Relevant bibliographies by topics / Designed of standalone PV system control

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Academic literature on the topic 'Designed of standalone PV system control'

Author: Grafiati

Published: 5 June 2025

Last updated: 6 July 2025

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Journal articles on the topic "Designed of standalone PV system control"

Al-Quraan, Ayman, and Muhannad Al-Qaisi. "Modelling, Design and Control of a Standalone Hybrid PV-Wind Micro-Grid System." Energies 14, no. 16 (2021): 4849. http://dx.doi.org/10.3390/en14164849.

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The problem of electrical power delivery is a common problem, especially in remote areas where electrical networks are difficult to reach. One of the ways that is used to overcome this problem is the use of networks separated from the electrical system through which it is possible to supply electrical energy to remote areas. These networks are called standalone microgrid systems. In this paper, a standalone micro-grid system consisting of a Photovoltaic (PV) and Wind Energy Conversion System (WECS) based Permanent Magnet Synchronous Generator (PMSG) is being designed and controlled. Fuzzy logic-based Maximum Power Point Tracking (MPPT) is being applied to a boost converter to control and extract the maximum power available for the PV system. The control system is designed to deliver the required energy to a specific load, in all scenarios. The excess energy generated by the PV panel is used to charge the batteries when the energy generated by the PV panel exceeds the energy required by the load. When the electricity generated by the PV panels is insufficient to meet the load’s demands, the extra power is extracted from the charged batteries. In addition, the controller protects the battery banks in all conditions, including normal, overcharging, and overdischarging conditions. The controller should handle each case correctly. Under normal operation conditions (20% < State of Charge (SOC) < 80%), the controller functions as expected, regardless of the battery’s state of charge. When the SOC reaches 80%, a specific command is delivered, which shuts off the PV panel and the wind turbine. The PV panel and wind turbine cannot be connected until the SOC falls below a safe margin value of 75% in this controller. When the SOC goes below 20%, other commands are sent out to turn off the inverter and disconnect the loads. The electricity to the inverter is turned off until the batteries are charged again to a suitable value.

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Mahmud, Md Rasel, and Hemanshu Pota. "Robust Partial Feedback Linearized Controller Design for Standalone Hybrid PV-BES System." Electronics 10, no. 7 (2021): 772. http://dx.doi.org/10.3390/electronics10070772.

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This paper presents a mixed-sensitivity-based robust H∞ loop-shaping partial feedback linearized control scheme to enhance the transient stability of a battery energy storage-associated standalone solar photovoltaic system. The proposed control scheme has been provided independent operating points for a generalized nonlinear dynamical model of DC microgrids connected standalone hybrid solar photovoltaic and battery energy storage system. A parametric uncertainty model is developed for the generalized dynamical model, and the noise disengaging merit of the proposed control technique has been investigated. The designed controller’s performance has been demonstrated under four different scenarios, and it is compared with the conventional PI controller for partial feedback linearized control law.

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Traiki, Ghizlane, Abdelmounime El Magri, Rachid Lajouad, and Omar Bouattane. "A non-linear control strategy for a PV conversion system with energy storage." E3S Web of Conferences 297 (2021): 01023. http://dx.doi.org/10.1051/e3sconf/202129701023.

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A nonlinear control of a PV Energy Conversion System (PVECS) with energy storage system and maximum power extraction is presented. The control strategy is designed in two steps. Firstly, a MPPT algorithm is designed to tracking the maximum power point in variable irradiations, battery state of charge (SOC) and load changes. Then, thanks to its many advantages such as simplicity against parameter uncertainties, a Sliding Mode Control approach (SMC) is applied to control the standalone PV energy conversion system. Finally, the performances of MPPT techniques and SMC controller in the closed loop are checked using the MATLAB/SIMULINK.

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Suganthi, Neelagiri, and Usha Pasumarthi. "Modelling and control of grid connected microgrid with hybrid energy storage system." International Journal of Power Electronics and Drive Systems ( 14, no. 3 (2023): 1791~1801. https://doi.org/10.11591/ijpeds.v14.i3.pp1791-1801.

