Full Converter Low Voltage Solutions

A complete optimized system — or state-of-the-art components.

Your choice. Same engineering excellence.

As wind turbines move beyond 10 MW, OEMs face increasing challenges in system integration, performance, and long-term reliability. Ingeteam supports turbine development with flexible, validated electrical solutions designed to meet these evolving requirements.

Electrical system flexibility from day one

Electrical system decisions play a critical role early in wind turbine design. Depending on platform strategy and development stage, OEMs may require a fully optimized electrical system or prefer to integrate individual best-in-class components into their own architecture.

Ingeteam supports both approaches:

A fully optimized electrical system combining generator and converter technologies
State-of-the-art converters and generators available as standalone solutions

This flexibility allows OEMs to balance performance, integration, and future platform evolution without compromise.

Our Approach

Technical knowledge and support

Deep expertise in power electronics, generators, and electrical system integration, supporting OEMs from early design decisions through validation and long-term operation.

Design flexibility

Solutions designed to adapt to different turbine architectures, platform strategies, and development roadmaps, giving OEMs the freedom to choose system-level optimization or standalone components.

Quality performance

Validated designs focused on reliability, efficiency, and consistent performance over the full turbine lifecycle, even in demanding operating environments.

LV full converters designed for modern wind turbines

LV Full Converters

Service-friendly modular design that simplifies maintenance and reduces operational effort over the turbine lifecycle
State-of-the-art power electronic modules supporting high performance and readiness for future technology evolution
Reliable, validated design proven through extensive electrical, mechanical, and environmental testing
High energy density enabling compact integration within increasingly constrained nacelle layouts
Cybersecurity readiness integrated into control electronics to support secure and digitalized wind assets

Flexible generator solutions for different turbine concepts

Indar Generators

Flexible generator technologies, including PMG and squirrel cage options, adaptable to different turbine architectures
Designed for seamless electrical system integration, including compatibility with converter-based platforms
Robust and reliable design suitable for harsh wind environments and long operating lifetimes
Engineering collaboration and development flexibility to support OEM-specific requirements
European-quality manufacturing

Highlights

Flexibility for complete turbine integration

whether as a fully optimized generator–converter system or as standalone components

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State-of-the-art power modules

designed to support high performance and future technology evolution

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Fully certified designs

reducing integration and certification risk for both converters and generators

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High energy density

enabling compact electrical system integration in modern wind turbine nacelles

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Cybersecurity-compliant designs

supporting secure, connected wind turbine platforms

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VALIDATION, CERTIFICATION & TESTING

Reducing risk through validation and certification

Reliable electrical systems require more than compliance with standards. They depend on a structured validation approach that combines simulation, testing, and verification across all relevant operating conditions.

Ingeteam applies a comprehensive validation process throughout the development of converters and generators, including simulation and laboratory testing to assess electrical, mechanical, and thermal performance. This approach supports certification readiness, reduces technical and operational risk, and helps ensure consistent, long-term performance in demanding wind environments.

Cybersecurity considerations are integrated into system design and control architectures as part of this validation framework, supporting secure and compliant digitalized wind turbine platforms.

Technical insights

Whitepaper

Tailor-made electrical system design for next-generation wind turbines

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Upcoming events

4-6 March, 2026

Orlando (FL), USA

ACP OMS

Meet Us There!

21-23 April, 2026

Madrid, Spain, Stand 10-E100

WindEurope Annual Event

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1-4 June, 2026

Houston (TX), USA

ACP CLEANPOWER

Schedule a meeting now!

22-25 September, 2026

Hamburg, Germany, Hall A4 - Stand 305

WindEnergy Hamburg

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Frequently Asked Questions

When should electrical system decisions be made during turbine development?

Electrical system decisions increasingly need to be considered early in turbine design. Choices related to converters, generators, and system architecture influence integration, layout, scalability, and long-term performance. Addressing these aspects early helps OEMs avoid design constraints later and supports smoother platform evolution.

How can high-power turbines meet space and integration constraints inside the nacelle?

As turbine power increases, space constraints become more challenging. High energy density, compact architectures, and modular designs help enable efficient integration without compromising serviceability or performance. Electrical systems designed with these principles support modern nacelle layouts and simplify long-term operation.

How do electrical systems remain adaptable to future turbine evolution?

Turbine platforms are expected to evolve over time, often increasing in power or adapting to new grid and market requirements. Designing electrical systems with scalability and flexibility in mind helps OEMs adapt without major redesigns. Modular architectures and flexible generator and converter solutions support this long-term adaptability.

Do we need to source the generator and converter as a single system?

No. OEMs have different strategies and levels of internal capability. Ingeteam offers the flexibility to deploy a fully optimized electrical system combining generator and converter technologies, or to integrate state-of-the-art converters and generators as standalone components. Both approaches are fully supported, allowing OEMs to choose what best fits their platform.

How do you reduce technical and operational risk in electrical systems?

Reducing risk requires more than meeting standards. A combination of simulation, testing, and validation across electrical, mechanical, and environmental conditions helps identify issues early and build confidence in long-term performance. This approach supports reliability, certification readiness, and predictable operation in demanding wind environments.

How is cybersecurity addressed in modern wind turbine electrical systems?

As wind turbines become more connected, cybersecurity is an integral part of electrical system design. Addressing cybersecurity at the control and system level helps protect assets, support compliance, and enable secure digitalization throughout the turbine lifecycle.

About us

We are Ingeteam, a global technology company with more than 80 years of experience developing electrical solutions to support the transition towards a more sustainable energy system. With a team of over 3,500 people across 15 countries, Ingeteam specializes in power electronics, electrical machines, and energy conversion technologies.

In the wind energy sector, Ingeteam is a leading independent supplier with more than 80 GW of installed capacity worldwide, offering converters, generators, control systems, and associated services to support wind turbine platforms throughout their lifecycle.

Performance and Flexibility in Motion

A complete optimized system — or state-of-the-art components.