 Hello everybody, my name is Thiago Hayes from ST Micro Electronics and we are here at the ST Developers Conference 2019. Today I'm going to show you the SensorTile.box. Our latest evaluation tool for sensors and connectivity is a ready to go IoT node based on an IP54 plastic case. So from a looking side the SensorTile.box features the latest sensors from ST Micro Electronics. So our six-axis IMU, the LSM6DSOX, we have featured two accelerometers, one extremely low-powered, the LIS-2DW12 and as well our high-performance inclinometer, LIS-3DHH based on a ceramic package five by five millimeters. We also included in this package the LIS-2MBL, our standalone magnetometer. We also included quite a few environmental sensors within the SensorTile.box which basically features our LPS-22HH, our altimeter pressure sensor, an absolute pressure sensor based on a fully-molded technology in terms of packaging, our temperature sensor, the STTS-751, our humidity and temperature sensor combo, the HTS-221 and finally but not the least our analog bottom part microphone MP-23ADS1. On top of the sensors, the platform benefits from a very high-performance microcontroller, yet low-powered, the STM-32L4 series, plus BLE connectivity with the SPBTLE-1S device. Additionally, the part is battery-powered so you can find a 500 milliamp hour battery at the back of the SensorTile.box and the battery is charged with the STBC-02 battery charging technology from STMicroelectronics. Okay, so specifically talking about the SensorTile.box and why it is the most powerful platform for sensor evaluation within ST, it is because it supports three different levels of expertise, from entry to expert and professional level of developers. So, entry-level mode, there's no need for programming. You're basically going to evaluate predefined features that are commonly used and defined by the market, so for example, pedometer, barometer, data logging, compass, and level detection with the inclinometer, vibration monitoring, asset tracking, and even the upcoming baby crying detection based on the STM-32Q.AI. The SensorTile.box also has the expert mode that allows you through the mobile app graphical user interface to set up and create, not only in terms of customization, what sensors are going to be used, but also create custom application, visually based on the mobile app interface. And then finally, but not the least, we have the pro working mode, which is basically where you're going to write C code within the SensorTile.box. So, again, with the three operational modes, we can enable or we can allow a user regardless of the level of expertise to evaluate and understand better sensors from entry to expert and professional modes. So now as a demo, let's start looking at the entry level experience with the SensorTile.box. So, you set up your hardware, in this case I'm powering via USB cable, and you open the STBLE sensor app. You hit create a new app, and in this case, these are the available example apps that I just mentioned in the introduction portion. So let's take, for example, the barometer. The barometer app has data over BLE. This is why you find the BLE icon right here at the top. In case you're logging data into the micro SD card, also in the entry level, the data, the symbol of the micro SD card will be listed accordingly. So taking the barometer example, I click on upload, and then I find Tile 2, which is my SensorTile.box evaluation, and I hit play. I will overwrite the firmware that is available on board, the mobile app will update the firmware accordingly to my selection, and the STBLE sensor app is telling me that the app loading happened correctly. So it's ready to go. It's going to give me back to the selection of the devices, so I'll select the Tile 2, which is the board that I have. So now I can see quite a few sensor data. So in this case, I'm seeing temperature and pressure data, as well as humidity data. So if I want to visualize and plot data, for example, temperature sensor data with the SensorTile.box, you can enable to the left-hand menu and click on plot data. From here, you can select the different sensor available on the sample application and perform the logging. In case you want to log and actually register that data in order to use it later, just click start logging on the top right-hand corner of the app, and this will allow you the mobile app interface itself to log the data into CSV files. Once you stop logging, the app will ask you if you want to send an email with the log files. If you hit OK, you get an email with the log data of the available sensors that you selected. So another interesting demo or user experience that you can have with the SensorTile.box is the sensor fusion experience. So here, we are showcasing the cube, which basically has accelerometer and gyroscope data. So as I move the board, the cube moves accordingly. You can also visualize throughout through the STVLE sensor app, not only the data, but also you can perform cloud logging. So for example, in case you want to set up or log your data, your sensor data into a cloud service, the STVLE sensor app also allows you to explore that functionality. All right, so thank you for your attention. For more information on the SensorTile.box, please visit at c.com slash SensorTile.box. Thank you very much and have a great day.