Fast and Simple Tuning Rules of Synchronous Reference Frame Proportional-Integral Current Controller

Diab, Ahmed M.; Bozhko, Serhiy; Guo, Feng; Rashed, Mohamed; Buticchi, Giampaolo; Xu, Zhuang; Yeoh, Seang Shen; Gerada, Chris; Galea, Michael

doi:10.1109/access.2021.3054845

Cited by 19 publications

(9 citation statements)

References 32 publications

(66 reference statements)

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“…The current controller generates the required reference dq voltage reference component with the PI controller in it. The reference dq voltage components (Ud* and Uq*) are converted to sinusoidal by inverse parks transformation [26]. The final three-…”

Section: Synchronous Reference Frame Controllermentioning

confidence: 99%

A novel five-level voltage source inverter interconnected to grid with srf controller for voltage synchronization

Sirisha

Nazeemuddin

2022

Bulletin EEI

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Power utilization from renewable sources with efficient modules is very vital. Maitaining harmonics below specific standard during grid interconnection is also a major objective. A novel five-level voltage source inverter which is controlled by synchronous reference frame (SRF) controller for grid interconnection and synchronized power injection. The input of the converter is integrated with renewable energy source photovoltaic arrays (PVA) for the injection of renewable power into the grid. For constant voltage input, the PVAs are connected to a booster converter controlled by the maximum power point tracking (MPPT) algorithm. The design is analyzed with different operating conditions by changing the load type (static and dynamic) using MATLAB/Simulink software. Graphical comparisons are taken for the analysis with the help of ‘powergui’ toolbox available in the software.

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Section: Synchronous Reference Frame Controllermentioning

confidence: 99%

A novel five-level voltage source inverter interconnected to grid with srf controller for voltage synchronization

Sirisha

Nazeemuddin

2022

Bulletin EEI

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“…From the stability constraint, the value range of K is 0 < K < 1. Although the performance of the current loop may have a fast response and less overshoot using the general gain tuning method [4,24], the poles cannot be located arbitrarily when K changes as shown in Figure 5. The solid arrow in Figure 5 points to the direction of K increase.…”

Section: Main Regulator Designmentioning

confidence: 99%

Discrete‐time current regulator with arbitrary poles placement for alternating current machines

Zhu

Meng

Xiao

2022

IET Electric Power Appl

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To pursue high-performance motor drive, the current regulators are designed directly in the discrete domain. However, few kinds of research are developed to achieve arbitrary poles placement simply. To fill this gap, the authors propose a discrete-time current regulator consisting of two parts: the main regulator used to obtain decoupling control of dq axes currents, and the bi-proper compensator applied to realise arbitrary poles placement. To strengthen the anti-disturbance ability of the current regulator, the active resistance is added to the inner feedback path. Combining the active resistance, a new zero-order-hold equivalent motor model is developed, based on which the main regulator is designed using the zero-pole cancellation method. Furthermore, in this way, decoupling control for the two control objectives of reference tracking and anti-disturbance is realised. To achieve fast tracking response and negligible overshoot, an easy-toimplement scheme that simplifies the tuning of the current regulator is proposed based on the arbitrary poles placement. Moreover, the current regulator can be treated as a two-degree-of-freedom controller with this scheme. Finally, the effectiveness and reliability of the proposed current regulator are validated by the simulation results and experimental results in an alternating current machine drive platform.

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“…The synchronous reference frame (SRF) controller [19] is major module in the proposed test system which controls the output voltage of the multilevel inverter. For the output voltage match to the grid voltage The SRF controller uses Parks transformation for controlling the current of the inverter.…”

Section: Capacitor Voltagesmentioning

confidence: 99%

“…For the output voltage match to the grid voltage The SRF controller uses Parks transformation for controlling the current of the inverter. The dq components of the currents are calculated with respect to PLL module [19]- [25] working in synchronization to the grid voltage. The dq axis calculation for the given controller is given as per the equations given below.…”

Section: Capacitor Voltagesmentioning

confidence: 99%

“…The current controller generates the required reference dq voltage reference component with PI controller in it. The reference dq voltage components (Vd* and Vq*) [19] are converted to sinusoidal by inverse parks transformation. The final three phase sinusoidal reference waveforms are compared to phase disposition multi carrier modulation technique for generation of pulses for the novel five level inverter.…”

Section: Capacitor Voltagesmentioning

confidence: 99%

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A grid interconnected nested neutral-point clamped inverter with voltage synchronization using synchronous reference frame controller

Sirisha

2021

IJAPE

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Nested neutral-point clamped multi level inverter with inter connection to grid through the synchronous reference frame (SRF) controller for synchronization of voltage to the grid is demonstrated. The system's main feature is that voltage stress in each inverter switching device is kept to a minimum, and redundant inverter switching states are utilised for neutral point and flying capacitor voltage balancing with sinusoidal pulse-width modulation (PWM) technique, synchronisation to grid voltages, and power injection with low harmonic generation. The inverter receives its input from a photovoltaic (PV) source that is coupled to DC-DC booster converters that are regulated by the maximum power point (MPP) tracking incremental conductance algorithm to maintain a constant dc voltage. The system is examined under various load conditions with MATLAB/Simulink model.

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Fast and Simple Tuning Rules of Synchronous Reference Frame Proportional-Integral Current Controller

Cited by 19 publications

References 32 publications

A novel five-level voltage source inverter interconnected to grid with srf controller for voltage synchronization

A novel five-level voltage source inverter interconnected to grid with srf controller for voltage synchronization

Discrete‐time current regulator with arbitrary poles placement for alternating current machines

A grid interconnected nested neutral-point clamped inverter with voltage synchronization using synchronous reference frame controller

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