Title :
A digital signal processing approach to real-time AC motor modeling
Author :
Vainio, Olli ; Ovaska, Seppo J. ; Pasanen, Jari J.
Author_Institution :
Signal Process. Lab., Tampere Univ. of Technol., Finland
fDate :
2/1/1992 12:00:00 AM
Abstract :
Discrete-time computational models of squirrel-cage AC motors are derived and analyzed for the purpose of advanced motor control. The starting point is a continuous-time model defined by a pair of simultaneous complex-coefficient differential equations. Discrete-time models are derived using both the bilinear transformation and the forward-difference approximation. The exact dependence between stability and the minimum sampling rate in the forward-difference approach is shown. The responses of the two discretized models are compared using real-world motor parameters. Using the forward difference method, a more compact implementation is obtained (although a higher sampling rate is required) as compared to the bilinear transformed model of equivalent performance and 2.7 times higher computational complexity. A 16/24-b DSP-ASIC coprocessor prototype implementing the AC motor model is introduced
Keywords :
computerised signal processing; differential equations; discrete time systems; machine control; machine theory; real-time systems; squirrel cage motors; stability; DSP-ASIC coprocessor; bilinear transformation; continuous-time model; digital signal processing; discrete-time computational models; forward-difference approximation; minimum sampling rate; motor control; real-time AC motor modeling; simultaneous complex-coefficient differential equations; squirrel-cage AC motors; stability; AC motors; Computational complexity; Computational modeling; Coprocessors; Differential equations; Digital signal processing; Motor drives; Prototypes; Sampling methods; Stability;
Journal_Title :
Industrial Electronics, IEEE Transactions on
