With increasing demand for personalized smart devices, the MEMS and sensor market is undergoing rapid transformation. MEMS sensors are the backbone of smart wearable devices, seamlessly integrating multiple functions to monitor and simplify our day-to-day activities. As applications in healthcare, environmental tracking, and AR/VR expand, the need for ultra-compact, energy-efficient, and intelligent sensors is more critical than ever.In an exclusive conversation with SEMI, Stefan Finkbeiner, CEO of Bosch Sensortec, shared his perspective on the dynamic landscape of MEMS sensor technology. From Bosch’s evolution to a solutions provider with a focus on sustainability and market-driven innovations, Finkbeiner offered a deep dive into how Bosch Sensortec is positioning itself at the forefront of the industry. “We have to think in terms of the end application and determine what the right hardware and software configuration should be in order to provide solutions with the greatest benefit and flexibility.”Further insights into the future of MEMS and sensor technology will be shared by Finkbeiner during his keynote at the SEMI MEMS Imaging Sensors Summit on November 14, 2024, in Munich, Germany. Registration is still open.SEMI: Welcome, Stefan, and thank you for sharing your insights on advanced sensor technologies. Let’s start with a personal question: What motivates and inspires you about working in sensor technology?Finkbeiner: Sensor technology is very diverse and has significant impacts on consumers. We take pride in prioritizing consumers’ needs and benefits. True to the Bosch motto, “Invented for life,” we are committed to making life better, easier and healthier. This is demonstrated in our sensing solutions, which provide valuable data for fitness tracking in smartwatches, enhance the audio experience in hearables, and enable real-time monitoring of air quality to help individuals make informed decisions for a healthier environment. I am fascinated by technology advancements that are enabling the scaling of sensors—and the processing power and intelligence packed into these increasingly compact devices. For instance, our latest acceleration sensors for hearables are the smallest in the world and are nearly invisible at just 1.2 x 0.8 x 0.55 mm³.We leverage innovative wafer level chip scale packaging (WLCSP) to achieve this reduced form factor. These compact, feature-rich, high-performance accelerometers are easier to integrate in the latest generation consumer products where size and functionality are critical requirements.SEMI: How has Bosch Sensortec’s approach evolved over the years and what is the company’s primary focus today? Finkbeiner: We began our success story a few years ago as a hardware supplier, with one of our first applications being the 'Portrait-Landscape' function in smartphones. Over time, we’ve evolved into one of the leading providers of MEMS sensors.Today, we no longer see ourselves purely as a sensor manufacturer, but as a technology solutions provider. Our focus has shifted to think in terms of the end application and determine what the right hardware and software configuration should be to provide solutions with the greatest benefit and flexibility.Achieving this requires significant software and artificial intelligence (AI) development. In essence, we are optimizing software through self-learning models. Hardware remains essential for optimizing power consumption, with most sensors integrating a controller alongside the ASIC to enable seamless software integration.This unique software and hardware configuration unlocks exciting possibilities and broadens our market reach. We see significant growth in head-mounted devices, and we are actively working on related acoustics solutions.SEMI: Looking ahead, what trends do you anticipate will have the most significant impact on the MEMS sensors market?Finkbeiner: We see several trends that will significantly impact the MEMS sensor market. First, there is growing demand for personal health monitoring in consumer and mobile electronics. Wearable devices, in particular, are becoming essential tools for individuals to track their health and fitness status. This trend requires MEMS sensors to become even more accurate, with solutions that include sophisticated software algorithms to ensure reliability, accuracy, and reproducibility. As a result, AI and machine learning (ML) technologies will play a crucial role in enhancing sensor performance.A second important trend is the continued miniaturization of MEMS sensors. To meet customer demands, sensors must integrate more functionality, including edge-processing capabilities. For example, what once may have been a simple accelerometer with a step-counting algorithm is now evolving into a 6-axis Inertial Measurement Unit (IMU) with an integrated microcontroller and advanced AI/ML software. A great example of this is in True Wireless Stereo (TWS) earphones, where the IMU not only tracks steps but also enables complex tasks like dead reckoning and supports 3D audio—all within the tight constraints of a small TWS earbud housing. Low power consumption, as always, is a critical factor for these mobile devices to meet CE (Conformité Européenne) standards.Finally, we believe that smart glasses, augmented reality (AR) and virtual reality (VR) devices are poised to become the “next big thing.” These devices require advanced image projection optics that offer excellent optical quality, low weight, and ease of use to ensure consumer adoption. We believe our MEMS-based LBS (Laser Beam Scanning) solution is ideal for these applications. Additionally, the successful adoption of smart glasses hinges on high-performance MEMS sensors that are compact, accurate, and power-efficient—critical requirements for all-day wearability and functionality.These trends underscore the need for MEMS technology to evolve, integrating greater functionality, precision, and efficiency to meet the demands of next-generation consumer devices.SEMI: What are some of the biggest challenges facing the MEMS sensors industry today, and how can companies overcome them?Finkbeiner: One key challenge is that the smartphone market—arguably the most attractive market for a variety of MEMS and MOEMS sensors—has become more or less saturated. To stay competitive, MEMS companies must innovate existing products while also developing new, differentiated sensors and actuators for next-generation mobile products.SEMI: How is Bosch Sensortec supporting sustainability initiatives?Finkbeiner: We are helping to mitigate climate change with our low carbon footprint solutions.Up to 20% of annual global carbon emissions are caused by forest fires. This is equivalent to carbon dioxide emitted by all the vehicles driven worldwide. Our sensors can detect forest fires before they develop into wildfires by measuring various gases such as carbon monoxide and hydrogen. In parallel, we are working with our production partners to reduce our carbon footprint over the coming years, while also replacing or minimizing the use of environmentally hazardous chemicals, such as PFAS.SEMI: What are you most excited about for the MEMS Imaging Sensors Summit, and how do you think it will impact the European semiconductor industry?Finkbeiner: The European semiconductor industry has deep expertise in MEMS and sensor technologies, positioning it to make a significant impact in markets such as consumer health, optical sensing, and AR displays. By continuing to focus on sustainable solutions, we can drive even greater impact for the broader industry and secure Europe’s leadership in these growth sectors.I look forward to collaborating with industry peers at the Summit to define next steps needed to advance Europe’s leadership. The MEMS Summit is an invaluable opportunity to collaborate and drive progress, and I warmly invite my colleagues to join us in shaping the future of the European semiconductor industry.Dr. Stefan Finkbeiner Dr. Stefan Finkbeiner has been CEO and General Manager at Bosch Sensortec GmbH since 2012. He was born in 1966 in Freudenstadt, Germany. Stefan Finkbeiner held various senior positions at Bosch including Director of Sensor Marketing, Director of Corporate Research in microsystems technology, and Vice President of Sensor Engineering. He looks back on almost 30 years in semiconductor industry working in different positions related to sensor research, development, manufacturing, and marketing. Due to his wide experience in semiconductor and sensor industry, Stefan Finkbeiner is a recognized guest in panel discussions and as keynote speaker. SEMI ContactSitong He / Communications Manager, SEMI EuropeEmail: [email protected]: +49 151 5546 2638
