This technology presents a fertile ground for solving control where algorithms command strategies in high-level languages and are hosted and executed in real time on the board. Their high performance allows real-time simulations and testing algorithm control directly on the equipment.
These would include modern control techniques including having a board with potential, high efficiency and versatility. The aim of this paper was to show the benefits of working with development tools based on a digital signal processor (DSP). Keywords: buck converter, DSP, permanent magnet DC motor, controller, hysteresis, rapid control prototyping (RCP). Testing the speed control loop of a DC motor with permanent magnets has thus been developped to appreciate the considerable advantages offered by these tools. simulation interacting with physical plant). Development tools using a DSP and Simulink RTW can be performed with real-time simulations (i.e. However, the final use of an algorithm is in its application in a real time system. every engineering development for control systems is tested by simulation to predict performance. Member of research group GREDyP, Engineering, Universidad Nacional de Colombia. Associate Professor, Universidad Nacional de Colombia, Manizales, Colombia.
Member of research group GREDyP, D., in Engineering, Universidad de Buenos Aires, Argentina. Member of research group GREDyP, Electrical Engineering, Universidad Nacional de Colombia. Estudiante de Ph.D student, en Engineering Line -Automatic, Universidad Nacional de Colombia, Manizales, Colombia.
M.Sc., in Industrial Automation Engineering, Universidad Nacional de Colombia. Developing speed control for a permanent magnet DC motor using rapid control of prototyping techniquesįredy Edimer Hoyos Velasco 1, Camilo Younes Velosa 2, Eduardo Antonio Cano Plata 3 y Sebastián Sánchez Aristizábal 4ġElectrical engineer.