Solar Power Plant 5.25MWp

Solar Panels

Panels and Structures

Inverters

Sunny Highpower

Diagramms

Electrical Schematics

Solar Panels

Structure

Sunny Highpower PEAK3

Already prepared for the future.

Ready for ennexOS.

★★★★★

1500 VCC, 180 kW Compact design

Simple implementation and operation of large-scale photovoltaic plants

PEAK3 is characterized by full power, even under extreme conditions. Thanks to its compact design, the inverter offers maximum power density, i.e. optimum efficiency at low weight. Advantages: more economical transport and easier installation. In combination with the project-specific DC Combiner Boxes, the PV system can be oversized by up to 200 %. The system is rounded off by the Data Manager, which makes it possible to meet all grid operator requirements, among other things.

Maximum safety and reliability

The PEAK3 inverter focuses on the essentials: delivering the highest possible yield and maximum plant availability. All functions and components have been adapted to minimize potential sources of error and increase efficiency with minimum weight. In addition, proven technologies such as the SMA OptiCool active cooling system ensure the inverter's long service life.

Flexible and easily expandable plant design

The PEAK3 system solution combines the advantages of a decentralized plant design with the benefits of the central inverter concept. Thanks to the DC Combiner Boxes, large-scale PV systems can be efficiently planned and easily expanded even on heterogeneous sites. The modular concept makes it possible to expand projects not only in terms of power, but also in terms of functionality. This provides maximum flexibility in plant planning.

Wiring Diagram of Our Solar Plant

“Powering the future with solar energy: sustainable, cost-effective and smart.”

Our solar plant is designed to transform the sun's energy into electricity efficiently and safely. The process begins when solar radiation strikes the photovoltaic modules, generating direct current (DC).

🔹 Power Conversion:

The modules are connected in series (strings), which are then grouped into DC Combination Boxes (SCB). These boxes concentrate the generated power and send it to the inverters, where the direct current (DC) is converted into alternating current (AC).

🔹 Power Distribution:

Once converted, the electricity passes to the Transformer Stations (TC), where the voltage is raised for efficient transmission. The energy then goes to the Switching Center (SC), which organizes and channels the electricity to the Point of Interconnection (POI) with the electrical grid.

🔹 Safety and Control:

The plant has protection systems, such as circuit breakers and real-time monitoring, to ensure a safe and reliable supply.

Thanks to this optimized design, our solar plant ensures greater energy efficiency, sustainability and cost-effectiveness, allowing you to take full advantage of the power of the sun. 🌞⚡

Solar Power Plant 5.25MWp

🔌 1. Inverter
⚡ 2. Transformer
🔵 3. AC lines
🔴 4. DC lines, combiner boxes and control system
📡 5. Monitoring system
☀️ 6. Photovoltaic modules
⚡ 7. Overhead power line