The mathematical modeling of a brushless DC generator is described, as an illustration of the application of diakoptic techniques to the analysis of small-scale electrical power supply systems. Modeling of the generator and its output rectifier is accomplished using an established matrix technique that accounts for the continuously changing conduction pattern of the diode bridge network. The advantages of using diakoptics are discussed together with the main generator linked to its exciter and to the automatic voltage regulator and permanent magnet generator which are often included in a complete unit. A solution algorithm is presented for this overall arrangement and a comparison is made between theoretical and practical results for a typical 3-stage, 4000-rev/min, 10.3-kW, 28-V unit.<>
Modeling of brushless DC generating systems using diakoptics
IEEE Transactions on Aerospace and Electronic Systems ; 29 , 1 ; 100-110
01.01.1993
1240076 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Modeling of Brushless DC Generating Systems Using Diakoptics
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