This article focuses on ongoing research for dimensioning the Automatic Identification and Control Design Station for DC motors. The aim is to develop a device capable of automatically identifying DC permanent magnet motors and designing control suited for their diverse applications. The proposed measurement platform comprises essential components, including a tested motor, H-bridge, load motor, microcontroller, rotary encoder, power supply, and torque sensor. The dimensioning process carefully considers parameters like sampling period and encoder increments, crucial for accurate motor testing and control design. Authors strive to develop a universal methodology applicable to a broad range of DC motor parameters. The findings offer valuable insights into designing and dimensioning the measurement platform, laying a foundation for future research.