Excitation procedure for brushless wound-rotor synchronous starter generator with seamless transitions

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2019

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inst Engineering Technology-iet

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Abstract

An analytical model of excitation system of brushless wound-rotor synchronous starter generator for aircraft applications is developed and presented in this study. During engine start-up process, the starter generator operates as a motor to start the aircraft turbine and to assist it up to the self-sustaining speed. On the basis of rotation speed of the starter generator in the engine start-up process, there are three excitation modes for the exciter and two transient modes for the field current of the main generator (MG). In this study, for each excitation mode, the relationship between the excitation current (field current of the exciter) and the field current of MG is investigated by taking into account the influence of power electronic parts. This study also proposes a control method for the generator field current in all excitation modes which can detect optimum operating points for transition between excitation modes. Furthermore, a seamless transient control strategy is proposed for the transient modes of the generator field current. Simulation and experimental results are provided to demonstrate the feasibility of the proposed solution.

Description

Ozturk, Salih B/0000-0001-8322-4066; Deriszadeh, Adel/0000-0002-9100-1978

Keywords

rotors, synchronous generators, power electronics, machine control, starting, brushless machines, turbines, aerospace components, aircraft control, electric current control, transient analysis, brushless wound-rotor synchronous starter generator, excitation system, excitation mode, exciter, transient modes, main generator, excitation current, generator field current, aircraft applications, engine start-up process, aircraft turbine, self-sustaining speed, power electronics, control method, optimum operating point detection, seamless transient control strategy, seamless transitions

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5

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Volume

12

Issue

11

Start Page

2873

End Page

2883