 Welcome to this presentation of the ST-SPIN family of motor drivers. ST-SPIN offers solutions that are at the forefront of integration, performance, and efficiency. Integrating a control core and a power stage in half or full bridge configuration, ST-SPIN is suitable for driving DC stepper and brushless motors. ST's wide portfolio of ST-SPIN motor drivers includes monolithic drivers embedding all the functions needed to drive motors efficiently and with the highest accuracy while ensuring maximum reliability. In addition, ST-SPIN includes a family of low voltage monolithic drivers ideal for battery powered applications. Controllers for stepper motors with all the features to drive external discrete power MOSFETs and simplify the design. System in package solutions integrating in a small QFN package a high performing controller and discrete MOSFETs to ensure unprecedented power density in stepper motors up to 85 volts. This wide selection ensures a best match for an application spectrum that spans widely across any power rating and system partitioning. These ICs can be found in a variety of applications ranging from office machines to medical and industrial equipment. The ST-SPIN motor drivers have been developed to ensure design flexibility, high intelligence, robustness and to provide accurate and fully configurable motion in order to offer designers a wide choice of solutions that fit different requirements and system architectures. The wide selection of ICs meets the requirements of any system partitioning. This design flexibility is ensured by a wide operating voltage, current and temperature ranges supporting most application needs. Moreover, multi-package options make the product suitable for a variety of designs, space constraints and thermally challenging environments. High intelligence is ensured by the embedded digital motion engine, a logic core that implements digital control to run user defined motion profiles for speed and position. It is easily programmable through an SPI interface, or simplifying the job of the microcontroller that only needs to run the high-level commands instead of managing the motion steps. ST-SPIN motor drivers feature adaptive current decay control as well as innovative voltage mode driving that provide enhanced torque accuracy for low noise and unprecedented motion smoothness with up to 256 microsteps. Thanks to the features of robustness and full protection with extensive diagnostic capability the number of external components is reduced. ST-SPIN monolithic drivers embed all the functions needed to drive the motor efficiently and with the highest accuracy and include an advanced motion profile generator to relieve the host microcontroller while ensuring robustness and reliability thanks to protection and diagnostic features. ST-SPIN includes a family of low voltage drivers ideal for battery-powered applications featuring maximum efficiency, extreme compactness and a full set of protections. Controllers for stepper motors offer versatility, accuracy and protection features in an extended range of voltage and current ratings. They also feature adaptive current decay control scheme as well as the innovative voltage mode. System in package solutions integrate in a small QFN package a high-performing microcontroller and discrete MOSFETs to ensure unprecedented power density in stepper motors. By requiring only minimal external components up to 50% of PC board space is saved compared to a design with discrete control and power stage components. With comprehensive protection features built in the ICs represent an extremely robust and reliable solution. To make your design work easier the ST-SPIN family is available with a number of tools including documentation and software. A complete offer of evaluation boards is provided together with low-cost plug-and-play discovery kits and expansion boards compatible with the STM32 microcontroller board. They are autonomous and can be used with a software interface or with a custom firmware thanks to the embedded microcontroller. For further information and design support tools please visit ST.com slash ST-SPIN. Thank you very much for your attention.