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This paper presents a photovoltaic (PV) microgrid with battery and super capacitor hybrid energy storage systems. The proposed microgrid system is designed for both grid connected and standalone mode with coordinated control-based energy management system, which controls DC link voltage, voltage and frequency balance at point of common coupling. DC link voltage control is implemented using dual loop PI controller-based voltage controller and inverter control is based on D-Q reference frame technique. The microgrid system is demonstrated in MATLAB/Simulink. The presentation of the planned energy supervision system is analyzed for varying generation and load condition. In the proposed microgrid the battery energy storage system is utilized to provide long term energy during average power requirement and supercapacitor energy storage system is utilized to provide short term power requirements during sudden load variation, generation variation and during transition of modes. Designed energy management system performs effectively in grid connected mode, standalone mode with smooth transition between the modes. And it maintains dc bus voltage of the microgrid constant irrespective of load and generation variations and also during mode changing conditions.

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Gnanam, Nisha, and Jamuna Kamaraj. "Real-Time Frequency Stabilization of Standalone PV System with SMC." International Journal of Innovative Research and Scientific Studies 6, no. 1 (2022): 38–48. http://dx.doi.org/10.53894/ijirss.v6i1.1080.

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This paper aims to obtain suitable control for the Standalone Photo Voltaic (SAPV) system to meet consumer demands in weather conditions. A SAPV system is developed with a solar array with Maximum Power Point Tracking (MPPT), a Boost converter, and an inverter. This system uses controllers for maximum power output tracking, constant DC output of the Boost converter, and constant output voltage and frequency with Pulse Width Modulation (PWM) control mode. MPPT, boost converter, and inverter controller parameters are designed and tuned, respectively. Proportional gain (Kp) and Integral gain (Ki) values and the Sliding Mode Method (SMC) tune the controller parameters. The innovative aspect of this work is to propose a standalone PV system with controllers based only on the sliding mode control approach. Moreover, the current controller provides an output current of high quality with a THD of 1.6 %. Effectiveness and robustness of the proposed scheme modeled and simulated under OPAL-RT real-time Software in Loop (SIL) platform with MATLAB Simulink under fast variations of irradiance and temperature. Various analyses have been carried out for examining the proposed Sliding Mode Controller-based standalone photovoltaic system.

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Nur, Syafiqah Mohd Taib, Zaliha Mohammad Noor Siti, Musa Suleiman, and Dewi Abd Aziz Pusparini. "Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage." Fuzzy logic controlbased MPPTfor standalone photovoltaic system with battery storage 14, no. 4 (2023): 2527–36. https://doi.org/10.11591/ijpeds.v14.i4.pp2527-2536.

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Considering its favorable characteristics, photovoltaic energy is widely recognized as highly beneficial to the environment. To achieve continuous maximum output power across the PV system, an efficient control strategy is developed after studying several maximum power point detection (MPPT) techniques. Consequently, this paper presents a useful control technique for maximizing power extraction from PV systems under varying conditions. The paper focuses on the design of a fuzzy logic control (FLC)-based maximum power point tracking (MPPT) system for a standalone photovoltaic (SAPV) system with battery storage. The FLC is employed to extract the maximum power from a PV module and integrate it with the battery to supply the load. The FLC offers advantages over conventional MPPT methods, such as accurate and rapid response to changes in environmental conditions, including solar irradiance and temperature. The PV system exhibits low total harmonic distortion (THD), making it ideal for household appliances, and can deliver 230 Vrms of single-phase output AC power. The system is designed and implemented in MATLAB/Simulink, incorporating a solar module, DC-to-DC converters, battery storage, and an inverter for supplying AC loads. Simulation results for selected test conditions are presented and discussed. The system performance is evaluated through steady state tests and dynamic tests in simulations.

