With the rapid proliferation of electronics applications with more powerful embedded intelligence, demand for smarter, more efficient sensors is increasing to help devices connect to the world around them. As the semiconductor industry drives the future of connected technologies and sustainable solutions, it faces challenges in energy consumption, resource management, and ensuring data security.SEMI spoke with Simone Ferri, Vice President and General Manager at STMicroelectronics (ST), about current trends and challenges in the Micro-electromechanical Systems (MEMS) and imaging sensors market and how ST is driving innovation in this rapidly evolving industry. Ferri shared insights ahead of his keynote presentation at the SEMI MEMS Imaging Sensors Summit on November 14, 2024, in Munich. Registration is open.SEMI: Welcome, Simone, and thank you for sharing your perspective on the dynamics and trends for today’s MEMS and imaging sensors. To start, how would you describe the current market dynamics for these technologies, and what key factors are influencing these dynamics? Ferri: Right now, the MEMS and imaging sensors market is primarily driven by applications such as automotive electronics, consumer medical devices, AI-powered devices, and intelligent wake-up systems.According to Omdia, the MEMS market is projected to reach approximately $11 billion by 2027, with a CAGR of 2.8% from 2022 and 2027. Currently, automotive applications account for 50% of this market, with industrial at 15% and consumer at 35%. Notably, the automotive sector is the fastest growing, with a 5.4% CAGR, driven by the increasing use of inertial measurement units (IMUs) and microphones.In addition, Yole Group estimates that the imaging market, including optical sensing, will grow at a 4.7% CAGR between 2023 and 2029. Although mobile phone applications remain the primary driver of Complementary Metal-Oxide-Semiconductor (CMOS) image sensors (CIS) volumes, other sectors, including consumer electronics, automotive, and security imaging, are also contributing to the growth.Long-term forecasts for smartphone sales have been trending downwards, but mobile phones still remain a major driver of applications, innovation, and overall volume in the imaging market. Notably, the automotive imaging sector is one of the fastest growing markets and is expected to drive additional demand for CIS.Factors that influence the current market include global economic conditions, regulatory changes, geopolitical factors, technological innovations, and the emergence of new applications and use cases.SEMI: Can you elaborate on the growth strategies that STMicroelectronics is adopting to stay competitive in the MEMS and imaging sensors market? Ferri: ST has played a pivotal role in both the MEMS and imaging sensors markets for over two decades with its proprietary silicon technologies. We fully leverage our Integrated Device Manufacturer (IDM) business model, which allows us to support our customers through integrated capabilities for both design and manufacturing.To remain competitive, we are exploring new markets for MEMS sensors, particularly in digital healthcare with biosensors, where wearable devices are expected to exceed 500 million units per year by 2027.We’re focusing on the growing demand for automotive sensors such as accelerometers, Inertial Measurement Units (IMU), and pressure sensors, particularly with the rise of electric vehicles. We are enhancing the integration and synergy between automotive and personal devices. For example, we are combining high-g and low-g accelerometers within a single IMU, enabling accurate fall and crash detection, along with precise orientation and wake-up functionality.AI is another one of our priorities. In today's digitalized world, AI enables real-time, contextual understanding and the ability to make decisions that optimize and reduce the power consumption of the final device. Sensors are no longer merely for data collection. Thanks to AI, sensors can interact with their environment and significantly contribute to innovation and sustainability.We are also prioritizing low power consumption. Our MEMS technology operates in low-power mode with almost negligible energy use, activating only when necessary, without waking up the system to understand its environment or to be reconfigured.In addition, we’ve seen optical sensing continue to grow year over year. Optical sensing now offers features such as 3D capture, low-power and low-footprint computer vision, Near InfraRed (NIR) and even Short Wavelength InfraRed (SWIR).We are accelerating and leveraging our IDM model and broadband semiconductor supplier positioning to propose wider system offerings based on the array of sensors and microprocessors that ST develops. As the world shifts toward widespread use of sensors and data collection, the demand for secure sensing technologies is growing, extending beyond mobile and PC applications to spatial computing and AR/VR environments. For example, if we are talking about recognizing specific persons in an AR environment, we don't want the data related to these persons to be sent to the cloud before a decision is made about whether they are supposed to be there or not, as such information can be intercepted. We want all the data to be managed at sensor level and only a warning of rejection or acceptance to be transferred outside our secure sensor. SEMI: What are some of the latest technological innovations in MEMS and imaging sensors that are shaping the industry? Ferri: In MEMS, we're seeing significant advancements in three key areas:- In-sensor AI is integrating technologies in the sensors such as machine learning core (MLC), adaptive self-configuration (ASC), and intelligent sensor processing units (ISPU).- Open sensors are designed to interface seamlessly with other sensors, allowing third parties to benefit from on-sensor processing innovations, while building an ecosystem to create joint value with customers.- Accurate sensors are providing high-precision data, enabling better decision-making and smoother, more natural user interactions. These sensors also reduce factory calibration time and resources, leading to overall lower energy consumption. Because of their accuracy, onboard MLC, and ASC, the sensors can also reconfigure themselves without interaction with the processor, thus guaranteeing the proper accuracy at lower power consumption, at any time, under any condition.In the imaging sensor market, key trends include:- Higher Pixel performance is leading to improved signal-to-noise ratio (SNR), low light performance, better quantum efficiency (QE) and lower noise performance. Despite post processing, pixel performance remains the key factor as SNR performance must remain high while the pixel shrink roadmap advances.