Modeling, control and stability analysis of a PEBB based DC DPS
Thandi, G.S.
Zhang, R.
Xing, K.
Lee, F.C.
Boroyevich, D.
Analog Devices, Santa Clara, CA;
This paper appears in: Power Delivery, IEEE Transactions on
Publication Date: Apr 1999
Volume: 14,
Issue: 2
On page(s): 497-505
ISSN: 0885-8977
References Cited: 8
CODEN: ITPDE5
INSPEC Accession Number: 6218011
Digital Object Identifier: 10.1109/61.754094
Current Version Published: 2002-08-06
Abstract
The Power Electronic Building Block (PEBB) concept is to provide
generic building blocks for power conversion, regulation and
distribution with control intelligence and autonomy. A comprehensive
modeling and analysis of a PEBB based DC distribution power system
(DPS), comprising of a front end power factor correction (PFC) boost
rectifier, a DC-DC converter and a three phase four leg inverter, is
performed. All the subsystems of the DC DPS are modeled and analyzed for
stability and good transient performance. The effect of impedance
overlap on the system and individual subsystems is examined. Ability of
a PEBB based converter to stabilize the integrated system by actively
changing the system bandwidth is presented
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