Robust predictive dual-loop control method based on Lyapunov function stability and energy equilibrium though double-core processors for active power filter

Yue, Yufei; Chen, Yandong; Luo, An; Ma, Fujun; Xu, Qianming; He, Zhixing

doi:10.1016/j.ijepes.2017.01.006

Cited by 12 publications

(11 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Form the Eq. (7) and (8), it is observed that the 3Φ microgrid connected ESG system consists of two conditions, 1 and 2 .…”

Section: Design Of a Control Methods For 3φ Psi Topologymentioning

confidence: 99%

“…Equations 22 and 23 define the base capacitance and impedance and both parameters' relation refer to the percentage of the base values [7][8][9].…”

Section: Design Of the Psi Output Lcl Filtermentioning

confidence: 99%

“…is the damping resistor that is incorporated with the series capacitor to reduce the ripple current on the switching frequency [8][9][10][11]. 1 represents the 20% attenuation factor.…”

Section: Design Of the Psi Output Lcl Filtermentioning

confidence: 99%

“…The voltage source PLL based current regulator for microgrid associated DC to AC inverters is described in [7][8] and the output LCL filter is detailed in [9][10]. In these papers, twin synchronous PLL based current and DC voltage regulators are designed and various types of switching regulator are utilized to create a high voltage and low current regulator in the case of unstable microgrid circumstances.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

PLL-Based 3? Inverter Circuit for Microgrid System Operated by Electrostatic Generator

Motakabber¹,

Rahman²,

Ibrahimy³

et al. 2019

IIUMEJ

View full text Add to dashboard Cite

A current source control based PLL (phase lock loop) technique is one of the most efficient methods for modern 3? synchronized grid power systems. When an inverter circuit is driven by an electrostatic generator with wind power, it encounters some problems, such as static and dynamic turn-on-off switching losses, unbalanced source voltage, low continuous current, higher frequency harmonic distortion, phase angle imbalance, etc. To solve these problems, a series of connected switching inverter modules technique is proposed. It is not only a traditional inverter system, but it also works as a low-frequency ripple current inverter with lower switch losses. A new topology of phase synchronous inverter (PSI) is designed using a PLL current source controller. The input voltage source of the PSI is a high DC voltage from an electrostatic generator (ESG). The modified ESG is capable of generating the HVDC and a continuous moderate amount of current. The proposed switching topology of the inverter is able to control the microgrid power as well as reduce the dynamic and static switching loss. It also reduces the high-frequency harmonic distortion and improves the phase angle error. The output LCL lowpass filter scheme of the inverter is designed to reduce the total harmonic distortion of 1.62%. The PSI circuit is designed and simulated using MATLAB software. In the developed system, the input voltage of 8 k , microgrid frequency of 50Hz, switching frequency of the carrier of 10 kHz, and modulation index of 0.85 are considered to be implemented. The proposed novel microgrid connected PSI switching module design technique has significantly enhanced the power stability. The overall system efficiency improved by 95.52%. ABSTRAK: Sumber-arus terkawal berdasarkan teknik PLL (fasa litar kunci) adalah satu kaedah cekap bagi sistem moden tenaga grid selaras 3?. Apabila litar songsang (inverter) digerak menggunakan penjana elektrostatik bersama tenaga angin, ia mengalami masalah seperti kehilangan tenaga statik dan dinamik suis hidup-mati, sumber voltan yang tidak seimbang, kurang arus terus, gangguan harmoni frekuensi tinggi, ketidak-seimbangan sudut fasa, dan sebagainya. Bagi menyelesaikan masalah ini, teknik modul suis bersiri dihubung bersama inverter telah dicadangkan. Ini bukan semata-mata teknik lama sistem inverter, tetapi ia juga berfungsi sebagai arus tidak tetap frekuensi-rendah dengan kurang kehilangan tenaga pada suis inverter. Topologi baru fasa inverter tetap (PSI) ini telah direka menggunakan kawalan sumber arus PLL. Sumber voltan masuk PSI ini telah digunakan daripada voltan DC tinggi penjana elektrostatik (ESG). ESG yang diubah suai ini dapat menghasilkan HVDC dan arus terus yang sederhana. Topologi suis inverter yang dicadang ini dapat mengawal kuasa mikrogrid serta mengurangkan kehilangan dinamik dan statik suis. Ia juga mengurangkan gangguan harmoni frekuensi tinggi dan memperbaiki ketidak-seimbangan sudut fasa. Skim tapisan signal keluar yang rendah pada LCL inverter ini direka bagi mengurangkan total gangguan harmoni sebanyak 1.62%. Litar PSI ini direka dan disimulasi menggunakan perisian MATLAB. Dalam sistem yang dibangunkan ini, 8 kVDCvoltan masuk, 50Hz frekuensi mikrogrid, 10 kHz frekuensi suis angkutan dan 0.85 indeks modulasi telah dipertimbangkan untuk kegunaan. Teknik baru modul suis PSI mikrogrid bersambung yang dicadangkan ini mempunyai kepentingan dalam menstabilkan kuasa dan memperbaiki kecekapan sistem keseluruhan sebanyak 95.52%.

