R. D. Middlebrook scite author profile

A method for modelling switching-converter power stages is developed, whose starting point is the unified state-space representation of the switched networks and whose end result is either a complete state-space description or its equivalent small-signal low<-f requency linear circuit model.A new canonical circuit model is proposed, whose fixed topology contains all the essential inputr-output and control properties of any dc-todc switching converter, regardless of its detailed configuration, and by which different converters can be characterized in the form of a table con veniently stored in a computer data bank to pro vide a useful tool for computer aided design and optimization. The new canonical circuit model predicts that, in general;switching action intro duces both zeros and poles into the duty ratio to output transfer function in addition to those from the effective filter network.

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A general unified approach to modelling switching-converter power stages

Middlebrook

Cuk

1977

International Journal of Electronics

1,347

216

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A method for modelling switching-converter power stages is developed, whose starting point is the unified state-space representation of the switched networks and whose end result is either a complete state-space description or its equivalent small-signal low<-f requency linear circuit model. A new canonical circuit model is proposed, whose fixed topology contains all the essential inputr-output and control properties of any dc-todc switching converter, regardless of its detailed configuration, and by which different converters can be characterized in the form of a table con veniently stored in a computer data bank to pro vide a useful tool for computer aided design and optimization. The new canonical circuit model predicts that, in general;switching action intro duces both zeros and poles into the duty ratio to output transfer function in addition to those from the effective filter network.

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A unified model for current-programmed converters

Tan¹,

Middlebrook²

1995

IEEE Trans. Power Electron.

238

133

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Abstruct-A unified model is established for a currentprogrammed converter, which is both a modification and an extension of familiar models. Inclusion of the sampling effect allows the presence of an additional pole up in the current-loop gain to be derived. The resulting final double-slope asymptote is fixed in position, and the crossover frequency cannot exceed half the switching frequency. A stability parameter, Q 3 , determines the additional pole and describes the degree of peaking in the closed-loop transfer function. Experimental verification employs an analog signal injection technique.

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Topics in multiple-loop regulators and current-mode programming

Middlebrook

1985

134

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A general unified approach to modelling switching DC-tO-DC converters in discontinuous conduction mode

1977

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R. D. Middlebrook

A general unified approach to modelling switching-converter power stages

A general unified approach to modelling switching-converter power stages

A unified model for current-programmed converters

Topics in multiple-loop regulators and current-mode programming

A general unified approach to modelling switching DC-tO-DC converters in discontinuous conduction mode

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