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The book provides analytic frequency-domain models that use system and controller parameters to accurately characterize the power conversion harmonics as well as modulation/demodulation processes resulting from the deployment of hysteresis current-controlled inverters in power systems. AC and DC harmonic interactions under both ideal and non-ideal (distorted) system conditions are derived and verified for the fixed- and variable-band hysteresis controllers. The spectral characteristics, such as frequency orders, spectral magnitude and bandwidth, are given in terms of line and controller…mehr

Produktbeschreibung
The book provides analytic frequency-domain models that use system and controller parameters to accurately characterize the power conversion harmonics as well as modulation/demodulation processes resulting from the deployment of hysteresis current-controlled inverters in power systems. AC and DC harmonic interactions under both ideal and non-ideal (distorted) system conditions are derived and verified for the fixed- and variable-band hysteresis controllers. The spectral characteristics, such as frequency orders, spectral magnitude and bandwidth, are given in terms of line and controller parameters, a development not only useful in analyzing the harmonic output sensitivity to line and controller parameter variations, but also in filter and system design. Various simulation studies compared results obtained from the developed models to those obtained from the Fourier analysis of MATLAB/Simulink output with very good agreement. The developed models proved their reliability and improved numerical efficiency in harmonic studies compared to those performed using time-domain simulations.
Autorenporträt
Ahmad Albanna, Ph.D., is a Senior Hardware Power Conversion Design Engineer at General Motors, where he is responsible for design, modeling, simulation, and developing Bill of Design for Power Inverter Modules. Dr. Albanna has more than 30 publications including invited book chapters, articles, journals, and peer reviewed conference proceeding.