Modeling and Analysis of Class EF and Class E/F Inverters With Series-Tuned Resonant Networks

Class EF and Class E/F inverters are hybrid inverters that combine the improved switch voltage and current waveforms of Class F and Class F-1 inverters with the efficient switching of Class E inverters. As a result, their efficiency, output power and power output capability can be higher in some cas...

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Bibliographic Details
Published inIEEE transactions on power electronics Vol. 31; no. 5; pp. 3415 - 3430
Main Authors Aldhaher, Samer, Yates, David C., Mitcheson, Paul D.
Format Journal Article
LanguageEnglish
Published New York IEEE 01.05.2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Class E inverters
Class EF inverters
Design engineering
Efficiency
Electric power
Frequencies
high frequency inverters
Inductance
Inductors
Inverters
Mathematical analysis
Mathematical model
Mathematical models
Power generation
Switches
Switching
Switching frequency
Voltage
Waveform analysis
Waveforms
Class E inverters
Class EF inverters
high-frequency inverters
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Summary:Class EF and Class E/F inverters are hybrid inverters that combine the improved switch voltage and current waveforms of Class F and Class F-1 inverters with the efficient switching of Class E inverters. As a result, their efficiency, output power and power output capability can be higher in some cases than the Class E inverter. Little is known about these inverters and no attempt has been made to provide an in depth analysis on their performance. The design equations that have been previously derived are limited and are only applicable under certain assumptions. This paper is the first to provide a comprehensive set of analytical analysis of Class EF and Class E/F inverters. The Class EF 2 inverter is then studied in further detail and three special operation cases are defined that allow it to either operate at maximum power-output capability, maximum switching frequency, or maximum output power. Final design equations are provided to allow for rapid design and development. Experimental results are provided to confirm the accuracy of the performed analysis based on a 23-W Class EF 2 inverter at 6.78-MHz and 8.60-MHz switching frequencies. The results also show that the Class EF 2 inverter achieved an efficiency of 91% compared to a 88% efficiency when operated as a Class E inverter.
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ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2015.2460997