 Hello, I'm Ryan Metivier. I'm here with ST Mercury Electronics at CES and today we're showing you some great demos for our integrated motion control products. At ST we have a number of solutions ranging from fully discreet solutions using an MCU to full monolithic solutions as well as various partitioning for integrated devices. The main star today is going to be the ST Spin 32 G4. We're demonstrating the integration of using a STM32 with gate drivers, DC to DC power supplies, switchers and analog components along with a 32 bit G4 processor. And here we're showing the capability of the G4, how it has enough processing resources and advanced timers in the same package to be able to drive two brushes DC motors at the same time with a high level of precision. One of the main benefits of integrating the STM32 G4 alongside the analog componentry and drive circuitry is you can substantially shrink your design and simplify your PCB layout. Here you can see on the left where we have a traditional approach where you're driving two discreet brushless motor drivers with two discreet MCUs, two discreet sets of gate drivers and a DC to DC conversion set up there. With ST Spin 32 G4, most of this is integrated into the same package and the only additional componentry you need for active circuitry is an ST Drive 101 gate driver for the second brushless DC motor. Another demo that we have to show you today is again using the ST Spin 32 G4 in combination with some of our monolithic ST Spin devices, the ST Spin 8 and 9 family. In a typical implementation of a complex robotic vacuum cleaner, we have six brushed and brushless DC motors with several discreet components. It's a complex system with a number of devices. In this particular demo we've integrated the EV Spin 32 G4 development kit with this ST Spin 32 G4 motor driver to handle the control of the vacuum motor as well as the sweeper brushes. An ST Spin 840 includes all of the power MOS as well as the controls for brushed DC motors. And in this particular demonstration, one push turns the vacuum on and another push turns on sweeper motors. But this is an example of using a development kit to go do rapid prototyping of systems directly from ST.com. Another implementation is for a new product coming out very soon as the ST Spin 948. In this example, we're using the ST Spin 32 G4 to handle all of the controls for the motion as well as the sensing for all six of the motors. Thanks to the integration of the ST Spin 9 family, we have four discreet half-bridge power devices as well as all of the controls. And in this implementation, you can control all six motors in the sensing with a single ST Spin 32 G4 while offloading the requirements of the application host processor to simplify what you need there. And the third and final demo here at CES is another example of using the EV Spin 32 G4 development suite on an e-mobility or an e-bike platform. This is controlling the motor as well as a start-stop for an e-bike. And what I was just going here was just going to our motor pilot tool just to illustrate some of the additional pieces of the development suite and debug kit for the ST Spin 32 G4 family. For those that are already comfortable with the ST Spin 32 development environment, the ST Spin 32 G4 family fits right in that environment so you can get up and going real quickly. Thanks for joining us at CES. Go to ST.com for more information on any of our products or contact your local friendly ST salesperson.