Renewable Energy Power Conversion Solution

Application

Description

Complete power conversion solution for solar inverters, wind turbines, and energy storage systems using Starpower high-efficiency power modules.

Core Advantages

SiC Technology SiC MOSFET modules enable higher switching frequencies for compact designs.
Proven Reliability Field-proven in MW-scale installations worldwide.
Local Support BeiLuo FAE team provides rapid technical support.
Cost Effective Competitive pricing without compromising quality.

Recommended Bill of Materials (BOM)

Item Part Number Description Quantity Datasheet
1 GDS200M12B2 200A 1200V SiC MOSFET Module 1 📄 Download
2 GD600HFT120C3S 600A 1200V IGBT Module 1 📄 Download
3 GDR400A12 400A 1200V Rectifier Module 1 📄 Download

Applications

Solar Inverters
Wind Turbine Converters
Energy Storage Systems
Grid-Tie Inverters
Microgrids

Technical Specifications

Input Voltage
Up to 1500V DC
Output Power
Up to 250kW
Efficiency
Up to 98.5%
Switching Frequency
Up to 50kHz (IGBT), 100kHz (SiC)
Operating Temp
-40°C to +175°C
Protection
OCP, OTP, SCP

Customer Success Stories

Solar Inverter Manufacturer

Renewable Energy | 150kW String Inverter

Challenge

Needed high-efficiency power modules for next-gen inverter

Solution

Implemented SiC modules for high-frequency operation

Results

FAE Expert Insights

F

FAE Expert

Field Application Engineer

Professional Insights

Renewable energy applications require careful attention to efficiency and thermal management. Through numerous solar and wind converter implementations, I have learned that SiC technology can provide significant advantages in efficiency and power density. Key considerations include switching frequency selection, thermal design, and EMI filtering.

Ready to Implement This Solution?

Contact our FAE team for design support and quotes

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Frequently Asked Questions

What are the advantages of SiC over IGBT in solar inverters?

SiC MOSFETs offer lower switching losses, enabling higher switching frequencies for smaller magnetics and filters. They also have lower conduction losses at light loads, improving partial-load efficiency. The higher switching frequency capability allows for more compact designs with smaller passive components.

Use SiC for high-frequency designs where efficiency and size are critical.

How do I select the right module for my inverter design?

Module selection depends on: 1) Power rating and voltage level, 2) Switching frequency requirements, 3) Thermal constraints, 4) Cost targets. For string inverters up to 50kHz, IGBT modules are typically sufficient. For higher frequencies or maximum efficiency, consider SiC modules.

Match module technology to your switching frequency and efficiency requirements.

What thermal design considerations are important?

Critical thermal considerations include: 1) Heatsink sizing for worst-case conditions, 2) Thermal interface material selection, 3) Airflow and cooling system design, 4) Temperature monitoring and protection. Always design with adequate thermal margin to ensure long-term reliability.

Design for worst-case thermal conditions with adequate safety margins.