MEMS Process Integration Engineer | Semicon | JIAW | ID: 686388

This role is situated within a leading company in the MEMS (Micro‑Electro‑Mechanical Systems) industry, renowned for its innovative technology solutions. Joining this team offers an opportunity to work with cutting‑edge processes and technologies in a dynamic environment that emphasizes professional growth and collaboration.

• Oversee MEMS process integration throughout the lifecycle from concept to mass production, ensuring robust manufacturing capabilities.
• Translate device designs into scalable workflows, focusing on manufacturability and innovative practices.
• Drive research and development on novel materials and integration methods to enhance MEMS microphone performance and cost‑effectiveness.
• Develop, optimize, and debug both front‑end and back‑end MEMS processes, balancing yield, reliability, and production efficiency.
• Collaborate with foundry teams to qualify and enhance critical process steps, including wafer bonding and lithography.
• Lead structured problem‑solving initiatives to address yield and reliability concerns.
• Interface with cross‑functional teams to ensure effective process integration across various stages.
• Facilitate new material selection and conduct experimental trials in partnership with internal and external stakeholders.
• Maintain thorough documentation including process flows and control plans, and assist in design reviews.
• Engage in technology roadmap discussions and contribute to early‑stage prototyping efforts.
• Manage process transfers between labs and factories to support smooth new product introduction and scalable manufacturing.
• Contribute to patent generation and technical publications related to MEMS innovations.

• Bachelor’s or Master’s degree in Electrical Engineering, Materials Science, Mechanical Engineering, Microelectronics, or a similar discipline.
• 1 to 5 years of relevant experience in MEMS processes, semiconductor development, or microfabrication R&D.
• Familiarity with MEMS inertial sensors or similar technologies, such as accelerometers and gyroscopes.
• Experience with MEMS processing techniques including DRIE, wafer bonding, and hermetic sealing.
• Proficient in cleanroom operations, metrology tools, and analytical techniques (e.g., SEM, AFM).
• Competency in conducting design‑of‑experiments and data analysis (familiarity with JMP or Python is an advantage).
• Strong communication skills are essential for collaboration.
• A proactive mindset and creativity are crucial for success in a fast‑paced R&D environment.