 Hi, I am Natalytest and today I am going to tell you about our development kits in the field of IO-Link application based on the P-nucleium-IoD-01M1 master side, the P-nucleium-IoD-01A1 and the new P-nucleium-IoD-02A1 both on the device side. Using these kits you can evaluate the integrated circuits for IO-Link technology like transceivers, microcontrollers, sensors and to develop your own specific IO-Link application as fast as possible. Let's focus now on the kits and their main features. This demo represents a basic free-level industrial installation using ST solutions for IO-Link applications. Here you can see there are two IO-Link sensors. In the middle there are two IO-Link master ports and there is a F7 discovery board acting as a system controller. The discovery board controls the LCD display where the data collected from the sensors nodes are shown. The management of the IO-Link protocol is requested to the IO-Link master and IO-Link device. The P-nucleium-IoD-01M1 is an IO-Link master kit composed of a Nucleo F446RE and up to four ST-VAL-IoD-001V1. The Nucleo F446RE has an ST-M32446 microcontroller which runs a version 1.1 IO-Link stack developed by our partner in the concept. Each ST-VAL-IoD-001V1 represents an IO-Link master port based on the L6360, an ST transceiver for IO-Link master applications. In this example two ports are used and the P-nucleium-IoD-01M1 act as an IO-Link master bridge translating the commands from the F7 discovery board into commands compliant with the IO-Link protocol. Master ports are connected to IO-Link sensors which are here our P-nucleium-IoD-01A1 and the P-nucleium-IoD-02A1 boards. The P-nucleium-IoD-01A1 includes a microcontroller board, Nucleium-L073RZ, a sensor board, the X-nucleium-IKS-01A1 and the transceiver board, the ST-VAL-IoD-003V1. The microcontroller board runs the software, the ST-SW-IoD-01. It is based on a full IO-Link stack library developed by our partner in the concept and it can be downloaded from ST.com. The sensor board includes environmental, temperature, humidity and pressure and MEMS, 3D gyroscope and 3D magnetometer sensors. The transceiver board integrates the L6362A, the ST-SINGLE channel transceiver for standard IO and IO-Link sensor applications. The new P-nucleium-IoD-02A1 is very similar to the P-nucleium-IoD-01A1 but the running firmware is based on the X-cube-IoD-02 and the transceiver is on the X-nucleium-IoD-02A1. The P-nucleium-IoD-02 include a demo IO-Link stack developed by ST software designers, source code ready for the most common integrated development environment and can be downloaded from ST.com. The transceiver board is the X-nucleium-IoD-02A1, it is based on the new L6364-Q, the ST dual channel transceiver for standard IO and IO-Link applications. So, as you can see we have a very complete solution that is readily available for you to get started developing your IO-Link based industrial application. This video was to give you a quick overview. For more detail you can check out these IO-Link products, P-nucleium kits and reference design board on ST.com.