Title :
An exact analysis of Class-DE amplifier at any output Q
Author_Institution :
Microsoft Corp., Redmond, WA, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
Previous papers on Class-DE power amplifiers are based on the assumption that the Q factor of the series-tuned circuit is high enough that the load current is sinusoidal. This paper presents a theoretical description of the Class-DE power amplifier in which the assumption of infinite Q is eliminated. Design and performance curves are given and discussed and a comparison with the previous known results, a practical tuning procedure, and practical limitations of the Class-DE circuit are also presented. Such an analysis is useful because low-Q circuits are appropriate for applications in which the harmonic content of the output is not important, e.g., in high-efficiency DC/DC converters, in providing RF energy for heating, for generation of plasmas, arcs, or sparks, for communications jamming, or for input driver to a higher power stage. Experimental results closely agree with the theoretical predictions
Keywords :
DC-AC power convertors; Q-factor; circuit tuning; invertors; power amplifiers; switching circuits; Class-DE amplifier; DC/AC power conversion; RF heating; any output Q factor; communications jamming; design curves; exact analysis; finite output network; high-efficiency DC/DC converters; higher power stage; input driver; inverter; low-Q circuits; performance curves; power amplifiers; series-tuned circuit; switching circuits; tuning procedure; Circuit optimization; DC generators; DC-DC power converters; Harmonic analysis; Heating; High power amplifiers; Power amplifiers; Power system harmonics; Q factor; Radio frequency;
Journal_Title :
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
