Qualitative Analysis and Control of a DC-to-DC Boost Converter Operating in Discontinuous Mode

C. K. TSE; K. M. ADAMS

doi:10.1109/63.56523

Qualitative Analysis and Control of a DC-to-DC Boost Converter Operating in Discontinuous Mode

C. K. TSE, K. M. ADAMS

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

27 Citations (Scopus)

Abstract

The boost cell operating in discontinuous conduction mode-based on an approximate discrete-time difference equation is investigated. A qualitative discussion of the steady-state and open-loop dynamical behavior is first presented. A linearized small-signal equation is derived that leads to a linear feedforward control law for regulating this type of converter. This conventional linear scheme provides satisfactory control in the neighborhood of the operating point, but ceases to meet the requirement as soon as the small-signal assumption is violated. A nonlinear feedforward control law, whose validity extends over a wider range of fluctuation of the variables about the operating point, is proposed along with some simulation results that confirm the superiority of the proposed nonlinear control over its linear counterpart. © 1990 IEEE

Original language	English
Pages (from-to)	323-330
Journal	IEEE Transactions on Power Electronics
Volume	5
Issue number	3
DOIs	https://doi.org/10.1109/63.56523
Publication status	Published - Jul 1990
Externally published	Yes

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title = "Qualitative Analysis and Control of a DC-to-DC Boost Converter Operating in Discontinuous Mode",

abstract = "The boost cell operating in discontinuous conduction mode-based on an approximate discrete-time difference equation is investigated. A qualitative discussion of the steady-state and open-loop dynamical behavior is first presented. A linearized small-signal equation is derived that leads to a linear feedforward control law for regulating this type of converter. This conventional linear scheme provides satisfactory control in the neighborhood of the operating point, but ceases to meet the requirement as soon as the small-signal assumption is violated. A nonlinear feedforward control law, whose validity extends over a wider range of fluctuation of the variables about the operating point, is proposed along with some simulation results that confirm the superiority of the proposed nonlinear control over its linear counterpart. {\textcopyright} 1990 IEEE",

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N2 - The boost cell operating in discontinuous conduction mode-based on an approximate discrete-time difference equation is investigated. A qualitative discussion of the steady-state and open-loop dynamical behavior is first presented. A linearized small-signal equation is derived that leads to a linear feedforward control law for regulating this type of converter. This conventional linear scheme provides satisfactory control in the neighborhood of the operating point, but ceases to meet the requirement as soon as the small-signal assumption is violated. A nonlinear feedforward control law, whose validity extends over a wider range of fluctuation of the variables about the operating point, is proposed along with some simulation results that confirm the superiority of the proposed nonlinear control over its linear counterpart. © 1990 IEEE

AB - The boost cell operating in discontinuous conduction mode-based on an approximate discrete-time difference equation is investigated. A qualitative discussion of the steady-state and open-loop dynamical behavior is first presented. A linearized small-signal equation is derived that leads to a linear feedforward control law for regulating this type of converter. This conventional linear scheme provides satisfactory control in the neighborhood of the operating point, but ceases to meet the requirement as soon as the small-signal assumption is violated. A nonlinear feedforward control law, whose validity extends over a wider range of fluctuation of the variables about the operating point, is proposed along with some simulation results that confirm the superiority of the proposed nonlinear control over its linear counterpart. © 1990 IEEE

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DO - 10.1109/63.56523

M3 - RGC 21 - Publication in refereed journal

SN - 0885-8993

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EP - 330

JO - IEEE Transactions on Power Electronics

JF - IEEE Transactions on Power Electronics

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ER -

Qualitative Analysis and Control of a DC-to-DC Boost Converter Operating in Discontinuous Mode

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