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Electric power converter control circuit capable of achieving self-regulation of parameter of controller

A power converter, parameter self-tuning technology, applied in the direction of output power conversion devices, electrical components, etc., can solve problems such as poor adaptability, complex algorithms, and poor output power quality.

Active Publication Date: 2017-10-13
HARBIN ENG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the PI controller with fixed parameters has poor adaptability under different working conditions, and it is difficult to ensure that the expected control requirements are met during the dynamic adjustment process such as overshoot and oscillation, especially when the load changes, such problems are more prominent , resulting in poor output power quality
Although the existing PI parameter self-tuning control technology can effectively improve the control effect of the PI controller, there is a problem of complex algorithm, which needs to be further solved

Method used

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  • Electric power converter control circuit capable of achieving self-regulation of parameter of controller
  • Electric power converter control circuit capable of achieving self-regulation of parameter of controller
  • Electric power converter control circuit capable of achieving self-regulation of parameter of controller

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Experimental program
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Effect test

Embodiment 1

[0102] Power electronic device G, freewheeling diode D, filter inductor L, and filter capacitor C constitute the main circuit of the BUCK type DC-DC converter. The selection and parameter calculation of these devices are similar to those of the existing BUCK type circuit. The parameter calculations are exactly the same. If it is a power converter of other forms, its main circuit component selection and parameter calculation are also completely consistent with the existing main circuit component selection and parameter calculation methods of this type of power converter.

[0103]The actual energy detection circuit WL of the inductor can be realized by using an existing circuit capable of real-time detection of energy and real-time data communication. For example, a single-chip microcomputer can be used to sample the inductor current through a Hall-type current sensor, and the The corresponding calculation of the current value can calculate the energy stored in the inductor, and...

Embodiment 2

[0116] The actual energy detection circuit WL of the inductor can be realized by using an existing analog circuit capable of real-time detection of current and multiplication function. For example, the Hall-type current sensor can be used to sample the inductor current, and the multiplication circuit can be used to calculate the energy stored in the inductor, and the analog signal output by the multiplication circuit can be transmitted to other circuits. The design of the multiplication circuit is the same as that of the existing The design method of the multiplication circuit is the same.

[0117] The actual energy detection circuit WC of the capacitor can be realized by using an existing analog circuit capable of real-time detection of voltage and multiplication function. For example, a Hall-type voltage sensor can be used to sample the capacitor voltage, and a multiplication circuit can be used to calculate the energy stored in the capacitor, and the analog signal output by...

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Abstract

The invention provides an electric power converter control circuit capable of achieving self-regulation of a parameter of a controller. The circuit comprises an electric power converter main circuit, and also comprises an actual inductor energy detection circuit WL, an actual capacitor energy detection circuit WC, an output detection circuit WR, an actual energy analysis circuit W, an inductor expected energy computing circuit EL, a capacitor expected energy computing circuit EC, an output expected energy computing circuit ER, an expected energy analysis circuit E, an energy analysis circuit V, an adjustable PI controller circuit K, a driving signal generation circuit P and a difference computing circuit F. The invention provides the control circuit which regulates the PI parameter of the controller based on energy stored in the inductor and the capacitor in the electric power converter and the difference between the actual output energy of the electric power converter and the corresponding expected energy, and defects of the existing PI controllers can be solved under the premise of effectively controlling the electric power converter.

Description

technical field [0001] The invention relates to a control circuit of a power converter. Background technique [0002] In the controller design of the power converter, the PI controller is widely used because of its advantages of high reliability, good robustness, simple and effective algorithm, etc. However, the PI controller with fixed parameters has poor adaptability under different working conditions, and it is difficult to ensure that the expected control requirements are met during the dynamic adjustment process such as overshoot and oscillation, especially when the load changes, such problems are more prominent , resulting in poor output power quality. Although the existing PI parameter self-tuning control technology can effectively improve the control effect of the PI controller, there is a problem of complex algorithm, which needs to be further solved. Contents of the invention [0003] The object of the present invention is to provide a power converter control c...

Claims

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Application Information

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IPC IPC(8): H02M1/00
CPCH02M1/00H02M1/0003
Inventor 张强白峻汀王云鹏宿小明付兴利张炜王言畅孙维义任彦光桑杰汪寅乔
Owner HARBIN ENG UNIV
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