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Taib, Nur Syafiqah Mohd, Siti Zaliha Mohammad Noor, Suleiman Musa, and Pusparini Dewi Abd Aziz. "Fuzzy logic control based MPPT for standalone photovoltaic system with battery storage." International Journal of Power Electronics and Drive Systems (IJPEDS) 14, no. 4 (2023): 2527. http://dx.doi.org/10.11591/ijpeds.v14.i4.pp2527-2536.

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<span lang="EN-US">Considering its favorable characteristics, photovoltaic energy is widely recognized as highly beneficial to the environment. To achieve continuous maximum output power across the PV system, an efficient control strategy is developed after studying several maximum power point detection (MPPT) techniques. Consequently, this paper presents a useful control technique for maximizing power extraction from PV systems under varying conditions. The paper focuses on the design of a fuzzy logic control (FLC)-based maximum power point tracking (MPPT) system for a standalone photovoltaic (SAPV) system with battery storage. The FLC is employed to extract the maximum power from a PV module and integrate it with the battery to supply the load. The FLC offers advantages over conventional MPPT methods, such as accurate and rapid response to changes in environmental conditions, including solar irradiance and temperature. The PV system exhibits low total harmonic distortion (THD), making it ideal for household appliances, and can deliver 230 Vrms of single-phase output AC power. The system is designed and implemented in MATLAB/Simulink, incorporating a solar module, DC-to-DC converters, battery storage, and an inverter for supplying AC loads. Simulation results for selected test conditions are presented and discussed. The system performance is evaluated through steady state tests and dynamic tests in simulations.</span>

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Sahoo, Girija Shankar, Narendra Kumar Jain, Bhuvana J, and Kuldeep Singh Kulhar. "Power Quality Improvement of PV-Wind-Battery Powered Standalone Hybrid System." E3S Web of Conferences 540 (2024): 01007. http://dx.doi.org/10.1051/e3sconf/202454001007.

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Hybrid standalone power supply system’s especially operating with renewable energy sources are becoming popular and establishing in many places worldwide. Two major renewable energy sources for electricity generation are solar and wind. Usually Photovoltaic modules (PVMs) are using for producing electricity from solar energy and in the similar way, PMSG based wind power conversion systems are becoming popular for medium power ranges. Therefore, a standalone hybrid system consisting of PVMs, wind, and battery can ensure a reliable power supply to various loads. The combination of these energy sources, along with the battery storage system, offers a flexible and dependable power supply to consumers at all times. This innovative approach involves the implementation of a novel control technique in a microgrid setup to uphold power quality at the PCC. The system integrates devices for maximizing power point to improve energy utilization efficiency. A DC to DC bidirectional circuit connects the battery bank unit (BBU) to the system to efficiently regulate energy. The bidirectional DC to DC circuit controls the dc-link voltage by accurately managing the discharging and charging of the battery. The three-phase inverter is situated between the AC loads and dclink, designed with a control system that ensures a constant RMS voltage at the PCC, regardless of changes in load and energy sources. MATLAB platform is used to present the results under various case studies in this paper.

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Anjum, Waqas, Abdul Rashid Husain, Junaidi Abdul Aziz, Syed Muhammad Fasih ur Rehman, Muhammad Paend Bakht, and Hasan Alqaraghuli. "A Robust Dynamic Control Strategy for Standalone PV System under Variable Load and Environmental Conditions." Sustainability 14, no. 8 (2022): 4601. http://dx.doi.org/10.3390/su14084601.

