A key issue for power electronic converters is the ability to tackle periodic signals in electrical power processing to precisely and flexibly convert and regulate electrical power.
This book provides complete analysis and synthesis methods for periodic control systems. It covers the control, compensation, and filtering of periodic signals in power electronic power processing and proposes a unified framework for housing periodic control schemes for power converters, providing a general proportional-integral-derivative control solution to periodic signal compensation in extensive engineering applications - a perfect periodic control solution for power electronic conversion. It provides a number of demonstrative practical examples of the application of periodic control to: standalone constant-voltage-constant-frequency (CVCF) singlephase Pulse Width Modulation (PWM) inverters; standalone CVCF singlephase High Frequency Link (HFL) inverters; standalone CVCF three-phase PWM inverters; grid-connected single-phase inverters; grid-connected singlephase "Cycloconverter" type HFL rectifiers; grid-connected three-phase PWM inverters; programmable AC power sources; shunt active power filters; and UPS systems.
Periodic Control of Power Electronic Converters is of key importance for researchers and engineers in the field of power electronic converter systems and their applications, for control specialists exploring new applications of control theory in power electronics, and for advanced university students in these fields.
Show moreA key issue for power electronic converters is the ability to tackle periodic signals in electrical power processing to precisely and flexibly convert and regulate electrical power.
This book provides complete analysis and synthesis methods for periodic control systems. It covers the control, compensation, and filtering of periodic signals in power electronic power processing and proposes a unified framework for housing periodic control schemes for power converters, providing a general proportional-integral-derivative control solution to periodic signal compensation in extensive engineering applications - a perfect periodic control solution for power electronic conversion. It provides a number of demonstrative practical examples of the application of periodic control to: standalone constant-voltage-constant-frequency (CVCF) singlephase Pulse Width Modulation (PWM) inverters; standalone CVCF singlephase High Frequency Link (HFL) inverters; standalone CVCF three-phase PWM inverters; grid-connected single-phase inverters; grid-connected singlephase "Cycloconverter" type HFL rectifiers; grid-connected three-phase PWM inverters; programmable AC power sources; shunt active power filters; and UPS systems.
Periodic Control of Power Electronic Converters is of key importance for researchers and engineers in the field of power electronic converter systems and their applications, for control specialists exploring new applications of control theory in power electronics, and for advanced university students in these fields.
Show moreKeliang Zhou is a Senior Member of the IEEE, and a Senior Lecturer
at the University of Glasgow, Scotland, where his research is
focused on power electronics and electric drives, control theory
and applications, renewable energy and distributed generation, and
smart grid technologies.
Danwei Wang is a Senior Member of the IEEE, and Professor at
Nanyang Technological University, Singapore. His research interests
include health monitoring, fault diagnosis and prognosis for
electrical machines, as well as robotics.
Yongheng Yang is an Assistant Professor at Aalborg University,
Denmark. His research interests include renewable energy systems,
power converter design, analysis and control, harmonics
identification and mitigation, and reliability in power
electronics.
Frede Blaabjerg is an IEEE Fellow and Professor in power
electronics and drives at Aalborg University, Department of Energy
Technology, Denmark. His research interests include power
electronics, power converters, adjustable speed drives, control
theory, process control, power quality, power electronics
reliability as well as renewable energy like solar power and wind
energy. He has published many journal papers and is among the most
250 cited in Engineering according to Thomson Reuter. He is the
recipient of the IEEE William E. Newell Power Electronics award.
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