Impedance Identification Method of Grid-connected Inverter Based on High-frequency Signal Injection

Abstract

The invention provides an impedance identification method of a power grid of a grid-connected inverter based on high-frequency signal injection. The method comprises the following steps: firstly, respectively measuring the voltage and bridge arm side current of the grid-connected inverter by using a voltage sensor and a current sensor, and converting the voltage and the bridge arm side current through a proportional integral controller to obtain a modulated voltage signal; then, injecting a three-phase high-frequency voltage signal into the modulated voltage signal to update the voltage of thegrid-connected inverter, measuring the power grid side current of the grid-connected inverter by using the current sensor, and respectively substituting the updated voltage and the power grid side current into a voltage extraction module and a current extraction module; and finally, extracting a high-frequency voltage signal and a high-frequency current signal of a grid of the grid-connected inverter by using an improved complex number filter so as to solve an impedance value of the power grid in real time. According to the impedance identification method provided by the invention, the three-phase high-frequency voltage signal is directly superimposed on the modulated voltage signal, thereby ensuring the effective injection of the high-frequency signal and being able to improve the signal-to-noise ratio of the power grid, so that the impedance identification accuracy of the power grid is improved.

Description

technical field [0001] The invention relates to the technical field of power electronics, in particular to a grid-connected inverter grid impedance identification method based on high-frequency signal injection. Background technique [0002] In recent years, with the rapid expansion of the installation scale of new energy grid-connected inverters, more and more power grids have shown the characteristics of "weak grids", and their impedance is also increasing, which affects the stability of grid-connected inverters. Running has had a huge impact. In order to improve the operation stability of the grid-connected inverter under the weak grid, it is necessary to identify the grid impedance in real time, and adjust the operation mode of the grid-connected inverter in real time according to the grid impedance value. Commonly used grid impedance identification methods mainly include passive methods and active methods. The passive method calculates the grid impedance by detecting ...

AI Technical Summary

Problems solved by technology

[0005] Aiming at the technical problem that the existing grid impedance identification method cannot inject effective high-frequency signals and does not consider the introduction of DC bias into the voltage and current sampling channels, resulting in low identification accuracy of grid impedance, the present invention proposes a high-frequency based The grid-connected inverter grid impedance identification method based on signal injection, firstly, inject three-phase high-frequency voltage signals into the three-phase modulation voltage signal, so that the high-frequency signal can be realized without changing the original proportional-integral controller parameters of the current loop. injection

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