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Dual-stage standalone photovoltaic (PV) systems suffer from stability, reliability issues, and their efficiency to deliver maximum power is greatly affected by changing environmental conditions. A hybrid back-stepping control (BSC) is a good candidate for maximum power point tracking (MPPT) however, there are eminent steady-state oscillations in the PV output due to BSC’s recursive nature. The issue can be addressed by proposing a hybrid integral back-stepping control (IBSC) algorithm where the proposed integral action significantly reduces the steady-state oscillations in the PV array output under varying temperature and solar irradiance level. Simultaneously, at the AC stage, the primary challenge is to reduce both the steady-state tracking error and total harmonic distortion (THD) at the output of VSI, resulting from the load parameter variations. Although the conventional sliding mode control (SMC) is robust to parameter variations, however, it is discontinuous in nature and inherit over-conservative gain design. In order to address this issue, a dynamic disturbance rejection strategy based on super twisting control (STC) has been proposed where a higher order sliding mode observer is designed to estimate the effect of load disturbances as a lumped parameter which is then rejected by the newly designed control law to achieve the desired VSI tracking performance. The proposed control strategy has been validated via MATLAB Simulink where the system reaches the steady-state in 0.005 s and gives a DC–DC conversion efficiency of 99.85% at the peak solar irradiation level. The AC stage steady-state error is minimized to 0 V whereas, THD is limited to 0.07% and 0.11% for linear and non-linear loads, respectively.

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Yang, Yan, Qingyu Wei, Shanke Liu, and Liang Zhao. "Distribution Strategy Optimization of Standalone Hybrid WT/PV System Based on Different Solar and Wind Resources for Rural Applications." Energies 15, no. 14 (2022): 5307. http://dx.doi.org/10.3390/en15145307.

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The characteristics of solar and wind energy determine that the optimization of a standalone hybrid wind turbine (WT)/photovoltaic panel (PV) system depends on the natural resources of the installation location. In order to ensure system reliability and improve the resource utilization, a method for determining the installed capacity ratio of a hybrid renewable energy system is required. This study proposes a calculation method to optimize the installed capacity ratio, considering the system reliability to meet the needs of the hybrid system to adapt to different natural resources. In this paper, a standalone hybrid WT/PV system to provide electricity for rural areas is designed. Taking the power supply guarantee rate and electricity supply continuity as indicators, the system is simulated by using the Transient System Simulator solver. The results show that the recommended installed capacity ratio of the WT and PV is 5:1 when the total solar irradiation is less than 5040 MJ/(m2·a) and the annual average wind velocity is in the range of 3.0~3.5 m/s. When the annual average wind velocity is in the range of 2.0~3.0 m/s, the PV plays an increasingly significant role in the hybrid system and exceeds the WT if the total solar irradiation is greater than 6300 MJ/(m2·a). However, if the total solar irradiation and the annual average wind velocity are less than 5040 MJ/(m2·a) and 2.0 m/s, respectively, it is not recommended to use the standalone hybrid system because it cannot meet the power demand. These conclusions provide guidance for the distribution strategies of the standalone hybrid WT/PV system within different natural resources.

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Dissertations / Theses on the topic "Designed of standalone PV system control"

Sinha, Anamika, and Swastik Sambit Sahu. "MPPT Control of Standalone -PV System With Battery as an Energy Storage Element." Thesis, 2015. http://ethesis.nitrkl.ac.in/7858/1/2015_MT_MPMT_SINGHA.pdf.

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In this project the main focus is on using MPPT control of standalone-PV with battery to supply power to the loads. The system comprises of a battery, PV panel and a boost converter circuit. The project consists of both software and hardware design. The boost converter tracks the maximum power point(MPP) of the PV panel by controlling the duty cycle and giving it as gate pulse to the boost converter whereas the function of battery is to maintain a constant dc-link voltage. The inverter is used to supply ac power to the loads. The filter is also designed to reduce the harmonics and to obtain perfect sinusoidal output, which may otherwise damage the loads, so that total harmonic distortion is according to IEEE STANDARD. Perturb and observe method is used as MPPT (Maximum Power Point Tracking) control algorithm. MATLAB SIMULINK is used to create a simulation model of the Standalone-PV system and the output is verified. After verification of simulation, the whole set up is designed in hardware and it is tested to run according to the desired parameters.

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Book chapters on the topic "Designed of standalone PV system control"

Haque, Ahteshamul, Mohammed Ali Khan, and Varaha Satya Bharath Kurukuru. "Standalone Control Operation of PV Inverter." In Design and Control of Grid-Connected Photovoltaic System. CRC Press, 2023. http://dx.doi.org/10.1201/9781003257189-5.