show abstract

“…Form the Eq. (7) and (8), it is observed that the 3Φ microgrid connected ESG system consists of two conditions, 1 and 2 .…”

Section: Design Of a Control Methods For 3φ Psi Topologymentioning

confidence: 99%

“…Equations 22 and 23 define the base capacitance and impedance and both parameters' relation refer to the percentage of the base values [7][8][9].…”

Section: Design Of the Psi Output Lcl Filtermentioning

confidence: 99%

“…is the damping resistor that is incorporated with the series capacitor to reduce the ripple current on the switching frequency [8][9][10][11]. 1 represents the 20% attenuation factor.…”

Section: Design Of the Psi Output Lcl Filtermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

PLL-Based 3? Inverter Circuit for Microgrid System Operated by Electrostatic Generator

Motakabber¹,

Rahman²,

Ibrahimy³

et al. 2019

IIUMEJ

View full text Add to dashboard Cite

show abstract

“…With the introduction of the smart grid concept, the control algorithms can achieve more accurate harmonic current tracking control effects. Yue et al [1] designed a predictive double loop controller in order to increase the robustness and adaptive property of an active filter. Swain et al [2] improved the robustness and stability of APF with a novel sliding controller.…”

Section: Introductionmentioning

confidence: 99%

Adaptive Backstepping Current Control of Active Power Filter Using Neural Compensator

Fang

Fei

2019

Mathematical Problems in Engineering

View full text Add to dashboard Cite

A backstepping-based adaptive controller with neural compensator is designed for harmonic suppression in a three-phase active power filter (APF). The fundamental rule of backstepping method is to take some state variables as “virtual controls” and then design intermediate controller. An adaptive neural controller using radial basis function (RBF) is derived to estimate the APF system nonlinearity and strengthen the current’s tracking property and power grid quality. Simulations studies indicate the proposed backstepping-based adaptive neural controller has good current tracking behavior and increased power quality.

show abstract

A Lyapunov function theory‐based nonlinear control strategy for NPC ‐type three‐level unified power quality conditioner

Zhou

Mao

et al. 2020

Int Trans Electr Energ Syst

View full text Add to dashboard Cite

Summary Classic control methods commonly used for a unified power quality conditioner (UPQC) include the following: proportional integral (PI) control, proportional resonance (PR) control, and repetitive control. Generally, the main weaknesses of these control methods are poor compensation accuracy and low response speed. In this article, in order to enhance the overall performance of the system, we introduce an innovative nonlinear control strategy based on the Lyapunov function for the three‐phase three‐wire neutral‐point clamp (NPC) type three‐level UPQC. We first develop the mathematical UPQC model, then obtain from the model the control law which we use to construct the switching function by creating the Lyapunov function, thus avoiding the introduction of closed‐loop feedback. The suggested strategy also achieves system stability and dynamic performance by selecting appropriate parameters, after which a carrier‐based pulse width modulation control method based on the injected zero‐sequence component is applied to maintain the stability and balance of the DC‐side capacitor voltage. In addition, both numerical simulation and comparison of experimental results using traditional PI control, passivity‐based control methods, and sliding mode control shows that the proposed nonlinear control strategy for three‐phase three‐wire NPC type three‐level UPQC has an excellent response speed and compensation efficiency.

show abstract

Robust predictive dual-loop control method based on Lyapunov function stability and energy equilibrium though double-core processors for active power filter

Cited by 12 publications

References 24 publications

PLL-Based 3? Inverter Circuit for Microgrid System Operated by Electrostatic Generator

PLL-Based 3? Inverter Circuit for Microgrid System Operated by Electrostatic Generator

Adaptive Backstepping Current Control of Active Power Filter Using Neural Compensator

A Lyapunov function theory‐based nonlinear control strategy for NPC ‐type three‐level unified power quality conditioner

Contact Info

Product

Resources

About