论文信息 - Recent advances in the design of large magnetic frequency changers

Recent advances in the design of large magnetic frequency changers

The design of the magnetic frequency changer, or multiductor, has advanced to the extent that units having a rating of 6.6 MW have recently been designed and built. This paper treats several of the problems and consequent solutions encountered in the design of these large units. Specifically, problems associated with the effective utilization of available conductor in a sheet wound coil are discussed, and methods of reducing the losses to acceptable levels are described. It is shown that excessive losses can occur when the winding geometry is improperly chosen. Secondly, methods of estimating the core losses at the high and distorted flux densities encountered in the frequency changer are described. The load dependent core losses are required when determining the efficiency of the device as well as in assessing the overall system stability. Finally, an efficient method of simulating the behaviour of the multiductor on load is outlined. The simulation includes the input filter network, line characteristics, losses, etc. It is such that sets of design curves or alternatively, specific design configurations, can each be treated with ease and economy.

Paul P. Biringer | J. Lavers | P. Biringer | J. Lavers

[1] R. F. Dudley,et al. The Prediction of Current Distribution in Induction Heating Installations , 1972 .

[2] H. Hollitscher. Core losses in magnetic materials at very high flux densities when the flux is not sinusoidal , 1969 .

[3] F. Brailsford. Investigation of the eddy-current anomaly in electrical sheet steels , 1948 .

[4] K. Gallyas,et al. Analytical Approximations for Determining the Current Density and Power Loss Distributions in Multilayer Sheet Windings , 1977, IEEE Transactions on Industry Applications.

[5] Steady-state analysis and stability of a magnetic frequency tripler , 1969 .

[6] G. R. Slemon,et al. Harmonic analysis of the magnetic frequency tripler , 1963, Transactions of the American Institute of Electrical Engineers, Part I: Communication and Electronics.

[7] P. D. Agarwal. Eddy-current losses in solid and laminated iron , 1959, Transactions of the American Institute of Electrical Engineers, Part I: Communication and Electronics.

[8] W. Rogowski,et al. Über zusätzliche Kupferverluste, über die kritische Kupferhöhe einer Nut und über das kritische Widerstandsverhältnis einer Wechselstrommaschine , 1913 .

[9] G. Bendzsak,et al. The influence of magnetization characteristics upon tripler performance , 1974 .

[10] F. Brailsford,et al. Anomalous iron losses in cold-reduced grain-oriented transformer steel , 1964 .