Sensors: the trailblazers of digitalization
Smartphones as the growth drivers of the sensor market
Reliable driver-assistance systems based on sensor fusion
Smart sensors at the electronica Embedded Platforms Conference
Sensors are the drilling rigs of the information society because they extract the raw material called data. No matter whether you are talking about smart cities, smart energy, smart homes, smart health and smart factories—you will always find sensors hidden beneath the term “smart.” And these sensors are becoming increasingly “smart” themselves by taking on the jobs of signal preparation and processing to go along with their normal measurement-recording responsibilities.
The expectations being placed on this growth sector remain high. Analysts at Market Watch expect the global sensor market to double in coming years, jumping from $80 billion in 2021 to $161 billion in 2030. The members of the Association for Sensors and Measurement reported that revenues grew by 20 percent in 2021 year on year. One distinctive aspect of this industry is its high level of innovation intensity. About 11 percent of revenues flow into research and development—the highest level in Germany.
Smartphones fuel the sensor market
Smartphones remain one of the biggest growth drivers in the sensor market. About 1.35 billion smartphones were sold around the world in 2021, according to the online German platform Statista. The high-end versions being sold today come with up to 14 sensors packed into them. Camera quality remains the most crucial unique selling proposition. The Xiaomi 12 Pro is equipped with the new 1-inch camera sensor made by Sony, a feature that vastly enhances the brilliance of nighttime photos. Samsung’s 200-megapixel sensor with the world’s smallest pixels offers an unbelievable level of 14-bit color depth (4 trillion colors). In addition to image sensors, you will probably find MEMS (micro-electro-mechanical systems) sensors made by Bosch Sensortec tucked into smartphones. They facilitate the rotation of the display, orientation in virtual-reality applications, navigation and many other actions.
Sensors used in automotive and medical technology
The history of MEMS sensors began long before they became indispensable components in every smartphone and completely new classes of devices like fitness trackers, drones, virtual-reality headsets, smartwatches and smart sensor nodes for the Internet of Things (IoT) had come into being. They initially played key roles in such automotive applications as airbags and electronic stability control (ESP). Today’s cars are equipped with more than 50 of these minute sensors, including those made by such electronica exhibitors as Analog Devices, Bosch, Hamamatsu, Infineon, Murata, Panasonic and STMicroelectronics.
Added to the mix are radars, lidar, ultrasound and “simple” cameras—it is only the interplay created by sensor fusion that enables complex driver-assistance systems extending all the way to automated driving systems (ADAS) to create a sufficiently detailed overview of the entire environment. The interior is “filmed” with the help of such things as the Icarus 3D sensor system made by Osram. It monitors the driver, noticing if he or she happens to doze off for a second or shows advanced signs of sleepiness.
The thermal infrared sensors (thermopiles) made by Excelitas provide another form of contactless monitoring. They are used in ear and forehead thermometers to produce exceptionally precise measurements. Disposal sensors are increasingly being used in certain medical procedures as a low-cost alternative and a way to prevent infections in hospitals. The Thermometrics single-use sensor made by Amphenol Advanced Sensors continuously measures the skin temperature of newborns in incubators. In addition, Sensirion provides the makers of ventilators with MEMS-based disposal liquid-flow sensors.
Sensors for industrial applications
Manufacturers in the heterogeneous market of industrial-grade sensors have little to do with the high batch numbers seen in the consumer and automotive industries. This fact of life drives up development and production costs and, thus, the prices of sensor systems. Nonetheless, a study conducted by Michaela Rothhöft of the South Westphalia University of Applied Sciences and the German Mechanical Engineering Industry Association (VDMA) found that mechanical engineering companies are increasingly interested in smart sensors. One-third of responding companies plan to store sensor data in a cloud and use digital sensor twins. The survey also found that every mechanical engineering company used an average of five sensor producers as their suppliers.
Many of these producers will attend electronica 2022. A huge number of providers are locked in a fierce battle in the area of condition monitoring, which serves as the foundation of predictive maintenance. For instance, Analog Devices supplies three-axle MEMS acceleration modules with integrated analog-to-digital converters (ADC), microcontrollers, fast Fourier transformation (FFT) and statistics. By contrast, a special processor optimized for machine learning has been placed on the new inertial sensors made by STMicroelectronics right next to the sensor on the chip. As a result, the intelligence travels from the cloud or from “on” the edge directly “into” the edge. Complex operations like pattern recognition and anomaly detection become much more efficient and productive.
Trade fair visitors will be able to see how smart sensors can optimize their company value creation during the electronica Embedded Platforms Conference on November 16, 2022, and at the IIoT & Cyber Security Forum, among other areas. Hardware developers will not want to miss the Electrical Connectors & Measurement Technology Forum that will be held in Hall 3 on Thursday, November 17, 2022, and covers technological highlights and trends in sensors and measurement technology.
Article source: NS Medical Devices