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Photovoltaics is one of the key technologies of the energy transition. The articles show how solar modules, inverters, and integrated systems are being further developed—from decentralized power generation to integration into complex energy structures.
PREFA solar system: Efficient solar energy - Green Week 2025
PREFA is a European manufacturer of roof, solar and façade systems made of aluminum. The company offers durable and low-maintenance solutions for roofs and façades. The products ar... PREFA solar system
Solar module manufacturer and full-range supplier - Canadian Solar
Canadian Solar is a leading global provider of solar solutions and energy storage systems. With over 125 GW of solar modules and 4.5 GWh of battery storage systems delivered worldw... Solar module manufacturer and full-range supplier
Photovoltaic solutions - REC
REC Group is a leading manufacturer of solar panels headquartered in Norway. Founded in 1996, REC specializes in the development and production of high-quality and sustainable sola... Photovoltaic solutions - REC
Solar system direct from the manufacturer - Q Cells
Q CELLS is a leading provider of solar energy solutions and offers innovative solar modules, energy storage systems and complete solutions for private and business customers. Its p... Solar system direct from the manufacturer - Q Cells
Equipment manufacturer solar industry - M10 Solar Equipment
M10 Solar Equipment offers highly innovative technologies for the manufacture of solar modules, including shingle matrix technology, which enables higher efficiencies and more cost... Equipment manufacturer solar industry - M10 Solar Equipment
Solar module manufacturer - LONGi
LONGi is a leading company in the solar energy industry and offers comprehensive solutions for the use of renewable energies. With a focus on high-efficiency monocrystalline silico... Solar module manufacturer - LONGi
Photovoltaic heat - my-PV
MYPV, based in Austria, specializes in the development and production of photovoltaic heat. In concrete terms, this means that hot water and space heating are produced from photovo... Photovoltaic heat - my-PV
Led sun simulators - WAVELABS
WAVELABS, based in Leipzig, is a leading company in the development of LED-based solar simulators. These innovative devices are used in the research and production of photovoltaic ... Led sun simulators - WAVELABS
Photovoltaic module manufacturer - Solar Fabrik
Solar Fabrik is a traditional company in the photovoltaic sector based in the district of Aschaffenburg. For over 25 years, the family-run company has been manufacturing high-quali... Photovoltaic module manufacturer - Solar Fabrik
Fraunhofer institute for solar energy systems
The Fraunhofer Institute for Solar Energy Systems ISE in Freiburg is the largest research institute for solar technology in Europe. It focuses on the development of technologies fo... Fraunhofer institute for solar energy systems
Solar modules with shading optimization - AIKO
AIKO Solar ist ein führendes Unternehmen für neue Energietechnologien, das sich auf die Forschung und Entwicklung sowie die Herstellung von PV-Kernprodukten konzentriert. Das Unter... Solar modules with shading optimization - AIKO
Bifacial solar modules for vertical use - AESOLAR
AE Solar is a German manufacturer of high-quality solar modules that has been active on the market since 2003. The company offers a wide range of products, including bifacial modul... Bifacial solar modules for vertical use - AESOLAR
Glass-glass solar modules - Bauer Solar
Bauer Solar is a leading German manufacturer of solar modules with over 20 years of experience. The family-run company based in Rheinhessen offers high-quality solar modules that a... Glass-glass solar modules - Bauer Solar
Balcony power plant systems - Green Solar
Greensolar offers a wide range of balcony power plants and plug-in solar systems for private customers. These systems are easy to install and allow solar energy to be fed directly ... Balcony power plant systems with planter box - Green Solar
Color-matched solar modules - BISOL
BISOL is a leading manufacturer of photovoltaic modules that are used in over 100 countries worldwide. Known for their low degradation rate and high quality, BISOL modules offer a ... Color-matched solar modules - BISOL
Photovoltaics has undergone significant development in recent years. In addition to efficiency improvements in solar cells, system integration and service life now play a key role. Modules are becoming more robust and powerful, while at the same time being better adapted to different operating conditions – from rooftop systems to large-scale ground-mounted solutions. New approaches are also emerging at the system level. Inverters are increasingly taking on additional functions such as grid support, monitoring, and control of connected consumers. This is transforming photovoltaics from a pure power generator to an active component of modern energy systems.
Photovoltaic systems are now used in almost all areas of power supply. In the private sector, the focus is often on self-sufficiency, while in commerce and industry, reducing energy costs and hedging against volatile electricity prices are becoming increasingly important. The design, dimensioning, and system architecture vary significantly depending on the application:
Photovoltaics is increasingly being viewed not in isolation, but as part of a networked overall system. In conjunction with energy storage systems, intelligent control systems, and digital platforms, solar power can be used specifically when it is needed. For experts and decision-makers, the most relevant question is how photovoltaics can be integrated into existing energy and infrastructure systems. Issues such as grid stability, scalability, and cost-effectiveness are coming to the fore. Photovoltaics is thus evolving from a standalone technology to a central element of modern, flexible energy supply.
A photovoltaic system on the roof of a residential building is now one of the established solutions for permanently reducing electricity costs and contributing to climate protection and the environment. The amount of electricity generated is expressed in kWh and depends on factors such as module area, orientation, and location. The higher the direct self-consumption, the greater the positive impact of the system on running costs. Surplus electricity from the PV system can be fed into the public grid. Depending on the date of commissioning, a feed-in tariff is paid for this. For operators, this results in a balanced ratio of own consumption and grid feed-in, which offers both economic and ecological advantages per euro invested.
A photovoltaic solution is particularly efficient when it is part of a holistic energy concept. In combination with a heat pump, the self-generated electricity can be used directly for heating and hot water production. This significantly increases the share of self-consumption while replacing fossil fuels. In conjunction with solar thermal energy, different forms of energy can be used separately in a meaningful way: electricity from photovoltaics for electrical consumers and heat pumps, thermal energy for hot water or heating support. This combination increases supply security and improves the overall balance of a building – both in terms of climate protection and long-term operating costs.
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