Quasi proportional-resonant control for the grid current of hybrid distribution transformer

Quasi proportional-resonant control for the grid current of hybrid distribution transformer

Hybrid distribution transformer (HDT) has powerful control ability, which is significant for the intelligentisation of the distribution network. A kind of HDT is presented here, the grid current control system of which is emphatic researched. Based on the mathematical model of ideal HDTs, a grid cur...

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Bibliographic Details
Main Authors: Yang Liang, Deliang Liang, Yibin Liu, Mingkang Zhang, Peixin Jia, Guanhua Sun
Format: Article
Language:English
Published: Wiley 2018-10-01
Series:The Journal of Engineering
Subjects:
PI control
power grids
power factor
electric current control
distribution networks
power transformers
control system synthesis
Matlab
tracking control
QPR controller
rotary coordinate system
quasiproportional-resonant control
hybrid distribution transformer
HDT
quasiproportional-resonant controller
grid current control system design
sinusoidal symmetrical waveform
Online Access:https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8742
Description
Summary:Hybrid distribution transformer (HDT) has powerful control ability, which is significant for the intelligentisation of the distribution network. A kind of HDT is presented here, the grid current control system of which is emphatic researched. Based on the mathematical model of ideal HDTs, a grid current control system is designed with quasi proportional-resonant controller (QPR). Using the characteristics that infinite gain and large bandwidth at the resonant frequency of QPR controller, the grid current system achieve the effects of unit power factor and sinusoidal symmetrical waveform. Tracking control with no static error of grid current was achieved in MATLAB. Compared with the traditional PI control, QPR controller can modulate AC signals in the static coordinate system, rather than rotary coordinate system. So the QPR controller has advantages of lower steady-state error, stronger anti-interference ability, and simpler calculation. Simulation results show that it has good dynamic and steady performance.
ISSN:2051-3305

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