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Rai, Rahul, Anamika Das, and Ananyo Bhattacharya. "Analysis and Design of Single-Phase Z-Source Inverter with Different PWM Techniques for Standalone PV System." In Advances in Energy and Control Systems. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-97-0154-4_10.

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Hamidi, Muhammad Najwan. "Improved DC-Link Voltage Control Scheme for Standalone PV Renewable Energy System." In Proceedings of the 12th International Conference on Robotics, Vision, Signal Processing and Power Applications. Springer Nature Singapore, 2024. http://dx.doi.org/10.1007/978-981-99-9005-4_3.

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Jain, Sachin, Ramsha Karampuri, and Ramulu Chinthamalla. "Solar PV Powered Standalone Water Pumping Systems." In Handbook of Research on Power and Energy System Optimization. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-3935-3.ch005.

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The standalone solar photovoltaic (PV) powered water pumping system could have either two power conditioning units (PCUs) or a single PCU. The system with single PCU is advantageous over the prior because of low device count, smaller in size, low cost, low losses, and higher efficiency. This chapter includes four such single-stage PV water pumping systems. All the four systems are operated using the integrated control technique which assimilates maximum power point tracking (MPPT), pulse width modulation (PWM) technique, and motor control. But the PV systems differ in the inverter configuration used as well as the employed induction motor (conventional star connected and open-end winding induction motor [OEWIM]). The detailed description of mathematical modeling, design and analysis of all the four PV pumping systems along with the simulation results are presented in this chapter.

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Messaoudi, Fethi, Fethi Farhani, and Abderrahmen Zaafouri. "Performance of Super-Twisting MPPT Control for a Standalone PV System." In Advances in Transdisciplinary Engineering. IOS Press, 2024. https://doi.org/10.3233/atde241228.

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Renewable energies are the key to sustainable development. They are the seat of a winning energy strategy. In particular, photovoltaic energy (PV) is one of the most widespread of these energies. But this energy suffers from its intermittency due to changing meteorological conditions, hence the need to follow the maximum power point of this energy at each moment. This paper focuses on the sliding mode control command to optimize the maximum power search. Thus we spread the evolved command on sliding mode control noted super twisting control as an MPPT approach. This latter is used in hybrid with the conventional incremental conductance similar method to the conventional hybridization incremental conductance-sliding mode control. The evolved approach is tested under MATLAB/Simulink with two other methods, such as the incremental conductance and its hybridization with sliding mode control. The results show a considerable minimization of the phenomena of ripple and chattering, thus improving MPPT efficiency.

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Molu, Reagan Jean Jacques, Wulfran Fendzi Mbasso, Serge Raoul Dzonde Naoussi, Patrice Wira, Harrison Ambe, and Kenfack Tsobze Saatong. "Power Quality Improvement of a Standalone Power Supply System Powered by PV, Wind, and Batteries via LSTM-based ANN Controllers." In Chronicle of Computing. Oklahoma International Publishing, 2024. http://dx.doi.org/10.55432/978-1-6692-0007-9_10.

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Standalone electric power supply systems that integrate wind and photovoltaic (PV) technologies are widely employed in various applications. These systems require a battery storage system to ensure a continuous power supply, regardless of changes in loads, wind speed, and solar irradiance. To ensure a reliable and uniform power supply, several modifications need to be implemented in these hybrid systems. Power quality is an essential parameter in autonomous power systems, especially those that depend on hybrid energy sources. The battery should undergo the process of charging when there is an excess of energy and discharging when there is a demand from the loads. To achieve this, a bidirectional power flow circuit is utilized to establish a connection between the battery and the network, incorporating an appropriate controlling mechanism. Even in scenarios where there is only partial shading, a Modified Invasive Weed Optimization technique is employed to achieve the most efficient power operation of the photovoltaic (PV) system. Additionally, a Sliding Mode Control strategy is utilized for the wind turbine. This research investigates the application of multiple photovoltaic (PV) systems and wind turbines, each configured with different arrangements of parallel and series combinations of PV panels. The goal is to determine the appropriate rating for the power supply system. The control units in this hybrid standalone power system utilize artificial neural network (ANN) controllers that are based on long short-term memory (LSTM). The aforementioned controllers, when combined with the proposed control methodologies, improve power quality in various scenarios. The results of this investigation are presented using Hardware-in-the-Loop (HIL) on the OPAL-RT platform to evaluate the efficacy of the proposed methodology.

