Dynamic Simulation of Electrical Machines and Drive Systems Using MATLAB GUI

“…The two developed GUIs of the one-phase induction motor and of the stepper motor complete the series of virtual modules developed earlier [5] for the subject of electrical machines, like the virtual models of the DC motor, the three-phase AC motors, and the BLDC motor. The virtual models show system performance in various working points and analyze the influence of variable system parameters, modes of supply, and control parameters on system behavior.…”

“…The proposed chapter presents an extension of the knowledge presented in a series publications by Fedak et al [5][6][7] and a continuation of the development of the teaching aids by the application of the virtual models to more specialized topics not described there -a single-phase machine and a stepper machine, including their supply and modes of the operation. This chapter is more-or-less technically oriented and presents a practical guide for the development of a whole series of virtual models of electrical machines to be utilized in the teaching process.…”

Support for Learning of Dynamic Performance of Electrical Rotating Machines by Virtual Models

“…The two developed GUIs of the one-phase induction motor and of the stepper motor complete the series of virtual modules developed earlier [5] for the subject of electrical machines, like the virtual models of the DC motor, the three-phase AC motors, and the BLDC motor. The virtual models show system performance in various working points and analyze the influence of variable system parameters, modes of supply, and control parameters on system behavior.…”

“…The proposed chapter presents an extension of the knowledge presented in a series publications by Fedak et al [5][6][7] and a continuation of the development of the teaching aids by the application of the virtual models to more specialized topics not described there -a single-phase machine and a stepper machine, including their supply and modes of the operation. This chapter is more-or-less technically oriented and presents a practical guide for the development of a whole series of virtual models of electrical machines to be utilized in the teaching process.…”

Support for Learning of Dynamic Performance of Electrical Rotating Machines by Virtual Models

“…The output variables such as torque and speed are sensed and are fed back and are compared with reference values, the error between the reference and the actual value are amplified to control PPU to eliminate this error. The objective of the controller designed is to have zero steady state error and fast transient response, for example step change in input and small settling time vary with little overshoot [11][12][13][14][15]. With the above consideration, a closed loop system of PMBLDC motor is mathematically modeled and simulated using Matlab /Simulink software package.…”

Closed loop control system modeling of Permanent Magnet Brushless DC Motor

“…While for the PMSM, an absolute, precise position encoder is needed, the BLDC motor requires only the decelation of the one of the six 60º sectors where the rotor is situated in order to properly control the operation. The mathematical model of the BLDC is well known, several publications (Fedák et al 2012, Prasad et al 2012, Rambabu 2007, Singh et al 2013 deeply describing it. In what concerns the command, the same publications highlight that thanks to the trapezoidal back EMF and consequently no sinusoidal variation of the motor inductances with rotor angle, the well-known Park transformation of the machine equations is not necessary anymore, but the natural or phase variable model offers many advantages.…”

Comparison Of Several Control Strategies Of The BLDC Motors