Leveraging Hybrid Filter for Improving Quasi-Type-1 Phase Locked Loop Targeting Fast Transient Response

In renewable energy generation applications, phase locked loop (PLL) is one of the most popular grid synchronization technique. The main objective of PLL is to rapidly and precisely extract phase and frequency especially when the grid voltage is under non-ideal conditions. This motivates the recent development of moving average filters (MAFs) based PLL in a quasi-type-1 system (i.e., QT1-PLL). Despite its success in certain applications, the transient response is still unsatisfactory, mainly due to the fact that the time delay caused by MAFs is still large. This has significantly limited the utilization of QT1-PLL, according to common grid codes such as German and Spanish grid codes. This challenge has been tackled in this paper. The basic idea is to develop a new hybrid filtering stage, consisting of adaptive notch filters (ANFs) and MAFs, arranged at the inner loop of QT1-PLL. Such an idea can greatly improve the transient response of QT1-PLL, owing to the fact that ANFs are utilized to remove the fundamental frequency negative voltage sequence (FFNS) component while other dominant harmonics can be removed by MAFs with a small time delay. By applying the proposed technique, the settling time is reduced to less than one cycle of grid frequency without any degradation in filtering capability. Moreover, the proposed PLL can be easily expanded to handle dc offset rejection. The effectiveness is validated by comprehensive experiments.

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Two term composite nonlinear feedback controller design for nonlinear time-delay systems

Transactions of the Institute of Measurement and Control ◽

10.1177/0142331217723703 ◽

2017 ◽

Vol 40 (12) ◽

pp. 3424-3432 ◽

Cited By ~ 5

Author(s):

Sonal Singh ◽

Shubhi Purwar ◽

Abhijit Kulkarni

Keyword(s):

Time Delay ◽

Transient Response ◽

Control Technique ◽

Delay Systems ◽

Time Delay Systems ◽

State Control ◽

Nonlinear Feedback ◽

Composite Nonlinear Feedback ◽

Fast Transient Response ◽

Fast Transient

A two term composite nonlinear feedback (2TCNF) control technique is developed here for nonlinear time delay systems in presence of input saturation. The proposed controller consists of two terms that are conventional composite nonlinear feedback (CNF) control and delay state control. CNF control has advantage of fast transient response and delay state control improves damping characteristics. The proposed controller thus has both these advantages and it tracks the reference smoothly. The closed loop asymptotic stability is guaranteed via Lyapunov–Krasovskii analysis. The efficiency of the proposed controller is tested on exothermic chemical reactor and validated through simulation results. Its performance is compared with the conventional CNF control. The superiority of 2TCNF is established in terms of less overshoot, fast transient response and reduced steady state error.

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Effects of Time Delay, DC Offset, and Truncation Errors on Interfacing of a Phase-Locked Loop (PLL) with a Real-time Simulator for Controller Hardware-In-Loop (CHIL) Simulation

15th IET International Conference on AC and DC Power Transmission (ACDC 2019) ◽

10.1049/cp.2019.0040 ◽

2019 ◽

Author(s):

Y. Yi ◽

A.D. Sinkar ◽

A.M. Gole

Keyword(s):

Time Delay ◽

Real Time ◽

Phase Locked Loop ◽

Dc Offset ◽

Truncation Errors ◽

Hardware In Loop

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Time-Based Digital LDO Regualtor with Fractionally Controlled Power Transistor Strength and Fast Transient Response

2019 IEEE Asian Solid-State Circuits Conference (A-SSCC) ◽

10.1109/a-sscc47793.2019.9056901 ◽

2019 ◽

Author(s):

Jin-Gyu Kang ◽

Min-Gyu Jeong ◽

Jeongpyo Park ◽

Changsik Yoo

Keyword(s):

Transient Response ◽

Power Transistor ◽

Fast Transient Response ◽

Fast Transient

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A Right-Half-Plane Zero-Free Single-Inductor Dual-Output Boost Converter with 92.44% Peak efficiency and Fast Transient Response

2020 IEEE 15th International Conference on Solid-State & Integrated Circuit Technology (ICSICT) ◽

10.1109/icsict49897.2020.9278329 ◽

2020 ◽

Author(s):

Zhiguo Tong ◽

Peng Cao ◽

Xueli Zhang ◽

Zhiliang Hong

Keyword(s):

Half Plane ◽

Transient Response ◽

Boost Converter ◽

Peak Efficiency ◽

Fast Transient Response ◽

Fast Transient

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On Adaptive Moving Average Algorithms for the Application of the Conservative Power Theory in Systems with Variable Frequency

Energies ◽

10.3390/en14041201 ◽

2021 ◽

Vol 14 (4) ◽

pp. 1201

Author(s):

Daniel dos Santos Mota ◽

Elisabetta Tedeschi

Keyword(s):

Time Delay ◽

Moving Average ◽

Voltage Source ◽

Moving Averages ◽

Nonlinear Load ◽

Power Theory ◽

Variable Time Delay ◽

Variable Time ◽

Conservative Power Theory ◽

Conservative Power

The Conservative Power Theory (CPT) emerged in recent decades as a theoretical framework for coping with harmonically distorted and unbalanced electric networks of ac power systems with a high participation of converter interfaced loads and generation. The CPT measurements are intrinsically linked to moving averages (MA) over one period of the grid. If the CPT is to be used in a low-inertia isolated-grid scenario, which is subjected to frequency variations, adaptive moving averages (AMA) are necessary. This paper reviews an efficient way of computing MAs and turns it into an adaptive one. It shows that an easily available variable time delay block, from MATLAB, causes steady-state errors in the measurements when the grid frequency varies. A new variable time delay block is, thus, proposed. Nonetheless, natural pulsations in the instantaneous power slip through MAs when the discrete moving average window does not fit perfectly the continuously varying period of the grid. A method consisting of weighing two MAs is reviewed and a new and effective hybrid AMA is proposed. The CPT transducers with the different choices of AMAs are compared via computer simulations of a single-phase voltage source feeding either a linear or a nonlinear load.

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