This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Modeling Considerations and Stability Analysis of Aerospace Power Systems with Hybrid AC/DC Distribution
Technical Paper
2006-01-3038
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Event:
Power Systems Conference
Language:
English
Abstract
The modeling and simulation of electrical power systems has become a primary design tool for the synthesis of aerospace power systems with hybrid AC/DC distribution. Although in the past the use of extensive time domain simulations using detailed models has been favored, the need to study stability and associated phenomena in this type of power systems-having a high penetration of power electronics loads-has transformed the modeling requirements for aerospace applications. This paper explores different modeling aspects required to study both small-signal and large-signal stability in these systems, providing insight into the development of key system component models-variable frequency generators, line-commutated converters, PWM motor drives and constant power loads, as well as the theoretical foundations based on the Generalized Nyquist Criterion and the Lyapunov Direct and Indirect Methods to fully assess the stability conditions of these power systems. Modeling and design examples using Matlab/Simulink are used for verification purposes.
Recommended Content
Authors
- Rolando Burgos - Virginia Polytechnic Institute and State University
- Sebastian Rosado - Virginia Polytechnic Institute and State University
- Fred Wang - Virginia Polytechnic Institute and State University
- Dushan Boroyevich - Virginia Polytechnic Institute and State University
- Zachary Lewis - The Boeing Company
- Kamiar Karimi - The Boeing Company
Citation
Burgos, R., Rosado, S., Wang, F., Boroyevich, D. et al., "Modeling Considerations and Stability Analysis of Aerospace Power Systems with Hybrid AC/DC Distribution," SAE Technical Paper 2006-01-3038, 2006, https://doi.org/10.4271/2006-01-3038.Also In
References
- Quigley R. “More Electric Aircraft” in Conf. IEEE APEC’93 906 911 Mar 1993
- Cloyd J. “Status of the United States Air Force’s MEA Initiative” IEEE AES Systems Mag. 13 4 17 22 Apr 1998
- Jones R. “The More Electric Aircraft: The Past and The Future?” Elec. Machines and Sys. For MEA, IEE Colloquium 1/1 1/4 Nov 1999
- Cutts S. “A Collaborative Approach to the More Electric Aircraft” in Conf. IEE PEMD’02 223 228 Apr 2002
- Bell D.J. Cook P.A. Munro N. Design of Modern Control Systems Peter Peregrinus Ltd. New York 1982
- MacFarlane A.G.J. Frequency-Response Methods in Control Systems IEEE Press, Inc. New York 1979
- MacFarlane A.G.J. Complex Variable Methods for Linear Multivariable Feedback Systems Taylor & Francis Ltd London 1980
- Belkhayat M. “Stability Criteria for AC Power Systems with Regulated Loads” PhD Thesis Perdue University Dec 1997
- Chandrasekaran S. “Subsystem Design in Aircraft Power Distribution Systems using Optimization” PhD Dissertation Virginia Tech May 2000
- Hiti S. “Modeling and Control of Three-Phase PWM Converters” PhD Dissertation Virginia Tech July 1995
- Hill D. “Nonlinear Dynamic Load Models with Recovery for Voltage Stability Studies” IEEE Trans. Power Systems 8 1 Feb 1993
- Postlethwaite I. MacFarlane A.G.J. “A Complex Variable Approach to the Analysis of Linear Multivariable Feedback Systems” Balakrishnan A.V. Thoma M. Lecture Notes in Control and Information Sciences 12 Springer-Verlag Berlin 1979
- Jadric I. Boroyevich D. Jadric M. “Modeling and Control of a Synchronous Generator with an Active DC Load” IEEE Trans. on Power Electronics 15 2 Mar 2000 303 311
- Sudhoff S.D. Wasynczuk O. “Analysis and average-value modeling of line-commutated converter-synchronous machine systems” IEEE Trans. of Energy Conversion 8 1 Mar 1993 92 99
- Zhu H. Burgos R. Lacaux F. Uan-Zo-li A. Lindner D. Wang F. Boroyevich D. “Average modeling of three-phase and nine-phase diode rectifiers with improved AC and DC dynamics” in Proc. IEEE IECON’05 1024 1029 Nov 2005
- Zhu H. Burgos R. Lacaux F. Uan-Zo-li A. Lindner D. Wang F. Boroyevich D. “Evaluation of average models for nine-phase diode rectifiers with improved AC and DC dynamics” in Proc. IEEE APEC’06 1324 1330 Mar 2006
- Anderson P. M. Fouad A. A. Power System Control and Stability IEEE-Press Piscataway NJ 1994
- Venkatasubramanian V. Zaborsky J. “Voltage Dynamics: Study of a Generator with Voltage Control, Transmission and a Matched MW Load” IEEE Trans. On Automatic Control 37 11 1992
- Machowski J. Bialek J. Bumby J. Power Systems Dynamic and Stability John Wiley & Sons 1997
- Krause P. C. Wasynczuk O. Sudhoff S. Analysis of electric Machinery and Drive Systems 2 IEEE-Press & Wiley Interscience 2002
- Rosado S. Ma X. Han C. Wang F. Boroyevich D. “Model-based digital controller for a variable frequency synchronous generator with brushless exciter” Proc. 36 th IEEE Power Electronics Specialist Conf., PESC’05 90 95 2005
- Knyazkin V. Canizares C. Soder L. “On the Parameter Estimation and Modeling of Aggregate Power System Loads” IEEE Trans. Power Systems 19 2 2004
- Munro N. Modern Approaches to Control System Design Peter Peregrinus Ltd. & IEE New York and London 1979
- Khalil H. Nonlinear Systems 3 rd Prentice-Hall 2000
- Fouad A. Vittal V. Power System Transient Stability Analysis Using the Transient Energy Function Method Prentice Hall 1992
- Machowski J. Bialek J. Robak S. Bumby J. “Excitation control system for use with synchronous generators” IEE Proc-Generation, Transmission and Distribution 145 537 546 Sept 1998
- Halim A. Takahashi K. “An Application of Linear Matrix Inequality Method for Power System Transient Stability Analysis” IEEE Power Eng Soc Summer Meeting 2000 2 675 680 July 2000
- Boyd S. Ghaoudi L. Feron E. Balakrishnan V. Linear Matrix Inequalities in System and Control Theory Siam Studies in Applied Mathematics 1994
- Loop B. “Estimating Regions of Attraction of Asymptotic Stability of Nonlinear Systems with Applications to Power Electronic Systems PhD Thesis Purdue University May 2005
- Loop B.P. Sudhoff S.D. Zak S.H. Zivi E.L. “An optimization approach to estimating stability regions using genetic algorithms” Proc. American Control Conference 1 231 236 June 2005
- Sakaguchi H. Ishigame A. Suzaki S. “Transient stability assessment for power system via Lur’e type Lyapunov function” IEEE Power Systems Conference & Exposition 1 227 32 2004