These circuits are able to main-tain zero-voltage switching and, hence, high efficiency for a wide load range without requiring tuning or use of a feedback loop, and to simultaneously achieve a consta...
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This paper presents the design, simulation, and experimental validation of a load-independent class E inverter tailored for biomedical implant applications.
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In this work, a graphical tool is introduced based on a class E inverter in-depth analysis. The presented design method is generic and can be applied to any set of output power (or input voltage), switching
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Abstract—This paper presents a unified framework for the modeling, analysis, and design of load-independent Class E and Class EF inverters and rectifiers.
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Class E inverters are widely used in very high-frequency power converters due to their ease of driving, their high efficiency, and their low component count.
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To simultaneously resolve both load sensitivity and high voltage stress—two persistent challenges in Class E design—this paper proposes a novel clamped load-independent Class E inverter.
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This paper introduces a design methodology that enables rapid synthesis of class E inverters that maintain ZVS operation over a wide range of resistive loads. We also show how the proposed
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We describe some recent research advances and implementations of class-E rec-tifiers and dc-to-dc converters at ultrahigh frequency (UHF) and beyond.
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Our paper presents a high-efficiency CC class-E inverter with the LAC that includes an external Q factor to achieve the target output without relying on an LC element implementation.
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Based on these facts, this paper mainly intends to understand the comparative performances of the class E and selected enhanced class E inverters in various configurations
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This document summarizes the design, modeling, simulation, and experimental testing of a 323W, 1MHz Class E inverter with 97% efficiency. The inverter uses a new generation CoolMOS transistor and
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