论文信息 - Effect of rotor rectifier on motor performance in slip recovery drives

Effect of rotor rectifier on motor performance in slip recovery drives

Despite its simplicity, the static Kramer drive presents a formidable analytical challenge. Rigorous analysis is particularly difficult and there is need for a simpler form of analysis when calculating ratings and steady-state performance. One aspect which is not well documented is the influence of commutation overlap within the rotor rectifier upon motor power factor and peak attainable torque. This point is dealt with and it is also shown how the system performance can be predicted by largely analytical means, allowing fully for motor resistances, diode voltage drops, and the several possible rectifier overlap modes.

B. A. T. Al Zahaw | B. L. Jones | W. Drury

[1] N. N. Hancock,et al. Considerations concerning a modified Kramer system , 1963 .

[2] David Morris,et al. Some tests of an exact practical theory of the induction motor , 1950 .

[3] W. Drury,et al. Application of controlled flywheeling to the recovery bridge of a static Kramer drive , 1983 .

[4] Victor R. Stefanovic,et al. Evaluation of Phase-Commutated Converters for Slip-Power Control in Induction Drives , 1983, IEEE Transactions on Industry Applications.

[5] W. J. Bonwick. Characteristics of a diode-bridge-loaded synchronous generator without damper windings , 1975 .

[6] J. E. Brown,et al. Electrical variable-speed drives , 1984 .

[7] R. J. Polge,et al. Induction Motor Speed Control with Static Inverter in the Rotor , 1966 .

[8] W. Drury,et al. Analysis of the periodic transient state of a static Kramer drive , 1986 .