Experts in the design of photovoltaic solar inverters

Solar Inverters

If you’re looking to have your own solar inverter, bigD takes care of the design and manufacturing so you don’t have to worry about anything.

Why bigD?

We offer innovative and quality solutions to make your company stand out in the industry.

Innovation

in the outcome and the process

We strive to innovate both in the outcome and the work process to achieve the best results.

Rigour

for achieving excellence

We pay attention to every detail in design. Everything is important, and nothing can be left to chance if we want to design unique experiences.

Collaboration

the path to innovation

We understand that collaboration is essential to tackle complex projects and achieve innovative solutions.

Care

for our clients and our team

Our projects and clients deserve maximum attention, respect, and care to generate an optimal experience.

The global solar panel market is worth over $180.4 billion.

When designing a solar inverter, bigD focuses on 12 key factors

1. Power Capacity

Select an inverter with the appropriate power capacity to handle the expected maximum load. It should efficiently convert the energy generated by the photovoltaic system.

2. Inverter Type

Choose the correct type of inverter based on the solar system (e.g., central inverter, string inverters, microinverters), considering the benefits and challenges of each type.

3. Efficiency

Look for an inverter with high efficiency in converting solar energy to maximize the amount of usable electricity generated by the system.

4. Maximum Power Point Tracking (MPPT) Technology

Ensure that the inverter has MPPT technology to optimize the capture of solar energy under different irradiation and temperature conditions.

5. Input and Output Voltage

The inverter should be compatible with the input voltage of the solar panels and the required output voltage for the property's electrical system.

6. Grid Connection

If a grid connection is planned, the inverter must comply with local requirements and regulations to ensure a safe and legal connection.

7. Integration with Batteries

If an energy storage system is planned, ensure that the inverter is compatible with batteries and battery management systems (BMS).

8. Protections and Safety

Verify that the inverter has protection functions against overvoltage, overloads, short circuits, and safety features for disconnection in case of failure.

9. Monitoring and Control

Opt for an inverter that offers remote monitoring and control options to monitor system performance in real time.

10. Environmental Conditions

Consider the inverter's location and its ability to operate in different weather conditions, including extreme temperatures and humidity.

11. Electromagnetic Compatibility (EMC)

Ensure that the inverter complies with electromagnetic compatibility regulations to prevent interference with other electronic equipment.

12. Warranty and Support

Evaluate the warranties offered by the manufacturer and the availability of technical support in case of issues or inquiries.

By considering these key factors in the design of a solar inverter, optimal performance and successful integration of the photovoltaic system with the electrical grid and other components can be ensured.