A new method for real time control of actuators in continuous flux

The paper presents a new real time control method in actuators continuous flux and their implementation using complex automations, aimed at determining the behaviour, functional parameters and performances, with direct application to constructing electrical motors trial stands. There are presented theoretic considerations, the actuators real time control system architecture, mathematic modelling, experimental results and comparative measurement graphs related to the method's performances. These lead to the possibility of predicting actuator performances through indirect measurements without the measurement signals being generated by the tested actuator as they are in the case of direct measurement methods. Thus, it allows for development of complex systems while reducing the trial time and increasing the measurement precision. Theoretic and experimental results have shown that the behaviour errors of the actuators that have been tested through the proposed method are less than 1% while the testing duration is over 30 times less.