Open AccessFast functional modelling of diode‐bridge rectifier using dynamic phasors
Author(s) -
Yang Tao,
Bozhko Serhiy,
Asher Greg
Publication year - 2015
Publication title -
iet power electronics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.637
H-Index - 77
eISSN - 1755-4543
pISSN - 1755-4535
DOI - 10.1049/iet-pel.2014.0414
Subject(s) - phasor , interfacing , rectifier (neural networks) , computer science , bridge (graph theory) , line (geometry) , power (physics) , diode , electric power system , electronic engineering , control theory (sociology) , engineering , electrical engineering , physics , geometry , mathematics , control (management) , machine learning , computer hardware , medicine , stochastic neural network , quantum mechanics , artificial intelligence , recurrent neural network , artificial neural network
In this study, a functional model for diode‐bridge (DB) rectifiers is developed based on the dynamic phasor concept. The developed model is suitable for accelerated simulation studies of the electric power systems under normal, unbalanced and line faulty conditions. The high accuracy and efficiency of the developed model have been demonstrated by comparison against three‐phase time‐domain model and against the model employing synchronous space‐vector representations. The experimental verification of the developed model is also reported. In addition, an error analysis shows that the error of the developed model is <10% at the most severe unbalanced conditions. The prime purpose of the model is for the simulation studies of more‐electric aircraft power architectures at a system level; however, it can be directly applied for simulation study of any other electrical power system interfacing with uncontrolled DB rectifiers.