Quick Takeaways
- LYNRED Automotive Thermal Imaging Sensors capacity doubles to support rising OEM demand across ADAS and safety applications.
- LYNRED Automotive Thermal Imaging Sensors expansion strengthens Europe’s position in high-volume, automotive-grade infrared manufacturing.
On January 5, LYNRED confirmed that it has upgraded its manufacturing site and expanded its clean-room footprint from 4,000 to 8,000 square meters to support accelerating demand from the automotive sector. The expansion is part of its CAMPUS investment program, representing more than EUR 100 million dedicated to advanced sensor production.
LYNRED Automotive Thermal Imaging Sensors strengthen European leadership
The CAMPUS program establishes a strategically important industrial base for large-scale automotive sensor manufacturing. By significantly increasing clean-room capacity, LYNRED can deliver higher volumes of automotive-qualified thermal imaging devices while maintaining strict quality and reliability requirements expected by vehicle manufacturers.
As Europe’s leading specialist covering both the design and manufacturing of thermal imaging sensors, LYNRED positions itself as a fully integrated supplier for the automotive industry. Its design-to-cost approach enables carmakers to deploy infrared sensing technologies at scale while controlling system costs.
The company’s production model is tailored for high-volume automotive programs, combining industrialized processes with advanced sensor engineering. This allows LYNRED to meet the stringent durability, traceability, and performance standards required for modern vehicle safety and driver-assistance systems.
Automotive-grade production aligned with global quality standards
LYNRED has also achieved a major regulatory milestone for its automotive operations. In November 2025, the company received a letter of conformance under the IATF 16949 automotive certification framework, validating that its manufacturing processes comply with internationally recognized automotive quality management requirements.
This certification confirms that LYNRED Automotive Thermal Imaging Sensors are produced within a controlled, repeatable, and automotive-qualified environment, providing automakers and Tier-1 suppliers with confidence in long-term supply, quality consistency, and system reliability.
LYNRED Automotive Thermal Imaging Sensors strengthen European leadership
The CAMPUS program establishes a strategically important industrial base for large-scale automotive sensor manufacturing. By significantly increasing clean-room capacity, LYNRED can deliver higher volumes of automotive-qualified thermal imaging devices while maintaining strict quality and reliability requirements expected by vehicle manufacturers.
As Europe’s leading specialist covering both the design and manufacturing of thermal imaging sensors, LYNRED positions itself as a fully integrated supplier for the automotive industry. Its design-to-cost approach enables carmakers to deploy infrared sensing technologies at scale while controlling system costs.
The company’s production model is tailored for high-volume automotive programs, combining industrialized processes with advanced sensor engineering. This allows LYNRED to meet the stringent durability, traceability, and performance standards required for modern vehicle safety and driver-assistance systems.
Automotive-grade production aligned with global quality standards
LYNRED has also achieved a major regulatory milestone for its automotive operations. In November 2025, the company received a letter of conformance under the IATF 16949 automotive certification framework, validating that its manufacturing processes comply with internationally recognized automotive quality management requirements.
This certification confirms that LYNRED Automotive Thermal Imaging Sensors are produced within a controlled, repeatable, and automotive-qualified environment, providing automakers and Tier-1 suppliers with confidence in long-term supply, quality consistency, and system reliability.
Company Press Release
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