Your search keyword '"triple buck converter"' showing total 2 results

1. Triple buck converter – an efficient low-distortion switch-mode power amplifier topology

Author

Mario Mauerer and Johann Walter Kolar

Subjects

bridge circuits, inductors, harmonic distortion, dc-dc power convertors, mechatronics, amplifiers, power convertors, switched mode power supplies, switching convertors, power amplifiers, power levels, triple buck converter, low-distortion switch-mode power amplifier topology, high conversion efficiency, low-output signal distortion, ultra-high precision amplifiers, nanometre-accuracy mechatronic positioning applications, integrated semiconductor manufacturing, efficient class-d power stage, inherent half-bridge interlock time, dual buck conversion stage, half-bridge switching waveforms, low-harmonic output signal distortion, converter stages, conversion efficiencies, output total harmonic distortion values, noise figure -100.0 db, Engineering (General). Civil engineering (General), TA1-2040

Abstract

A switch-mode power amplifier topology that can achieve both a high conversion efficiency and low-output signal distortion is introduced. Such systems are desirable for ultra-high precision amplifiers that, for example, drive actuators in nanometre-accuracy mechatronic positioning applications in integrated semiconductor manufacturing. An efficient Class-D power stage, which is limited in output signal quality due to its inherent half-bridge interlock time, is combined through a magnetically coupled inductor with a dual buck conversion stage that does not require interlock time and, due to its circulating bias current that defines the half-bridge switching waveforms, achieves very low-harmonic output signal distortion. The control system can seamlessly adjust the current sharing of the two converter stages such that overall conversion efficiencies over 95% and output total harmonic distortion values below −100 dB are achievable at power levels up to several kilowatts. Detailed computer simulations demonstrate the feasibility of the concept.

Published

2019

2. Triple buck converter – an efficient low-distortion switch-mode power amplifier topology.

Author

Mauerer, Mario and Kolar, Johann Walter

Subjects

POWER amplifiers, ACTUATORS, MECHATRONICS, HARMONIC distortion (Physics), ELECTRONIC amplifiers

Abstract

A switch-mode power amplifier topology that can achieve both a high conversion efficiency and low-output signal distortion is introduced. Such systems are desirable for ultra-high precision amplifiers that, for example, drive actuators in nanometre-accuracy mechatronic positioning applications in integrated semiconductor manufacturing. An efficient Class-D power stage, which is limited in output signal quality due to its inherent half-bridge interlock time, is combined through a magnetically coupled inductor with a dual buck conversion stage that does not require interlock time and, due to its circulating bias current that defines the half-bridge switching waveforms, achieves very low-harmonic output signal distortion. The control system can seamlessly adjust the current sharing of the two converter stages such that overall conversion efficiencies over 95% and output total harmonic distortion values below −100 dB are achievable at power levels up to several kilowatts. Detailed computer simulations demonstrate the feasibility of the concept. [ABSTRACT FROM AUTHOR]

Published

2020