You face challenges like leading the development of schematics and layouts for automotive control units in optomechanical systems and PCBs in light modules understanding and applying knowledge of LEDs, LED drivers, LDOs, DC/DC converters, PMICs, high-speed communication, and automotive SOCs in design and development processes ensuring compliance with specifications and standards specific to the body electronics and lighting domain, such as ISO 26262, AEC-Q100, and automotive communication protocols collaborating with cross-functional teams to define requirements and specifications for control units and optomechanical systems performing design reviews and providing technical guidance to junior engineers working closely with suppliers and manufacturers to ensure the availability of quality components for production developing test strategies and validation plans for control units and optomechanical systems, including environmental testing, functional testing, end-of-line testing, and EMC/EMI testing analyzing and troubleshooting electrical issues, ensuring timely resolutions and continuous improvement You inspire us by holding a Bachelor’s degree in electrical engineering or a related field (master’s degree preferred) having experience in designing optomechanical systems for automotive applications being familiar with optical design principles, including light distribution, beam patterns, and polarization possessing knowledge of advanced lighting technologies, such as Adaptive Front Lighting Systems (AFS) and Matrix LED systems understanding thermal management techniques in lighting systems applying Design for Manufacturing (DFM) and Design for Test (DFT) principles having working knowledge of automotive safety standards and regulations being knowledgeable about FPD-Link and serializer and deserializer for FPD-Link bringing a minimum of 15 years of experience in electrical engineering with expertise in body electronics, lighting, and/or infotainment demonstrating strong understanding of electrical schematics, layouts, PCB, and FPC design principles being proficient in utilizing design tools such as Altium Designer or Cadence Allegro having in-depth knowledge of LEDs, LED drivers, LDOs, DC/DC converters, PMICs, automotive SOCs, high-speed communication, and micro displays being familiar with automotive specifications and standards related to body electronics and lighting, including ISO 26262 and AEC-Q100 having experience with automotive communication protocols such as CAN, LIN, and Ethernet proving experience in developing test plans and conducting validation tests for electrical components and systems showcasing strong analytical and problem-solving skills with the ability to troubleshoot complex electrical issues exhibiting excellent communication skills to collaborate effectively with cross-functional teams and external suppliers Better Living not only in Engineering - you can expect diverse career paths and individual development perspectives in a future-oriented company mentoring programs, feedback discussions, and further training modern equipped offices flexible working models and mobile work depending on the project situation attractive additional benefits such as daycare subsidies, company pension scheme, company health insurance employee offers such as corporate fitness, JobRad, PC leasing, shopping discounts, and team events