- Embedded Intelligence is providing local processing for local decision making, enhanced security, advanced image sensor processing (ISP) for improved image quality, and fusing sensor functions to deliver a better user-experience.- "Always on" capabilities are supporting mass sensorization and deployment of optical sensing solutions everywhere through specific low-power design techniques, process development, and overall system architecture optimization.SEMI: Looking toward the future, what trends do you anticipate will have the most significant impact on the MEMS and imaging sensors market? Ferri: Some macrotrends for sensors include:Electrification: Certain consumer and industrial applications are now being adopted in the automotive sector, especially with the rise of electric vehicles creating new opportunities for innovation and for new players to enter the market. As example, the predictive maintenance that has been developed for industrial electric motors is ported 1:1 to electric vehicles.AI: Regarding data transmission, distributed architecture will push AI towards edge computing, increasingly supported by advancements in 6G and foldable technologies. Additionally, as AI becomes more integrated, the maintenance and security for AI will require more attention.Smart home, buildings, and cities: As cities grow, the demand for smart homes and buildings rises, requiring more sensors to manage energy, security, and urban infrastructure efficiently. Over 55% of the global population and 70% of the EU population reside in cities. Urban areas generate more than 80% of the world’s GDP, and by 2030, it's anticipated that 68% of the global population will be urban dwellers, pointing to the growing need for smart cities.Aging population and digital health: The integration of biosensors with MEMS technology will be crucial for addressing the needs of an aging population.Overall, the use of image sensors for environmental sensing is steadily increasing. This is a major focus for ST, particularly in 3D sensing. New use cases, such as presence detection, are enhancing security and reducing power consumption due to efficient data processing. Additionally, the average number of cameras in smartphones, automobiles, and even in devices like robots and vacuum cleaners, continues to grow.SEMI: What has STMicroelectronics been working on, and what are your plans for the upcoming years? Ferri: To date, we have shipped over 23 billion MEMS sensors. Still, we remain committed to continuously improving our products and enhancing our MEMS technology in terms of affordability, miniaturization, performance, and novelty. We are striving to set the stage for a future defined by innovation and excellence with:Evolution of our current product portfolio by investing in lower power consumption, lower supply voltage, and additional and more sophisticated in-sensor AI for an effective distributed AI conceptNew sensors for presence detection, like infrared (IR) sensors, and health-focused sensors such as biosensors.MEMS sensors are also becoming increasingly accurate, open towards different ecosystems of technologies, and so intelligent that they can self-configure and reduce power consumption thanks to optimal data processing. These attributes allow us to provide meaningful and sustainable solutions across sectors such as automotive, industrial, infrastructure, and personal electronics, enabling us to improve energy efficiency, reduce waste, and support sustainable practices for a greener planet.For the past 10 years, ST has focused on depth sensing across multiple use cases. Today, ST is the number one in the world for time-of-flight solutions through our ST FlightSense product family. More recently, we launched our global shutter image sensors family, ST BrightSense, to address markets like personal electronics, automotive, industrial, communications equipment, and computers and peripherals.More specifically on the automotive side, we have the portfolio, customers, and customer program awards to lead the driver and occupancy monitoring market. We continue to secure design wins from our growing customer base while we expand our product portfolio and broaden our customer and application footprints.SEMI: What are some of the biggest challenges facing the MEMS and imaging sensors industry today, and how is ST addressing them? Ferri: The MEMS and imaging sensors industry faces several challenges, but with strategic planning and innovative solutions, companies can overcome these obstacles by focusing on the following:Integration: With our biosensors, we are doing more with less space. For example, in a standard accelerometer, we integrate an analog front end for electrocardiogram (ECG) analysis, enhancing functionality without increasing the device footprint.Performance enhancement: Ensuring high performance and reliability in various environmental conditions is crucial, especially in automotive and healthcare applications. To meet these demands, we deploy comprehensive testing protocols to ensure our sensors meet performance and reliability standards.Power efficiency: Reducing power consumption is vital, particularly for battery-operated devices like smartphones and IoT devices. We are developing low-power architectures to address this need.Data security: With the growing use of imaging sensors in surveillance and personal devices, data security and privacy have become paramount. Our solutions include encryption for data transmission and storage, as well as robust access control mechanisms to prevent unauthorized access to sensor data.Additionally, supply chain issues remain a significant challenge today. We believe our strategy and capacity as an IDM, combined with our strong innovation capabilities, give us a competitive edge in supply chain management.SEMI: What are you most looking forward to at the MEMS Imaging Sensors Summit, and what does it mean for the European semiconductor industry? Ferri: I look forward to the Summit as a valuable opportunity to connect with industry peers, share insights, and explore new collaborations. I encourage my peers to attend, as it’s a unique platform to collectively shape the future of our industry and sustain Europe’s leadership in semiconductor innovation. About Simone FerriSimone Ferri is Vice President of APMS Group and General Manager for MEMS sub-group at STMicroelectronics. Ferri began his career in STMicroelectronics in 1999 as an R D engineer before becoming a digital designer for the company’s audio division, leading into product management after 5 years. In 2014, ST entrusted Ferri with MEMS consumer sensors followed by global MEMS-sensor related Marketing and Application activities across all markets and segments, leading into his current role. Ferri graduated with a degree in microelectronics from Politecnico di Milano (Polytechnic of Milan), where he also completed his MBA. Sitong He is Marketing and Communications Manager at SEMI Europe.
