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A systematic approach to constant power load stabilization by passive damping

A systematic approach to constant power load stabilization by passive damping
A systematic approach to constant power load stabilization by passive damping
We illustrate a novel design methodology for the stabilization of power converters with constant-power loads by passive damping. In our formulation of the problem we allow the destabilizing loads to be modeled by frequency dependent negative impedances. Our methodology is based on the solution of bilinear- and linear matrix inequalities, for which standard numerical solvers can be used.
Mayo-Maldonado, Jonathan
5ae0d57e-88ea-4758-a9a3-44b0210a14b9
Rapisarda, Paolo
79efc3b0-a7c6-4ca7-a7f8-de5770a4281b
Mayo-Maldonado, Jonathan
5ae0d57e-88ea-4758-a9a3-44b0210a14b9
Rapisarda, Paolo
79efc3b0-a7c6-4ca7-a7f8-de5770a4281b

Mayo-Maldonado, Jonathan and Rapisarda, Paolo (2015) A systematic approach to constant power load stabilization by passive damping. 54th IEEE Conference on Decision and Control, , Osaka, Japan. 15 - 18 Dec 2015.

Record type: Conference or Workshop Item (Paper)

Abstract

We illustrate a novel design methodology for the stabilization of power converters with constant-power loads by passive damping. In our formulation of the problem we allow the destabilizing loads to be modeled by frequency dependent negative impedances. Our methodology is based on the solution of bilinear- and linear matrix inequalities, for which standard numerical solvers can be used.

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More information

Published date: 2015
Venue - Dates: 54th IEEE Conference on Decision and Control, , Osaka, Japan, 2015-12-15 - 2015-12-18
Organisations: Vision, Learning and Control

Identifiers

Local EPrints ID: 381344
URI: http://eprints.soton.ac.uk/id/eprint/381344
PURE UUID: 0ab60a69-4964-44a5-9e23-f8c367d0a72c

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Date deposited: 17 Sep 2015 08:46
Last modified: 26 Apr 2022 18:41

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Contributors

Author: Jonathan Mayo-Maldonado
Author: Paolo Rapisarda

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