
Configure your PV system individually - Simply use our practical PV request generator.
Assembly of your PV system
The installation of a photovoltaic (PV) system is a significant step towards sustainable energy production. The process involves a number of steps, starting with site analysis to determine the optimal positioning and orientation of the panels. Then comes the installation of the solar panels themselves, followed by wiring and connection to the power grid.
At the end, there is a thorough inspection and test run to ensure that the system is working properly. By installing a PV system, homeowners can generate significant amounts of green energy and reduce their utility bills.
- Installation of the solar panels.
- Wiring and connection to the power grid.
At the end, there is a thorough inspection and test run to ensure that the system is working properly. By installing a PV system, homeowners can generate significant amounts of green energy and reduce their utility bills.
Generate your own electricity with the photovoltaic system
With a photovoltaic system, you can generate your own electricity and thus contribute to the sustainable energy transition. Such systems use the energy of the sun and convert it into electrical energy. They typically consist of several solar modules that can be installed on the roof of your house or on the ground.
The electricity generated can then either be consumed directly in your home, stored in an energy storage system for later use, or fed into the public power grid. In many countries, there are also subsidy programs that pay owners of photovoltaic systems a fee for the electricity they feed into the grid.
Photovoltaic systems are an environmentally friendly and economically viable long-term solution for meeting one's own electricity needs while contributing to environmental protection. They are a worthwhile investment in the future and an important step towards a more sustainable energy supply.
The electricity generated can then either be consumed directly in your home, stored in an energy storage system for later use, or fed into the public power grid. In many countries, there are also subsidy programs that pay owners of photovoltaic systems a fee for the electricity they feed into the grid.
Photovoltaic systems are an environmentally friendly and economically viable long-term solution for meeting one's own electricity needs while contributing to environmental protection. They are a worthwhile investment in the future and an important step towards a more sustainable energy supply.
Your partner and expert in the field of photovoltaics
For more than a decade, we have been your trusted partner in the field of photovoltaics. Our commitment and expertise are focused on finding customized solutions for sustainable energy generation for you. Our services include consulting, planning, installation and maintenance of photovoltaic systems.
We firmly believe that the transition to renewable energy is not only an economic but also an ecological necessity. Our goal is to help our customers make this transition as seamless as possible. Our number one priority is customer satisfaction. We always strive to deliver the best products and services to meet and exceed your needs.
With us as your partner in photovoltaics, you can be assured that you are making an investment in a more sustainable and greener future.
We firmly believe that the transition to renewable energy is not only an economic but also an ecological necessity. Our goal is to help our customers make this transition as seamless as possible. Our number one priority is customer satisfaction. We always strive to deliver the best products and services to meet and exceed your needs.
With us as your partner in photovoltaics, you can be assured that you are making an investment in a more sustainable and greener future.
Photovoltaic systems with storage
Photovoltaic systems with storage are an increasingly popular energy generation and storage solution for homes and businesses. By converting sunlight into electrical energy, photovoltaic systems offer an environmentally friendly and sustainable method of generating power. But at the heart of these systems is often energy storage.
Energy storage is necessary to store the solar energy generated and make it available at times when the sun is not shining. During the day, when the sun shines brightest, a photovoltaic system often produces more energy than is needed. Instead of feeding this excess energy into the grid, it can be collected in a storage unit for later use.
Energy storage for photovoltaic systems comes in various forms, most commonly lithium-ion batteries. These batteries have a high energy density, are durable and efficient, which makes them an ideal solution for storing solar energy.
By using a photovoltaic system with storage, households and businesses can reduce their dependence on the power grid and lower their energy costs. They also help reduce carbon dioxide emissions and drive the transition to renewable energy.
Energy storage is necessary to store the solar energy generated and make it available at times when the sun is not shining. During the day, when the sun shines brightest, a photovoltaic system often produces more energy than is needed. Instead of feeding this excess energy into the grid, it can be collected in a storage unit for later use.
Energy storage for photovoltaic systems comes in various forms, most commonly lithium-ion batteries. These batteries have a high energy density, are durable and efficient, which makes them an ideal solution for storing solar energy.
By using a photovoltaic system with storage, households and businesses can reduce their dependence on the power grid and lower their energy costs. They also help reduce carbon dioxide emissions and drive the transition to renewable energy.
Yield and orientation of the photovoltaic system
The yield performance of a photovoltaic system depends strongly on its orientation and the intensity of the solar radiation. An ideal orientation in Germany is usually between south-east and south-west, with an optimal angle of inclination of about 30-35 degrees.
A south-facing system allows for maximum solar radiation throughout the day and year. However, a slightly east or west facing orientation can still provide high yields and has the advantage of better distributing energy production throughout the day, which can be especially beneficial for households with high self-consumption.
