Five-Terminal Switched Transformer Average Modeling and AC Analysis of PFC Converters

A simple and accurate five-terminal switched transformer average model is proposed and its generalized equations are derived. The proposed model is capable of both time domain and AC analysis of DC-DC, AC-DC, and is especially suitable for single-stage power factor correction (PFC) converters. Unlik...

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Veröffentlicht in:	IEEE transactions on power electronics 2007-11, Vol.22 (6), p.2352-2362
Hauptverfasser:	Rustom, K., Weihong Qiu, Iannello, C., Batarseh, I.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accuracy Analog-digital conversion Applied sciences Average modeling Buses (vehicles) Circuit properties Converters DC-DC power converters Electric power Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electronic circuits Electronic equipment and fabrication. Passive components, printed wiring boards, connectics Electronics Equations Exact sciences and technology Frequencies Frequency domain analysis Inductance Mathematical models modeling and simulation of power factor correction (PFC) converters Power electronics, power supplies Power factor correction Signal convertors Simulation Switching Switching converters Time domain Time domain analysis Topology Transformers Transformers and inductors
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creator	Rustom, K. Weihong Qiu Iannello, C. Batarseh, I.
description	A simple and accurate five-terminal switched transformer average model is proposed and its generalized equations are derived. The proposed model is capable of both time domain and AC analysis of DC-DC, AC-DC, and is especially suitable for single-stage power factor correction (PFC) converters. Unlike other models presented in literature, the proposed switching cell includes the transformer leakage inductance, an intermediate bus input, and still addresses both continuous and discontinuous conduction modes. The model was applied to two topologies, the bi-flyback and the flyboost parallel/series forward converters. The time domain results show great accuracy when compared with the slower and time consuming switching simulation. The AC analysis is also predicted with greater accuracy exposing the dynamics of such converters, a task that was not as easily addressed before when the unique characteristics of single-stage are considered. The frequency domain analysis was also verified with experimental results for the bi-flyback converter. The model is very relevant to isolated flyback converters including the PFC examples provided, which are not as easily or as accurately modeled by other approaches.
doi_str_mv	10.1109/TPEL.2007.909193
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The proposed model is capable of both time domain and AC analysis of DC-DC, AC-DC, and is especially suitable for single-stage power factor correction (PFC) converters. Unlike other models presented in literature, the proposed switching cell includes the transformer leakage inductance, an intermediate bus input, and still addresses both continuous and discontinuous conduction modes. The model was applied to two topologies, the bi-flyback and the flyboost parallel/series forward converters. The time domain results show great accuracy when compared with the slower and time consuming switching simulation. The AC analysis is also predicted with greater accuracy exposing the dynamics of such converters, a task that was not as easily addressed before when the unique characteristics of single-stage are considered. The frequency domain analysis was also verified with experimental results for the bi-flyback converter. 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Passive components, printed wiring boards, connectics ; Electronics ; Equations ; Exact sciences and technology ; Frequencies ; Frequency domain analysis ; Inductance ; Mathematical models ; modeling and simulation of power factor correction (PFC) converters ; Power electronics, power supplies ; Power factor correction ; Signal convertors ; Simulation ; Switching ; Switching converters ; Time domain ; Time domain analysis ; Topology ; Transformers ; Transformers and inductors</subject><ispartof>IEEE transactions on power electronics, 2007-11, Vol.22 (6), p.2352-2362</ispartof><rights>2007 INIST-CNRS</rights><rights>Copyright Institute of Electrical and Electronics Engineers, Inc. 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The proposed model is capable of both time domain and AC analysis of DC-DC, AC-DC, and is especially suitable for single-stage power factor correction (PFC) converters. Unlike other models presented in literature, the proposed switching cell includes the transformer leakage inductance, an intermediate bus input, and still addresses both continuous and discontinuous conduction modes. The model was applied to two topologies, the bi-flyback and the flyboost parallel/series forward converters. The time domain results show great accuracy when compared with the slower and time consuming switching simulation. The AC analysis is also predicted with greater accuracy exposing the dynamics of such converters, a task that was not as easily addressed before when the unique characteristics of single-stage are considered. The frequency domain analysis was also verified with experimental results for the bi-flyback converter. The model is very relevant to isolated flyback converters including the PFC examples provided, which are not as easily or as accurately modeled by other approaches.</description><subject>Accuracy</subject><subject>Analog-digital conversion</subject><subject>Applied sciences</subject><subject>Average modeling</subject><subject>Buses (vehicles)</subject><subject>Circuit properties</subject><subject>Converters</subject><subject>DC-DC power converters</subject><subject>Electric power</subject><subject>Electric, optical and optoelectronic circuits</subject><subject>Electrical engineering. Electrical power engineering</subject><subject>Electronic circuits</subject><subject>Electronic equipment and fabrication. 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The proposed model is capable of both time domain and AC analysis of DC-DC, AC-DC, and is especially suitable for single-stage power factor correction (PFC) converters. Unlike other models presented in literature, the proposed switching cell includes the transformer leakage inductance, an intermediate bus input, and still addresses both continuous and discontinuous conduction modes. The model was applied to two topologies, the bi-flyback and the flyboost parallel/series forward converters. The time domain results show great accuracy when compared with the slower and time consuming switching simulation. The AC analysis is also predicted with greater accuracy exposing the dynamics of such converters, a task that was not as easily addressed before when the unique characteristics of single-stage are considered. The frequency domain analysis was also verified with experimental results for the bi-flyback converter. 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subjects	Accuracy Analog-digital conversion Applied sciences Average modeling Buses (vehicles) Circuit properties Converters DC-DC power converters Electric power Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electronic circuits Electronic equipment and fabrication. Passive components, printed wiring boards, connectics Electronics Equations Exact sciences and technology Frequencies Frequency domain analysis Inductance Mathematical models modeling and simulation of power factor correction (PFC) converters Power electronics, power supplies Power factor correction Signal convertors Simulation Switching Switching converters Time domain Time domain analysis Topology Transformers Transformers and inductors
title	Five-Terminal Switched Transformer Average Modeling and AC Analysis of PFC Converters
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