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Makdisie, Carlo, Badia Haidar, and Hassan Haes Alhelou. "An Optimal Photovoltaic Conversion System for Future Smart Grids." In Handbook of Research on Power and Energy System Optimization. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-3935-3.ch018.

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Smart grid technology is the key for a reliable and efficient use of distributed energy resources. Amongst all the renewable sources, solar power takes the prominent position due to its availability in abundance. In this chapter, the authors present smart grid infrastructure issues and integrating solar PV-sourced electricity in the smart grid. Smart grid has many features, including reliability, flexibility on network topology, efficiency, sustainability, and market-enabling. The authors select a photovoltaic active power line conditioner as a case study. This line conditioner is a device designed to extract the maximum power of a photovoltaic (PV) system and to compensate the nonlinear and unbalanced loads of the electrical power systems. The performance of the PV conditioner with the neuro-fuzzy control designed has been analyzed through a simulation platform.

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Makdisie, Carlo, Badia Haidar, and Hassan Haes Alhelou. "An Optimal Photovoltaic Conversion System for Future Smart Grids." In Research Anthology on Smart Grid and Microgrid Development. IGI Global, 2022. http://dx.doi.org/10.4018/978-1-6684-3666-0.ch026.

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Hamida, Mohamed Lamine, Arezki FEKIK, Hakim DENOUN, Aghiles Ardjal, and Ahmad Taher Azar. "Sliding mode controller for a single-phase six-level flying capacitor inverter—application for a standalone PV system." In Power Electronics Converters and their Control for Renewable Energy Applications. Elsevier, 2023. http://dx.doi.org/10.1016/b978-0-323-91941-8.00014-7.

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Mahammad Rafi, Dr K. "ASYMMETRICAL MULTI-LEVEL DC-LINK INVERTER FOR PV ENERGY SYSTEM." In Futuristic Trends in Electrical Engineering Volume 3 Book 2. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bdee2p5ch1.

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The global shift towards renewable energy sources necessitates innovative solutions to enhance the performance and efficiency of photovoltaic (PV) energy systems. This chapter presents a novel Asymmetrical Multi-Level DC-Link Inverter designed to address the challenges associated with traditional inverters in PV applications. The proposed inverter ,architecture leverages an asymmetrical multi-level topology to improve power quality, reduce harmonic distortion, and enhance overall system reliability. The asymmetrical multi-level DC-link inverter integrates advanced control algorithms to optimize energy conversion and grid interaction. By utilizing multiple voltage levels in the DC-link, the inverter achieves finer voltage resolution, resulting in improved waveform quality and reduced switching losses. This innovation contributes to increased energy yield and a more stable integration of PV-generated power into the grid.

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Conference papers on the topic "Designed of standalone PV system control"

Mrityunjay, Ankita Arora, and Alka Singh. "Design and Performance Evaluation of Various DC-DC Converters for Standalone PV Applications." In 2024 IEEE Third International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2024. http://dx.doi.org/10.1109/icpeices62430.2024.10719113.

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Chakraborty, Subhadip, Bhim Singh, and B. K. Panigrahi. "Seamless Operation and Improved Control of a Standalone Solar-Wind-BES Driven 3P4W System Designed for Remote Onshore Island Applications." In 2024 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES). IEEE, 2024. https://doi.org/10.1109/pedes61459.2024.10961828.

