 Hello and welcome to ST at Electronica 2022. My name is Ibek and I'm head of business development for Trion. We're responsible for driving the growth of industrial business units. In this demo I will be showing how companies can fast-track building their own wireless predictive maintenance solution to reduce machinery downtime and importantly to increase their productivity. With the help of Trion's products based on ST technology. Overall Trion solution consists of three major products Trion industrial node which acts as a collecting and processing point of condition monitoring data Trion gateway which connects the nodes to customer backend and Trion's ITO platform which is used to run custom applications and provide interfaces for customers to enable device management. The process of operating the system is rather simple first the sensor is mounted on equipment and is then activated by simply pressing the turn on button. Now the device is automatically capturing relevant vibration data which is then redirected to a backend application with the help of mesh connectivity network. The small industrial nodes from Trion at first look very simple but there are key components behind the implementation of whole solution because capabilities of this sensor really determine which type of data you can collect and analyze afterwards. While designing Trion's industrial nodes there were two key considerations. First nodes need to run on battery for up to five years and we needed components that are ultra low power but at the same time reaching features to optimize the battery life. Secondly, we didn't want to compromise on the robustness of our solution which is easy to use and scalable and this is where ST's components with low power features fit very well covering both of our requirements. Our latest development in the area is Trion industrial node 6 which houses ST's three-axis digital vibration sensor IIS3DW. Trion chose this component for several reasons primarily because it is a leading digital vibration sensor available in the market and is more cost-efficient than other analog sensors. The ST sensor offers wide frequency range which can go up to 6 kilohertz as well as 26.6 kilohertz sampling rate and low noise density. Both ensure the capture of high quality data and even in high performance mode the ST sensor only consumes 1.1 milliampere which is extremely critical when trying to extend the battery life of these compact devices. Another key sensor in industrial node is ISM330 which is an inertial measurement unit used in low power mode and primarily operating as a wake-up for the vibration sensor when the acceleration exceeds a certain threshold. Which again eventually leads to increase in battery lifetime for industrial nodes. The measurement data from sensors is processed using ST's ultra low power STM32L4 series microcontroller which runs signal processing such as filtering and decimation. It also calculates FFTs as well as acceleration and velocity-based vibration KPIs. Trion industrial nodes are wirelessly connected over 2.4 gigahertz mesh network to Trion's gateway. Then from the gateway the data is sent via wired or wireless connection to the cloud where it is then processed and importantly valuable insights are generated for end users. Those can be as warnings of potential emerging machine failures as well as guidance on how to avoid those with well-timed maintenance. Summarize the combination of ST microprocessor technology and Trion's expertise in product making made the birth of truly scalable predictive maintenance possible. And if you would like to learn more about Trion and ST solution please feel free to visit our website on the link down below. Thank you for your attention.