This paper presents a completely new technique developed to locate a single parametric fault in DC-DC power converters by means of time-domain measurements or simulations, following a rigorous approach. The technique is composed by three separated stages, a first one which evaluates testability and ambiguity groups of the Converter (or, more in general, the Circuit) Under Test (CUT), a second one which localizes the fault, classifying it in an appropriate Fault Class (FC) and a last one (optional) that can extract the value of the faulty component. The fabrication tolerances of the healthy components are taken into account at each stage of the method.
A multi-step approach to the single fault diagnosis of DC-DC switched power converters / I. Aizenberg, F. Corti, F. Grasso, A. Luchetta, S. Manetti, M.C. Piccirilli, A. Reatti, M. K. Kazimierczuk. - ELETTRONICO. - (2018), pp. 1-5. (Intervento presentato al convegno 2018 IEEE International Symposium on Circuits and Systems (ISCAS) tenutosi a Firenze nel 27-30 May 2018).
A multi-step approach to the single fault diagnosis of DC-DC switched power converters
F. Corti;F. Grasso;A. Luchetta;S. Manetti;M. C. Piccirilli;A. Reatti;
2018
Abstract
This paper presents a completely new technique developed to locate a single parametric fault in DC-DC power converters by means of time-domain measurements or simulations, following a rigorous approach. The technique is composed by three separated stages, a first one which evaluates testability and ambiguity groups of the Converter (or, more in general, the Circuit) Under Test (CUT), a second one which localizes the fault, classifying it in an appropriate Fault Class (FC) and a last one (optional) that can extract the value of the faulty component. The fabrication tolerances of the healthy components are taken into account at each stage of the method.
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