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Radoi, Radu, Liliana Dumitrescu, Bogdan Tudor, Andrei Benescu, and Robert Blejan. "PHOTOVOLTAIC SYSTEM FOR POWERING A REMOTE ACTUATION SYSTEM." In 24th SGEM International Multidisciplinary Scientific GeoConference 24. STEF92 Technology, 2024. https://doi.org/10.5593/sgem2024/4.1/s17.23.

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In isolated areas without access to the grid where it is necessary to operate certain equipment, such as the operation of a valve in a mining area or some gates on a irrigation canals, an installation with fotovoltaic supply can be used. Considering the intermittent operation regime of the driven equipment, a solar-powered drive installation can be designed, and by storing the energy in a battery, operation can be ensured during the night as well. Thus, the PV power system must be sized (PV peak power, battery and inverter capacities) so as to support the power of a compact hydraulic power pack and accessory equipment. In order not to be damaged by the weather conditions, the equipment must be housed in a water-resistant enclosure The system must also be equipped with an energy management unit and remote control (GSM or LoRa Gateway). The article presents the realization of such a system and the tests carried out to monitor the production and consumption of electricity during several operating cycles.

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Datta, Promit Chandra, Nirabhra Pandey, Akshay Chabukswar, Abhishek Joshi, Rupesh Wandhare, and Pradeep Yemula. "Design and Control of PV and Battery Connected Standalone Refrigeration System." In 2022 IEEE International Conference on Power Electronics, Drives and Energy Systems (PEDES). IEEE, 2022. http://dx.doi.org/10.1109/pedes56012.2022.10080622.

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Ghenai, Chaouki, Tareq Salameh, and Adel Merabet. "Design, Optimization and Control of Standalone Solar PV/Fuel Cell Hybrid Power System." In 2017 International Renewable and Sustainable Energy Conference (IRSEC). IEEE, 2017. http://dx.doi.org/10.1109/irsec.2017.8477338.

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Masoom, Md Modassir, Narendra Kumar, and Mayank Kumar. "Design and Power Flow Control in Standalone PV System with Reduced Battery Current Ripple." In 2023 International Conference on Power, Instrumentation, Control and Computing (PICC). IEEE, 2023. http://dx.doi.org/10.1109/picc57976.2023.10142520.

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Essa, Mohamed El-Sayed M., Omnia S. S. Hussian, and M. A. Moustafa Hassan. "Intelligent Fractional Control Design of MPPT for a Standalone PV System Based on Optimization Technique." In 2021 17th International Computer Engineering Conference (ICENCO). IEEE, 2021. http://dx.doi.org/10.1109/icenco49852.2021.9698966.

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Kushwaha, Radha, Tapas Kumar Saha, Jitesh Chandra Barman, and Jayati Dey. "Analysis and design of 2 DOF control of push-pull converter used for standalone PV system." In 2015 Sixth International Renewable Energy Congress (IREC). IEEE, 2015. http://dx.doi.org/10.1109/irec.2015.7110918.

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Patil, Shweta, Fatima N. Kudchi, and Vinuta V. Koluragi. "Novel phase modulated current-fed converter for fuel/PV cell standalone system: Analysis, design, and simulation results." In 2016 International Conference on Control, Instrumentation, Communication and Computational Technologies (ICCICCT). IEEE, 2016. http://dx.doi.org/10.1109/iccicct.2016.7987965.

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Kadam, Pratik, Gopal Lahoti, and Urmi Shah. "Dynamic and compact control of PV standalone system." In 2016 IEEE 1st International Conference on Power Electronics, Intelligent Control and Energy Systems (ICPEICES). IEEE, 2016. http://dx.doi.org/10.1109/icpeices.2016.7853454.

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Contents

Academic literature on the topic 'Designed of standalone PV system control'

Create a spot-on reference in APA, MLA, Chicago, Harvard, and other styles

Journal articles on the topic "Designed of standalone PV system control"

Dissertations / Theses on the topic "Designed of standalone PV system control"

Book chapters on the topic "Designed of standalone PV system control"

Conference papers on the topic "Designed of standalone PV system control"