Design, modelling and stability analysis of an integrated shipboard DC power system

This paper discusses the design, modelling and analysis of a DC power system for shipboard applications. A 24 pulse controlled rectifier converts the generator output to 1,000 VDC through a 12 phase transformer. This paper derives a model of the system and presents time domain simulations. Stability...

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Main Authors: Julian, A.L., Cuzner, R.M.
Format: Conference Proceeding
Language:English
Subjects:
Phase transformers
Power system analysis computing
Power system modeling
Power system simulation
Power system stability
Pulse generation
Pulse power systems
Pulse transformers
Rectifiers
Stability analysis
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Cuzner, R.M.
description This paper discusses the design, modelling and analysis of a DC power system for shipboard applications. A 24 pulse controlled rectifier converts the generator output to 1,000 VDC through a 12 phase transformer. This paper derives a model of the system and presents time domain simulations. Stability analysis is accomplished by applying the Nyquist Criterion.
doi_str_mv 10.1109/ESTS.2009.4906547
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ispartof 2009 IEEE Electric Ship Technologies Symposium, 2009, p.428-432
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Phase transformers
Power system analysis computing
Power system modeling
Power system simulation
Power system stability
Pulse generation
Pulse power systems
Pulse transformers
Rectifiers
Stability analysis
title Design, modelling and stability analysis of an integrated shipboard DC power system
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