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Inductance current interrupted mode fractional order switch converter symbol analysis method

An inductive current discontinuous, switching converter technology, applied in electrical digital data processing, instruments, special data processing applications, etc., can solve problems such as the inability to obtain the steady-state period analytical solution of the state variable, and the difficulty in analytically analyzing the peak-to-peak value of the ripple.

Active Publication Date: 2016-12-14
SOUTH CHINA UNIV OF TECH
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Problems solved by technology

According to this idea, existing technologies (such as reference 4 "Wang Faqiang, Ma Xikui. Fractional-order modeling and simulation analysis of Boost converter under inductor current continuous mode [J]. Acta Physica Sinica, 2011, 60(7). 070506- 1–070506-8”, etc.) studied the fractional-order switching converters in the inductor current continuous and pseudo-continuous operating modes, image 3 and Figure 4 are separately passed figure 1 and figure 2 The capacitor voltage and inductor current waveforms obtained by the model established in , the existing technology is to show the operating characteristics of the fractional-order switching converter by building a modular model in Matlab / Simulink, and show the steady state by means of simulated waveforms The ripple of the converter state variable; this method cannot obtain the steady-state periodic analytical solution of the state variable, and it is difficult to analytically analyze the peak-to-peak value of the ripple

Method used

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  • Inductance current interrupted mode fractional order switch converter symbol analysis method
  • Inductance current interrupted mode fractional order switch converter symbol analysis method
  • Inductance current interrupted mode fractional order switch converter symbol analysis method

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Embodiment Construction

[0058] The present invention will be further described below in conjunction with specific examples.

[0059] The symbolic analysis method for the fractional-order switching converter in the inductor current discontinuous mode described in this embodiment includes the following steps:

[0060] 1) Establish the mathematical model of the fractional-order switching converter

[0061] The system state of the fractional order DC-DC converter working in the inductor current discontinuous mode DCM state is described as:

[0062]

[0063] In the formula, x=[i Lm v Cm ] T Represents the state variables of the system, including the current i on the mth inductor Lm , the voltage v on the mth capacitor Cm , p represents the order of the corresponding system state variables on the corresponding inductance L and capacitance C components, A 0 and B 0 Represent the coefficient matrix not affected by the switching function, A 1 B 1 and A 3 B 3 respectively represent the coefficie...

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Abstract

The invention discloses an inductance current interrupted mode fractional order switch converter symbol analysis method combining a harmonic wave balance principle; the method converts differential operation relating to status variable fractional order in a converter into differential operators, and combines all differential operators into an opposite angle symbol matrix, thus converting a non-integer order calculus operation solving process into a matrix operation and linear equation (group) solving process. Compared with a conventional normal analysis method, aiming at the fractional order switch converter, of building an Oustaloup filter approximation model in a Matlab / Simulink, the novel method can parse and analyze converter status variable ripple peak-to-peak value size and influences on converter work status by energy storage element order changes, can fast obtain a status variable stable state periodic analytic solution, and can parse status variable harmonic wave components.

Description

technical field [0001] The invention relates to the field of modeling and analysis of fractional-order switching converters, in particular to a symbolic analysis method for fractional-conduction-conduction mode (DCM, Discontinuous-conduction Mode) switching converters. Background technique [0002] In the past, the commonly used modeling and analysis methods for switching converters include: models based on state space averaging, discrete iterative mapping models, piecewise linear models based on circuit principles (KCL, KVL), and methods that combine harmonic balance and disturbance methods, etc. Effective small parameter method, the analysis objects of these methods are all integer-order switching converters, that is, the capacitors and inductors in the converter are all integer-order components, but the existing reference 1 "Westerlund S. Dead Matter Has Memory [M ]. Kalmar, Sweden: Causal Consulting, 2002, Chap.7." and reference 2 "PodlubnyI.Fractional Differential Equat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
CPCG06F30/20
Inventor 陈艳峰胡劼陈曦张波
Owner SOUTH CHINA UNIV OF TECH
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