 And welcome to this STM32-L496G Discovery Kit Getting Started video. The STM32-L496 Discovery Kit is designed to be the quickest way to evaluate the graphics capabilities of the STM32-L4 product line. It enables a wide diversity of applications with attractive user interfaces, taking benefit from many features like sensors and high-speed connectivity. Inside the STM32-L496G Discovery Blister, you will find two items. The STM32-L496G Disco Board and an insert card explaining how to set up the board and launch the embedded application. Now let's have a look at the main components and features of this board. On the top side, we can see the STM32-L496G microcontroller with a TFT color LCD display and two MEMS microphones on the side. A one-megabyte pseudo-static RAM memory device and an eight-megabyte quad-SPI flash memory device are available to store large data arrays or program code. The board also features a rich set of peripherals including a USB on-the-go full-speed connector, a digital camera module interface or DCMI to capture high-speed uncompressed and JPEG compressed images, and additional connectors offering UART, I2C, and SPI connectivity. The user interface also includes a joystick used to navigate inside the application's menus. For application development, we have embedded an on-board ST-Link v2-1 debug and programming tool on this Discovery board. It is also possible to extend the capabilities of this board by connecting a fan-out expansion board thanks to the ST-Mod Plus connector. This small board brings support for Grove and MicroBus compatible connectors. Let's flip the board over and have a look at the bottom side. The bottom side offers an audio jack and a microSD memory card socket. It also integrates a high-precision current ammeter with four ranges and auto calibration. On the sides of the board, the Arduino connectors provide unlimited expansion capabilities with a large choice of specialized add-on boards. To operate the board and access the pre-programmed application, set jumper JP7 STLK to the on position, then power on the board by connecting a mini-B USB cable to the ST-Link USB connector. Once the USB enumeration phase is done, LED5 comes on. The application will now start up and the menu icons appear, offering the possibility to select one of the four graphics environments used to demonstrate the applications. Now, let's run the various applications and discover the graphical capabilities of this ST-M32-L496G device. You can use the touchscreen to navigate through the demonstration menus on the LCD screen. Press the ST-M-WIN icon to enter the demonstration. ST-M-WIN offers several modules, four of them being displayed per screen. Slide your finger left or right across the screen to move from one to another. First, let's check the system information application. This application provides various information such as the board reference, the CPU clock speed, and the demonstration firmware version. The displayed information helps check that the firmware release is the most recent one. The demonstration software is preloaded in the ST-M32-L469-AG flash memory. For your information, the latest version of the demonstration source code and associated documentation can be downloaded from www.st.com-stm32-l4-discovery. Press the exit button to exit this module and then touch the power icon to enter the power measurement module. The power consumption application displays real-time MCU current consumption depending on the selected power mode. The current is measured and calculated thanks to a second microcontroller on the board. Select one power mode and then activate the measurement. After a few seconds, the current consumption is displayed. Pressing the exit button ends the demonstration. Our partner's graphical demonstrations can be started by pressing the corresponding icons. Pressing the embedded wizard icon enters the TARA systems demonstration. The embedded wizard demonstration shows a main menu with four icons. Watch, Running, Info, and Back. The Info application yields several displays, each providing a small amount of information on Embedded Wizard. The running application shows subsequent displays for activity monitoring such as a counter, a heart rate monitor, a dashboard showing the speed, distance, and elapsed time, a map where a red dot is moving on the fly, and the shape field signature. This application is simulated. There are no sensors connected to the discovery board. The running application starts, stops, and resumes by pressing the bottom left arrow. The right square button resets the animation. Just slide down the screen to exit this running menu. The Watch menu shows several types of watches that can be designed through Embedded Wizard. You can browse through the different designs by sliding the screen left or right. You can exit the Watch menu by sliding down the screen. Let's go back now to the top level menu. Please press the touch GFX icon to enter the demonstration. The applications demonstrated here are an audio player, a bird game, an activity monitor, and a digital watch. Now let's play the bird game. The bird game is accessed through a simple icon press. This game is a good example of the graphics capabilities offered by this STM32L4 device thanks to the embedded graphic accelerator, Chromart. Playing the game means catching the golden coins while dodging the bullets at the same time. Pressing the left white arrow allows the bird to jump. Pressing the ST icon enables or disables the graphic accelerator. The figure indicated at the top of the screen yields the CPU load in real time, highlighting the benefit of the Chromart when enabled. To exit the game, slide down the screen from top to bottom. The next application is an audio player. An equalizer is provided to tune the audio bands. Select one of the five audio bands and set the gain to the desired level by moving the blue button. Select one album and press the musical note. Playback starts. An acoustic waveform shows up when music is playing. Using this Discovery board, we have explored some of the features of the STM32L4 series microcontrollers together. To learn more about this STM32L496G Discovery board, go to ST.com and search for 32L496G Discovery. Here you will find the STM32L4 comprehensive software tool, Discovery board, schematics and Gerber files, data brief, user manual and other related materials that will help you speed up your development. And if you want flexible hardware and connectivity, please evaluate our STM32L496 nuclear board and join the ARM embed community. To learn more about the STM32L4 series, visit our website at www.st.com-stm32l4 and www.st.com-stm32l4-discovery. Thank you for watching this video.