 Hello everyone. Thank you for joining the TCPP01 M12 Type-C port protection and power delivery companion solution for our SDM32 MCU. My name is Angel Galarsa, Technical Marketing for Power Discrets and Protection Devices. In this brief presentation, you will learn the basic information about our TCPP01 solution for Type-C port protection and how to implement on-dure design USB Type-C with power delivery in a safe, efficient and cost effective manner. So what are the target applications? This chart shows the data power role of different applications where this technology applies. This includes power syncing device or PSD, which is a class of new sync device that can leverage the benefit of USB PD chargers. And as I mentioned before, can charge up to 100 watts through a high voltage up to 20 volts. Any existing battery power equipment can imagine to increase autonomy and lifetime with a larger battery and be charged faster or search other devices. On the right hand side, sync application are the devices that require external power. Here we see a few pictures of such devices such as power tools, shavers, POS payment machines or smartwatch and so on. On the left hand side, source are applications to provide power for instance a smartphone, charger, power adapter, game console or even a display. The overall power or DRP are those applications can operate as a sync or serves. Using the same Type-C port, typical DRP devices will be a power bank, smartphone or a laptop. Here we are addressing the potential risk of damaging your USB-C device. With a USB-C connector, we have identified three kinds of risks that can happen in the field. One, an ESD issue that can destroy an internal circuitry. This is a transient very short duration as low as a one and a second rice time. Two, is an effective adapter that can apply a voltage higher than a negative voltage. This is a DC voltage. And finally, the number three, which is related to potential short circuit between the V-Bus to adjacent pins. Here we see two sections side by side. I designed with TCP-P01 for legacy 5V USB on the left and I designed with the TCP-P01 for USB-CPD on the right. Thanks to the TCP-P01 versatility and compliance with all the STM32 and STM8 MCUs, moving from USB-C to USB-CPD does not affect the BOM or bill of materials. Customers benefit from USB-CPD advantages at very low risk and while saving costs. We do recommend capacitors on the communication lines just for EMI reasons during the PD communication. While USB-PD port is one of the key features of the USB Type-C also have the alternate mode for super speed data. And this is a complete ESD and EMI protection solution for USB Type-C power delivery. We have our common mode filters such as the ECMF for 2450A60 on super speed lines and protection on D plus D minus such as the USB LC6-2 SC6. And for the B-Bus power switch we have the STL11N3LLH6 the N-Channel MOSFET as a power switch working together with the STM32G0 with the UCPD controller for USB Type-C power delivery. The XNUCLEO-USB-PD M1, the blue board is an expansion board for the NUCLEO-G071RP and NUCLEO-G474RE, the white base board. Development boards or any STM32 NUCLEO development board equipped with the USB Type-C peripheral. The NUCLEO-USB-PD M1 is a compliant with USB Type-C REV1.2 and power delivery 3.0 with 100W PPS support as well as USB IF certified with a test ID certification 3036. To elaborate the board is a compliant with 5 bold applications with any general purpose ST MCUs for up to 15W and up to 100W while using the STM32UCPD enabled family. It provides a straightforward means for evaluating USB Type-C power delivery in sync mode based on the TCP-P01-M12. The software includes binaries and search code files of implementation examples showing the XNUCLEO-USB-PD M1 capabilities when connected to the NUCLEO-G071RB or NUCLEO-G431RB. The USB Type-C connector can also power the STM32NUCLEO development board thanks to the 3.3 bold LDO. As mentioned earlier, we will use the zero power consumption feature of the device when no cable is attached. Specifically for the evolution board, which if you remember is the XNUCLEO-USB-PD M1, you have access to all the hardware tools, data brief, manual, quick start guide, but also the XU file, schematic and app notes. There is even a great YouTube video that we recommend to watch that will guide you step by step. Now let's review Aroma for TCP-P series. As we already covered the sync application with TCP-P01 in detail and we have show it or XNUCLEO-USB-PD M1 based development platform for both USB Type-C and PD applications, we are now targeting the USB Type-C search and dual role and this is our roadmap. On the left hand side, TCP-P02M18 is sampling now and will be in production early Q2 this year and is suitable for USB Type-C search applications. This device is suited for products like chargers, adapters and other power delivery search applications. In the center is the device and development for dual role power or DRP, or TCP-P03-M20. For example, the application of power bank will fall in such category. A power bank has to get charged its own battery and later let it charge other devices, like sync devices, preferably like a mobile phone. So with this DRP we save the additional connector, I mean a common Type-C connector can do both source and sync depending on what is connected to it. Thank you very much for your time. I hope you enjoyed this presentation and please go to our website for more information or contact directly to our sales representatives. Thank you very much.