论文信息 - The closed-loop stability of power converters with an integrating controller

The closed-loop stability of power converters with an integrating controller

A theory is developed to predict the stability characteristics of static converters as a function of the controlled-firing angle for closed-loop systems using an integrating controller. The controlled quantity can be either the output voltage or current. Revealed in the analysis was how the degree of stability is dependent on the operating point, the waveform and pulse number of the supply, the commutating reactance, and the method of modulating the firing angle. The factors that determine stability are related to the step change in the output voltage waveform at the instant of switching. In practical application of the theory, the closed-loop performance can be improved by suitably shaping the modulating function or `firing wave'. It is found that the optimum shape of the firing wave is not the same shape that produces a linear open-loop voltage gain.

W. McMurray

[1] F. Fallside. Ripple instability in closed-loop pulse-modulation systems including invertor drives , 1968 .

[2] Takuro Mochizuki,et al. Analysis of thyristor-bridge control system with commutating impedance , 1978, 1978 IEEE Power Electronics Specialists Conference.

[3] L. L. Freris,et al. Stability study of controlled rectifiers using a new discrete model , 1972 .

[4] J. D. Ainsworth,et al. Harmonic instability between controlled static convertors and a.c. networks , 1967 .

[5] F. Fallside,et al. Ripple instability in closed-loop control systems with thyristor amplifiers , 1967 .

[6] J. O. Flower,et al. Theoretical analysis of harmonic instability in a.c.-d.c. convertors , 1970 .

[7] E. Parrish,et al. A theoretical model for single-phase silicon-controlled rectifier systems , 1967, IEEE Transactions on Automatic Control.

[8] J. O. Flower,et al. Stability properties of certain thyristor-bridge control systems. Part 2: The interrelationships of discrete- and continuous-design methods , 1970 .