Deadbeat current control for a voltage-fed PWM inverter with delayed input voltage feedback

Abstract This paper deals with implementation of a single-phase three level converter system under low voltage condition. The frequency of the switches is made constant and involves change in ${t_{on}}$ and ${t_{off}}$ duration. For this condition the pulse width modulation control scheme for a single phase three level rectifier is developed to improve the power quality. The hysteresis current control technique is adopted to bring forth three-level PWM on the dc side of the bridge rectifier and to achieve high power factor and low harmonic distortion. Based on the proposed control scheme, the line current is driven to follow the sinusoidal current command which is in phase with the supply voltage. By using three-level voltage pattern the blocking voltage of each power device is clamped to half of the dc link voltage. The simulation and experimental results of 20W converter under low input voltage condition are shown to verify the circuit performance. Open loop simulation and hardware tests are implemented by applying a low voltage of 15 V(rms) on the input side.

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Cooperation of Voltage Controlled Active Power Filter with Grid-Connected DGs in Microgrid

Sustainability ◽

10.3390/su11010154 ◽

2018 ◽

Vol 11 (1) ◽

pp. 154 ◽

Cited By ~ 4

Author(s):

Hafiz Munir ◽

Jianxiao Zou ◽

Chuan Xie ◽

Josep Guerrero

Keyword(s):

Power Distribution ◽

Distribution Systems ◽

Active Power Filter ◽

Active Power ◽

Current Control ◽

Control Loop ◽

Renewable Energy Resources ◽

Harmonic Compensation ◽

Power Filter ◽

Voltage Feedback

Due to the excessive use of nonlinear loads and inverter interfaced distributed generators, harmonic issues have been regarded as a major concern in power distribution systems. Therefore, harmonic compensation in microgrids is a subject of current interest. Consequently, a novel direct harmonic voltage-controlled mode (VCM) active power filter (APF) is proposed to mitigate the harmonics in a cooperative manner and provide a better harmonic compensation performance of less than 5%. Due to the dispersive characteristics of renewable energy resources, voltage feedback based on a harmonic compensation control loop is implemented for the first time. This system can be smoothly combined with the current control loop. Our method proposes a better performance while mitigating the harmonics in comparison with conventional resistive active power filters (R-APF). Based on direct voltage detection at the point of common coupling (PCC), the proposed VCM-APF can therefore be seamlessly incorporated with multiple grid-connected generators (DGs) to enhance their harmonic compensation capabilities. The advantage of this scheme is that it avoids the need for designing and tuning the resistance, which was required in earlier conventional control schemes of R-APF for voltage unbalance compensation. Additionally, our scheme does not require the grid and load current measurements since these can be carried out at the PCC voltage, which further reduces the implementation cost of the system. Furthermore, the simulation results show the significance of proposed method.

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Control for Three-Phase LCL-Filter PWM Rectifier with BESS-Oriented Application

Energies ◽

10.3390/en12214093 ◽

2019 ◽

Vol 12 (21) ◽

pp. 4093 ◽

Cited By ~ 2

Author(s):

Mora ◽

Núñez ◽

Visairo ◽

Segundo ◽

Camargo

Keyword(s):

Storage System ◽

Input Voltage ◽

Voltage Regulation ◽

Current Control ◽

Loop Current ◽

Pwm Rectifier ◽

Lcl Filter ◽

Loop Control ◽

Practical Applications ◽

Three Phase

This paper deals with a battery energy storage system (BESS) in only one of its multiple operating modes, that is when the BESS is charging the battery bank and with the focus on the control scheme design for the BESS input stage, which is a three-phase LCL-filter PWM rectifier. The rectifier's main requirements comprise output voltage regulation, power factor control, and low input current harmonic distortion, even in the presence of input voltage variations. Typically, these objectives are modeled by using a dq model with its corresponding two-loop controller architecture, including an outer voltage loop and a current internal loop. This paper outlines an alternative approach to tackle the problem by using not only an input–output map linearization controller, with the aim of a single-loop current control, but also by avoiding the dq modeling. In this case, the voltage is indirectly controlled by computing the current references based on the converter power balance. The mathematical model of the three-phase LCL-filter PWM rectifier is defined based on the delta connection of the filter, which accomplishes the requirements of a 100 kW BESS module. Extensive simulation results are included to confirm the performance of the proposed closed-loop control in practical applications.

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Voltage Feedback Current Control Scheme for Improved Transient Performance of Permanent Magnet Synchronous Machine Drives

IEEE Transactions on Industrial Electronics ◽

10.1109/tie.2011.2173097 ◽

2012 ◽

Vol 59 (9) ◽

pp. 3373-3382 ◽

Cited By ~ 60

Author(s):

Yong-Cheol Kwon ◽

Sungmin Kim ◽

Seung-Ki Sul

Keyword(s):

Permanent Magnet ◽

Synchronous Machine ◽

Current Control ◽

Permanent Magnet Synchronous Machine ◽

Transient Performance ◽

Control Scheme ◽

Synchronous Machine Drives ◽

Voltage Feedback ◽

Machine Drives

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Development of adaptive hysteresis band current control strategy of PWM inverter with constant switching frequency

Proceedings of Applied Power Electronics Conference. APEC '96 ◽

10.1109/apec.1996.500442 ◽

2002 ◽

Cited By ~ 15

Author(s):

Tae-Won Chun ◽

Meong-Kyu Choi

Keyword(s):

Control Strategy ◽

Current Control ◽

Switching Frequency ◽

Pwm Inverter

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Sliding Mode Control Application in Wind Energy Conversion System Using DSTATCOM

SAMRIDDHI A Journal of Physical Sciences Engineering and Technology ◽

10.18090/samriddhi.v1i1.1580 ◽

2015 ◽

Vol 1 (1) ◽

Author(s):

R. S. Bajpai ◽

Amarjeet Singh

Keyword(s):

Sliding Mode Control ◽

Sliding Mode ◽

Harmonic Distortion ◽

Voltage Control ◽

Input Voltage ◽

Current Control ◽

Control Mode ◽

Voltage Source ◽

Voltage Source Converter ◽

Mode Control

This paper deals with sliding mode control of converter and its application to distributed generation. Sliding mode control is used to control the voltage source converter in voltage or current control mode. Modeling and control of H bridge converter system using sliding mode control is proposed. Easily implemented sliding surfaces provide prominent dynamic characteristics against changes in the load and in the input voltage. Distribution static compensator (DSTATCOM) is used to control the voltage of the bus to which it is connected to a balance sinusoid in respect of the harmonic distortion in supply or load side. A variable wind turbine generator is used to produces a variable DC voltage which is placed as input voltage source to converter of DSTATCOM. A control strategy for grid voltage control using DSTATCOM in voltage control mode has been implemented in respect of the wind variation. The results are validated using PSCAD/EMTDC simulation studies.

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