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Optimization control method for dynamic performances of active power filter of microgrid

A technology of power filter and dynamic performance, applied in active power filter, AC network to reduce harmonic/ripple, circuit device, etc., can solve the problems of slow harmonic detection speed and poor dynamic performance, and achieve bandwidth resolution and response time, to ensure the effect of fast response and stability

Active Publication Date: 2017-11-24
ZHEJIANG UNIV OF TECH
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AI Technical Summary

Benefits of technology

This technology improves upon existing filters by combining two different techniques - one uses a special type called an LF (low pass) filter with certain frequency components that help detect interference signals better than other types like SAW or CMOS sensors. Another technique involves controlling both AC signal power and noise levels individually for faster responses without affecting their accuracy.

Problems solved by technology

This patented technical problem addressed in this patent relates to improving the efficiency at detecting fast harmons from electrical systems due to their complex nature. Traditional methods have limitations including slow response times or imprecise phase correction values. An improved approach called Active Power Filter Control System (APCF), described in detail below, provides a solution through advanced mathematical techniques like partial integrals and quaternions. However, APFC also faces challenges related to stability issues caused by adding higher pass filters during filtering process.

Method used

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  • Optimization control method for dynamic performances of active power filter of microgrid
  • Optimization control method for dynamic performances of active power filter of microgrid
  • Optimization control method for dynamic performances of active power filter of microgrid

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Embodiment Construction

[0025] The present invention will be further described below in conjunction with the accompanying drawings.

[0026] refer to Figure 1 ~ Figure 3 , a microgrid active power filter dynamic performance optimization control method, comprising the following steps:

[0027] a. Obtain the three-phase harmonic current i on the nonlinear load side L,abc and the output three-phase current i of the active power filter F,abc and grid-side three-phase voltage e abc .

[0028] b. Perform synchronous rotation coordinate dq transformation on the value obtained in step a to obtain the d-axis harmonic current i dL , q-axis harmonic current i qL and active power filter output d-axis current i dF , q-axis current i qF And grid side d-axis voltage e d , q-axis voltage e q .

[0029] c. According to the d-axis harmonic current i obtained in the previous step dL and q-axis harmonic current i qL , through the harmonic separation algorithm, get the harmonic current reference command an...

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Abstract

The invention discloses an optimization control method for dynamic performances of an active power filter of a microgrid. A harmonic current detection link employs a combined filter of a specific subharmonic wave trap and a low-pass filter, wherein the specific subharmonic wave trap filters low-order harmonics, and the low-pass filter is wider in frequency band and filters high-order harmonics, thereby effectively overcoming the conflict between the bandwidth and response time of a conventional filter. A current control link carries out the independent control of a fundamental current and a harmonic current in a dq synchronous rotation system, thereby solving a problem that a DC side voltage drops during load varying. According to a control strategy, an AC side current and a DC side voltage are better in dynamic response and stability, and the method is suitable for the active power filter of the microgrid. The method is higher in harmonic detection speed, and is better in dynamic performance.

Description

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Claims

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Application Information

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Owner ZHEJIANG UNIV OF TECH
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