Solar Photovoltaic systems

Solar / photovoltaic systems

 

Solar systems

 

Solar (Photovoltaic) current systems are an innovative solution for producing electricity by using solar energy. They represent a reliable and environmentally friendly source of energy that has many advantages. They consist of solar panels that convert sunlight into electrical current. This process is called the photovoltaic effect and is the basis for the functioning of solar systems. One of the great advantages of photovoltaic systems is their environmental friendliness and independence from the electricity grid. They do not produce harmful emissions and do not pollute the environment. Nowadays, when the problems of climate change are increasing, photovoltaic systems are an indispensable means of producing clean or green energy.

Solar (Photo

Photovoltaics - independence and green

 

Solar power systems are extremely efficient if natural conditions provide the necessary conditions clear warm days with great functionality and strong sunlight. It is a perfect solution to combat climate change and respect natural resources. Also, they are quiet and do not cause noise pollution, which is suitable for all environments.

These electricity generation systems with a long-term investment. Although the chosen installation may be priced above acceptable norms, solar panels have a long life and low maintenance costs. They can significantly reduce energy bills and guarantee independence from electricity price fluctuations and pay off over time. Photovoltaic systems are also very flexible and can be integrated into various architectural solutions. They can be added on the roof, walls or other surfaces. This makes them suitable for all types of buildings, whether residential, public or industrial. Also an important feature is that they are mobile and can be placed in different places and power a large number of electrical appliances without the need for wiring from a central power supply or substation

 

Solar inverters

 

Photovoltaic inverters are an important part of the solar energy system. They are an important component for converting the direct current that is produced by the solar panels into grid-interacting alternating current energy. These inverters are essential because solar panels create direct current that cannot be used directly from the grid. Solar inverters are used as a stabilizer and transformer to convert this direct current into grid-interacting alternating current that can be used for household and business electrical needs. Technological advances in solar energy have led to more efficient and reliable solar inverters. They are equipped with intelligent functions that allow the system to optimize energy production and control the efficiency of the solar panels.

 

Control, safety, storage

 

It is important to note that solar inverters not only convert direct current into grid-interacting alternating current, but also perform other functions such as controlling the voltage and frequency of the generated current, as well as providing overvoltage and short circuit protection. Solar inverters are also important for monitoring the energy production of solar panels. They provide information on energy production as well as system efficiency. This allows users to monitor and optimize energy production from solar panels. This helps and creates conditions for users to organize the process of saving the generated energy in storage batteries that can be used when the conditions are unfavorable - winter, cloudy and cold days or other extreme conditions.

 

Cables for solar energy

 

Solar energy is emerging as a sustainable and efficient alternative to traditional energy sources. As the demand for renewable energy continues to grow, the importance of reliable and efficient cables for solar power systems cannot be overstated. These cables play a crucial role in transmitting the energy generated by solar panels to homes, businesses and power grids. One of the key factors to consider when choosing solar power cables is their durability. Solar panels are usually installed outdoors where they are exposed to various weather conditions. Therefore, cables must be able to withstand extreme temperatures, UV radiation, moisture and other environmental factors. In addition, they must be corrosion resistant and have a long life to ensure the longevity of the solar power system.

 

Cables should have low resistance to minimize power loss during transmission. This is particularly important for long-distance transmission, where any energy loss can significantly affect the overall system efficiency. High-quality cables with low resistance ensure that the maximum amount of energy generated by the solar panels reaches its destination. Safety is paramount when working with solar energy systems and the cables used must meet strict safety standards. They must be designed to handle the high voltages associated with solar power without compromising the safety of people or property. In addition, the cables must have adequate insulation to prevent electric shocks and short circuits. By minimizing energy losses, solar cables contribute to the overall efficiency of the solar energy system, increasing the economic viability of solar energy installations. In addition, solar cables are specially manufactured to handle DC current flow with a voltage of up to 1000~1500 VDC, which is the typical output of solar panels.

 

What does VIKVIAT online store offer?

 

We offer solar panels, inverters, batteries and controllers to build complete solar photovoltaic systems. The solar panels we offer are of different unit power ranging from 5W to 175W. The systems built from solar panels are of the open type - they allow for serial and parallel connection of the panels and, accordingly, an increase in the generated power. The controllers that are used with the solar panels and the batteries connected for their normal operation are available with a nominal voltage of 12VDC or 24VDC.

They are particularly suitable for building solar energy systems in areas that are not connected to power grids:

 

• remote and hard-to-reach places in the mountains;
• remote and hard-to-reach places on the sea;
• spotlights or other consumers with independent power supply
• villas;
• parks;
• alleys;