 Nowadays, electric cars are everywhere and this market is moving quickly in the direction of higher efficiency for the extra autonomy and increases the level of integration, safety and reliability to guarantee the full longevity of this new class of vehicles. ST Microelectronics is meeting this market demand not just with the best in class products but also offering a compact and efficient solution for driving high performance electric motor in order to simplify and accelerate the design cycle of your electric traction system. The hardware platform is here shown and is based on a stackable approach with three different boards and consisting of a control board based on a 32-bit power architecture microcontroller for ACLD application, a driver board designed around our automotive galvanical insulated gate driver with integrated flyback controller, the L9502 and a power model in six pack configuration based on the latest silicon carbide MOSFET technology. Moreover, the complete solution also includes a dedicated iVoltage DC bus capacitor, an insulated current sensor and a dedicated heat sink for water cooling. Here you can see how the kit is used to drive an high-power electric motor, imposing a real mission profile. Most of the customers impose and request some torque and speed profile. This is achieved thanks to a graphical user interface embedded in the SPC5 studio which is an easy to use tool to control and configure the entire system. A dedicated power model in a six pack topology for traction is shown here and the main features are 1200 volt blocking voltage, very low switching losses with a very low RDS zone for higher efficiency and an improved Telmar robustness to guarantee an extended operative junction temperature up to 175 Celsius degrees. The kit implements a galvanical insulated gate driver with embedded flyback controller with high current capability, advanced protection, configuration and diagnostic features, providing an excellent failure event management as requested by the automotive market. The control board is based on the SPC58N847 microcontroller which is able to execute the most advanced FOC algorithm to obtain the best performance in terms of speed and torque control. Moreover, the can and the graphical user interface embedded in the SPC5 studio allowed to let you monitor, control and configure your application with a few simple steps. Finally, in terms of customer support, ST provides a wide range of resources to help developers to create and design their own solution and evaluate the performance of the device.