Your search keyword '"He, Deqiang"' showing total 4 results

1. Single-Loop Control for Single-Phase Dual-Boost Grid-Tied Inverter With Half Cycle Modulation and Feedforward Virtual-Vectors MPC.

Author

Liu, Bin, He, Deqiang, Li, Guojin, Liu, Hui, Yang, Liulin, and Chen, Yanming

Subjects

*PULSE width modulation transformers, *PREDICTION models, *VOLTAGE control

Abstract

In this letter, a simplified single current loop control scheme for single-phase dual-boost inverter has been developed, combining half cycle modulation and virtual-vector (VV) based model predictive control (MPC). As the control reference can be slipped and allocated into two side boost, only a unified grid current reference is relied on in this proposed control method. Furthermore, with the concept of feedforward control, the global optimal solution space in MPC can be compressed, taking the duty ratio as boundary for the precompacted solution space. Thereby, the improved MPC can select the optimal VV in a smaller and closer subspace. Consequently, much finer control effect can be obtained. Experimental tests are provided to validate the proposed solution and its merits. [ABSTRACT FROM AUTHOR]

Published

2022

2. DC and AC Power Quality Control for Single-Phase Grid-Tied PEMFC Systems With Low DC-Link Capacitance by Solution-Space-Reduced MPC.

Author

Liu, Bin, Li, Guojin, He, Deqiang, and Chen, Yanming

Subjects

QUALITY control, FUEL cells, ELECTRIC capacity, PREDICTION models, AC DC transformers, VOLTAGE control

Abstract

The low-frequency current ripple, which is inherent in the two-stage single-phase grid-tied fuel cell power system, gives harmful effects on fuel cell stack itself and causes a reduction in the lifetime, efficiency, and operating performance of system. This article first presents a direct current control scheme to improve the dc and ac power quality with a dc-link voltage notch filer and a proposed improved model predictive control (MPC) method. However, since the number of the switching states is low, the fuel cell dc current and grid current may suffer contaminated and distorted, when the conventional MPC algorithm implementation is straightforward. With the aid of feedforward duty ratio and the rotation angle of reference grid current, the optimization space can be reduced in real time, avoiding evaluating all the feasible virtual-vectors, and then the improved MPC has been proposed. Finally, the correctness and effectiveness is verified by the simulation and experiment results. [ABSTRACT FROM AUTHOR]

Published

2022

3. Input Current Ripple and Grid Current Harmonics Restraint Approach for Single-Phase Inverter Under Battery Input Condition in Residential Photovoltaic/Battery Systems.

Author

Liu, Bin, Wang, Lina, Song, Dongran, Su, Mei, Yang, Jian, He, Deqiang, Chen, Zhiwen, and Song, Shaojian

Abstract

When an existing photovoltaic (PV) system is upgraded to a residential PV/battery system, the single-phase PV inverter under both input conditions of battery and PV should be properly controlled to restrain the input current ripple and grid-current harmonics. To do this, equivalent circuits of PV array and Li-ion battery pack are first constructed and respectively analyzed. The analysis results show that the input current under the battery pack may contain serious ripple component due to the low internal impedance of the battery pack, which cannot suppress the ripple current caused by the inherent power coupling problem of the grid-connected single-phase inverter. Then, based on the small signal model of the boost dc–dc convertor, a novel active control method is proposed for mitigating the input current ripple, which adopts double-channel current feedbacks including an additional ripple current feedback channel and the normal one. To provide the feedback signal, a third-order general integrator is introduced to extract the current ripple. Besides, a proportional-resonant controller is used to restrain the grid-current harmonics. Finally, the control parameters are obtained using MATLAB toolbox, and the proposed control strategies are validated by the experimental results on a 5 kW prototype. [ABSTRACT FROM AUTHOR]

Published

2018

4. Combined Reactive Power Injection Modulation and Grid Current Distortion Improvement Approach for H6 Transformer-Less Photovoltaic Inverter.

Author

Liu, Bin, Su, Mei, Yang, Jian, Song, Dongran, He, Deqiang, and Song, Shaojian

Subjects

ELECTRIC inverters, REACTIVE power, PHOTOVOLTAIC power systems

Abstract

In this paper, a combined reactive power modulation and grid current distortion improvement approach is proposed for an H6 transformer-less full-bridge single-phase photovoltaic (PV) grid-connected inverter. H6 transformer-less inverters with traditional modulation and control strategies may not satisfy the requirement of reactive power compensation or may result in more severe zero-crossing current distortion. Therefore, contrary to the traditional modulation, a novel reactive power injection space vector pulse width modulation (SVPWM) is proposed, which consists of two operation stages—inverter modulation and reactive power modulation. The implementation of SVPWM for reactive power modulation using a digital signal processor is also investigated. Furthermore, to suppress the current zero-crossing distortion in the reactive power injection mode, a global sliding mode function based on the proportion-integration-resonance current controller is designed, and the control law of the global sliding mode is derived. Using the segment modulation and grid current distortion improvement approach, the function of reactive current injection is implemented in commercial PV inverters, and the total harmonic distortion of the grid current is decreased significantly by more than 5% in the low-power segment, under the operating conditions of a lagging or leading power factor of 0.95. The effectiveness and feasibility of the proposed approach are verified through simulation and experiment using a 5-kVA prototype. [ABSTRACT FROM AUTHOR]

Published

2017