 Hello everybody, I am Max Nicotra, technical marketing in the Americas region for the EZO Modules. The video shows how easy it is to evaluate various VIC-3 module features using the small-form factor evaluation board EVB VIC-3DA and the powerful PC-based GUI Teseo Suite. The EVB VIC-3DA evaluation board is a complete standalone evaluation platform for Teseo VIC-3DA and Teseo VIC-3D that recognize GNSS modules for features evaluation and also power consumption measurement. Starting from upper right and going counterclockwise are the top view, real panel view and front panel view. The front panel is quite straightforward and does not require any sort of explanations. In the real panel, starting from the left, current connector for current consumption measurement, pin 1 and 4 for VCC and pin 2 and 3 for VBET, SMA antenna connector, IO connector which encompasses odometer signal pins and I2C communication interface pins. You were communication interface over USB port. In the center is the UFL connector for connection to the PPS output. Removing the screws and sliding the board out, the connector lies right behind the PPS LED. The Teseo Suite is a free Windows PC-based GUI tool that is extremely powerful and easy to use. It is possible to view, record, playback and EMA messages and also for debugging. View graphics such as position, sky view, view and character noise ratio, send comments, upgrade and configure the firmware. Antenna USB cables are already connected to the board, so let's start now on the board. After pushing the power button and enabling the communication of a viewer, the VIC-3DA starts streaming out data that becomes quickly visible in the Teseo Suite control panel. In a background task, VIC-3DA is screening and searching the sky to get promptly the first call start fixes. The draw algorithm running on VIC-3D and VIC-3DA is able to work with or without odometer data input, but not that. The best performance is achieved when odometer data is provided. In this case, the odometer is not connected. Therefore, after turning on the board in a background task, VIC-3DA adjusts draw functioning to behave as draw. Another background task is the automatic calibration. VIC-3DA can be oriented as the application chooses and initial course calibration will determine the device orientation with respect to the vehicle frame and determine the gravity vector for DR proper operation. As long as the device remains fixed in that chosen orientation, calibration is maintained using non-volatile memory to keep it consistent regardless of power cycles. The Teseo-3 chip set, which is hosted in both VIC-3 modules, has sufficient MIPs to properly execute all those concurrent background tasks, and even more. In the Teseo Suite GUI, starting from upper left and going counterclockwise, the following windows are visible. Character noise ratio, map view and position, control panel to configure and monitor the device, and sky view. Is it possible to configure the firmware sending any MEA messages using the common line here tagged send? Thanks for your time. To find out more Teseo information, please visit www.st.com.genesis module for the VIC-3 modules technical documentation and all collaterals and www.st.com.gps for information about all the Teseo chip set and family. Thanks again. Bye.