It is important to note that other factors such as shadows cast by surrounding buildings or trees, the quality of the solar modules and inverters, and regular maintenance also play a significant role in the yield of a photovoltaic system.
Overall, the correct orientation of a photovoltaic system is a crucial factor in maximizing its efficiency and profitability. Careful planning and advice from professionals is therefore essential.
A south-facing system allows for maximum solar radiation throughout the day and year. However, a slightly east or west facing orientation can still provide high yields and has the advantage of better distributing energy production throughout the day, which can be especially beneficial for households with high self-consumption.
It is important to note that other factors such as shadows cast by surrounding buildings or trees, the quality of the solar modules and inverters, and regular maintenance also play a significant role in the yield of a photovoltaic system.
Overall, the correct orientation of a photovoltaic system is a crucial factor in maximizing its efficiency and profitability. Careful planning and advice from professionals is therefore essential.
Components of a photovoltaic system
A photovoltaic system consists of several important components that work together to convert solar energy into electrical energy.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
- Photovoltaic modules: The heart of the system. They consist of several interconnected solar cells that convert light into electricity.
- Inverter: A device that converts the direct current generated by the modules into alternating current. This is necessary because most household appliances use alternating current.
- Mounting system: it is used to install the PV modules on the roof or on the ground. It must be secure and stable to allow the modules to capture the sunlight optimally.
- Energy management system: an intelligent controller that monitors and controls the generation and consumption of energy. It can also be used to store excess energy in batteries or feed it into the power grid.
- Battery storage: Not all electricity is always consumed immediately. In these cases, a battery can store the excess power and make it available at a later time.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
Components of a photovoltaic system
A photovoltaic system consists of several important components that work together to convert solar energy into electrical energy.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
- Photovoltaic modules: The heart of the system. They consist of several interconnected solar cells that convert light into electricity.
- Inverter: A device that converts the direct current generated by the modules into alternating current. This is necessary because most household appliances use alternating current.
- Mounting system: it is used to install the PV modules on the roof or on the ground. It must be secure and stable to allow the modules to capture the sunlight optimally.
- Energy management system: an intelligent controller that monitors and controls the generation and consumption of energy. It can also be used to store excess energy in batteries or feed it into the power grid.
- Battery storage: Not all electricity is always consumed immediately. In these cases, a battery can store the excess power and make it available at a later time.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
Components of a photovoltaic system
A photovoltaic system consists of several important components that work together to convert solar energy into electrical energy.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
- Photovoltaic modules: The heart of the system. They consist of several interconnected solar cells that convert light into electricity.
- Inverter: A device that converts the direct current generated by the modules into alternating current. This is necessary because most household appliances use alternating current.
- Mounting system: it is used to install the PV modules on the roof or on the ground. It must be secure and stable to allow the modules to capture the sunlight optimally.
- Energy management system: an intelligent controller that monitors and controls the generation and consumption of energy. It can also be used to store excess energy in batteries or feed it into the power grid.
- Battery storage: Not all electricity is always consumed immediately. In these cases, a battery can store the excess power and make it available at a later time.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
Components of a photovoltaic system
A photovoltaic system consists of several important components that work together to convert solar energy into electrical energy.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
- Photovoltaic modules: The heart of the system. They consist of several interconnected solar cells that convert light into electricity.
- Inverter: A device that converts the direct current generated by the modules into alternating current. This is necessary because most household appliances use alternating current.
- Mounting system: it is used to install the PV modules on the roof or on the ground. It must be secure and stable to allow the modules to capture the sunlight optimally.
- Energy management system: an intelligent controller that monitors and controls the generation and consumption of energy. It can also be used to store excess energy in batteries or feed it into the power grid.
- Battery storage: Not all electricity is always consumed immediately. In these cases, a battery can store the excess power and make it available at a later time.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
Components of a photovoltaic system
A photovoltaic system consists of several important components that work together to convert solar energy into electrical energy.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
- Photovoltaic modules: The heart of the system. They consist of several interconnected solar cells that convert light into electricity.
- Inverter: A device that converts the direct current generated by the modules into alternating current. This is necessary because most household appliances use alternating current.
- Mounting system: it is used to install the PV modules on the roof or on the ground. It must be secure and stable to allow the modules to capture the sunlight optimally.
- Energy management system: an intelligent controller that monitors and controls the generation and consumption of energy. It can also be used to store excess energy in batteries or feed it into the power grid.
- Battery storage: Not all electricity is always consumed immediately. In these cases, a battery can store the excess power and make it available at a later time.
Each of these components plays a critical role in the photovoltaic system, helping to provide clean and renewable energy for home or business use.
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