Exploration of Deadbeat Control for DC-DC Converters as Hybrid Systems

The concept of large signal controllability for switched electrical networks is reviewed for DC-DC converters. Small signal models and controllers are limited by assumptions of fixed operating point. Hybrid system representations allow use of geometric control methods including sliding mode and boun...

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Bibliographic Details
Main Authors: Mossoba, J.T., Krein, P.T.
Format: Conference Proceeding
Language:English
Subjects:
Control systems
Controllability
DC-DC power converters
Differential equations
Nonlinear dynamical systems
Sliding mode control
Solid modeling
Steady-state
Switches
Switching converters
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Description
Summary:The concept of large signal controllability for switched electrical networks is reviewed for DC-DC converters. Small signal models and controllers are limited by assumptions of fixed operating point. Hybrid system representations allow use of geometric control methods including sliding mode and boundary based switching controls. The comparison of geometric control response with small signal response shows a fundamental difference: only geometric methods are capable of deadbeat (finite time duration) recovery to steady-state after a transient disturbance. However, these deadbeat geometric laws are only known for second order systems. The possibility of deadbeat control for higher order DC-DC converter systems is examined
ISSN:0275-9306
2377-6617
DOI:10.1109/PESC.2005.1581751