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A clamping-circuit-based voltage measurement system for high-frequency flying capacitor multilevel inverters

A clamping-circuit-based voltage measurement system for high-frequency flying capacitor multilevel inverters
A clamping-circuit-based voltage measurement system for high-frequency flying capacitor multilevel inverters

In an era where high-frequency flying capacitor (FC) multilevel inverters (MLIs) are increasingly gaining attention in energy conversion systems that push the boundaries of power density, the need for a compact, fast, and accurate FC voltage monitoring system is also increasing. In this article, we designed and developed a new FC measurement system, based on precise sampling of the inverter switching node voltage, through a bidirectional clamping circuit. The deviation of FC voltages from their nominal values is extracted by solving a set of linear equations. With a single sensor per phase and no isolation requirements, as opposed to dozens of sensors in traditional FC monitoring, our approach results in significantly lower cost, complexity, and circuit size. Detailed device-level simulations in LTspice and system-scale simulations in MATLAB validate the accuracy and speed of the proposed measurement system and the balancing strategy in steady-state, abrupt load change, and imbalance conditions. Experiments carried out in a three-phase gallium nitride five-level inverter prototype reveal a gain in precision and bandwidth that is more than 30 times that of conventional methods, at a fraction of their cost and footprint. The recorded performance renders the developed sensor an ideal solution for fast MLIs based on wide-bandgap technology.

Active balancing, clamping circuit, flying capacitor, gallium nitride, multilevel inverters, voltage measurement, wide band gap semiconductors
0885-8993
12301-12315
Kampitsis, Georgios
4bba7bcf-6422-4bf9-8996-528e7da1984e
Batzelis, Efstratios I.
2a85086e-e403-443c-81a6-e3b4ee16ae5e
Mitcheson, Paul D.
e80570ee-f771-4aaa-9efe-0f16857b8d0e
Pal, Bikash C.
c062978e-53eb-4d5d-ace8-746ccafa5fb0
Kampitsis, Georgios
4bba7bcf-6422-4bf9-8996-528e7da1984e
Batzelis, Efstratios I.
2a85086e-e403-443c-81a6-e3b4ee16ae5e
Mitcheson, Paul D.
e80570ee-f771-4aaa-9efe-0f16857b8d0e
Pal, Bikash C.
c062978e-53eb-4d5d-ace8-746ccafa5fb0

Kampitsis, Georgios, Batzelis, Efstratios I., Mitcheson, Paul D. and Pal, Bikash C. (2022) A clamping-circuit-based voltage measurement system for high-frequency flying capacitor multilevel inverters. IEEE Transactions on Power Electronics, 37 (10), 12301-12315. (doi:10.1109/TPEL.2022.3174062).

Record type: Article

Abstract

In an era where high-frequency flying capacitor (FC) multilevel inverters (MLIs) are increasingly gaining attention in energy conversion systems that push the boundaries of power density, the need for a compact, fast, and accurate FC voltage monitoring system is also increasing. In this article, we designed and developed a new FC measurement system, based on precise sampling of the inverter switching node voltage, through a bidirectional clamping circuit. The deviation of FC voltages from their nominal values is extracted by solving a set of linear equations. With a single sensor per phase and no isolation requirements, as opposed to dozens of sensors in traditional FC monitoring, our approach results in significantly lower cost, complexity, and circuit size. Detailed device-level simulations in LTspice and system-scale simulations in MATLAB validate the accuracy and speed of the proposed measurement system and the balancing strategy in steady-state, abrupt load change, and imbalance conditions. Experiments carried out in a three-phase gallium nitride five-level inverter prototype reveal a gain in precision and bandwidth that is more than 30 times that of conventional methods, at a fraction of their cost and footprint. The recorded performance renders the developed sensor an ideal solution for fast MLIs based on wide-bandgap technology.

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e-pub ahead of print date: 10 May 2022
Published date: 1 October 2022
Keywords: Active balancing, clamping circuit, flying capacitor, gallium nitride, multilevel inverters, voltage measurement, wide band gap semiconductors

Identifiers

Local EPrints ID: 471202
URI: http://eprints.soton.ac.uk/id/eprint/471202
DOI: doi:10.1109/TPEL.2022.3174062
ISSN: 0885-8993
PURE UUID: 72a9fc0d-ca30-46c5-b592-d4c393edbb6a
ORCID for Efstratios I. Batzelis: ORCID iD orcid.org/0000-0002-2967-3677

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Date deposited: 31 Oct 2022 17:45
Last modified: 17 Mar 2024 04:06

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Contributors

Author: Georgios Kampitsis
Author: Efstratios I. Batzelis ORCID iD
Author: Paul D. Mitcheson
Author: Bikash C. Pal

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