Solar Charge Controller with Maximum Power Point Tracking for Low-Power Solar Applications

Abuzairi, Tomy; Ramadhan, Wing Wira Adimas; Devara, Kresna

doi:10.1155/2019/5026464

Cited by 17 publications

(10 citation statements)

References 14 publications

(20 reference statements)

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“…The lower voltage needed to charge the batteries are created by converting the higher DC output of the solar panels 28 . The output of the solar module is continuously examined by MPPT and compared with the battery voltage to determine the best voltage to charge the battery with and the best power to supply to the load connected to the battery 29 . The MPPT algorithm makes sure the system is operating at its maximum power point by controlling the voltage we receive from the solar panel 30 .…”

Section: Methodsmentioning

confidence: 99%

Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities

Ali

Riaz

Koondhar

et al. 2023

Energy Science & Engineering

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Rural electrification is a crucial component of meeting sustainable development goals. In Pakistan, load shedding and power outages are frequent. According to the current data, Pakistan is experiencing a shortfall of power between 6000 and 6500 MW. Microgrid technology has the potential to provide a solution to this problem in an efficient and low‐cost manner. This paper proposes the development of a hybrid microgrid system (HMGS) for rural communities. For that purpose, a technological analysis of the HMGS system for rural electrification is performed. Solar photovoltaic (PV) and wind resource‐based renewable energy systems are considered in this work for the electrification of rural areas of Pakistan. A hybrid PV/wind system is designed using MATLAB software. Simulation results show that a 230‐V sinusoidal output voltage has been produced by the proposed model. The advantage of this model is that it minimizes the impact of transients and provides a sinusoidal output waveform.

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Section: Methodsmentioning

confidence: 99%

Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities

Ali

Riaz

Koondhar

et al. 2023

Energy Science & Engineering

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“…The DC-DC converter design is out of the scope of this paper, but the reader can refer to five papers [76][77][78][79][80] for details.…”

Section: Generalized Electric Vehicle Modelmentioning

confidence: 99%

System-Independent Irradiance Sensorless ANN-Based MPPT for Photovoltaic Systems in Electric Vehicles

2021

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The integration of photovoltaic systems (PVS) in electric vehicles (EV) increases the vehicle’s autonomy by providing an additional energy source other than the battery. However, current solar cell technology generates around 200 W for a 1.4 m2 panel (to be installed on the roof of the EV) at stable irradiance conditions. This limitation in production and the sudden changes in irradiance produced by shadows of clouds, buildings, and other structures make developing a fast and efficient maximum power point tracking (MPPT) technique in this area necessary. This article proposes an artificial neural network (ANN)-based MPPT, called DS-ANN, that uses manufacturer datasheet parameters as inputs to the network to address this problem. The Bayesian backpropagation-regularization performs the training, ensuring that the MPPT technique operates satisfactorily on different PVS without retraining. We simulated the response of 20 commercial modules against actual irradiance data to validate the proposed method. The results show that our method achieves an average tracking efficiency of 99.66%, improving by 1.21% over an enhanced P&O method.

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“…Bila battery sudah penuh, SCC akan menghentikan pengisian dan memasuki fase floating charge untuk tipe battery tertentu. Teknologi yang paling banyak dipakai SCC saat ini adalah Pulse Width Modulation (PWM) [7] dan Maximum Power Point Tracking (MPPT) [8].…”

Section: Solar Charge Controllerunclassified

“…Untuk meningkatkan reliability, kapasitas daya bisa ditambah dengan menambah panel surya. Untuk regulator pengisian battery, SCC bisa di upgrade ke model MPPT untuk menambah efisiensi produksi energi listrik [16] [8]. Untuk keperluan pemantauan, bisa ditambahkan real-time monitoring berbasis Internet of Things (IoT) [17].…”

Section: Kesimpulan Dan Saranunclassified

Pemanfaatan Sistem Photovoltaic untuk Catu Daya Repeater Radio PLN

Sudewanto¹,

Kalatiku²

2021

energi

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The utilization of radio communication is one of several means to carry out electricity network coordination. The establishment of radio repeater is mandatory to cover vast areas of electricity system nodes. The radiation of a radio system is generally restricted by the contour of the terrain. The optimal location for radio repeater is usually situated in an isolated area, away from society. This will cause a problem in acquiring power supply from the local grid. This problem can be solved by harnessing solar power to energize the photovoltaic system. The implementation of the photovoltaic system will be done by performing load calculations of radio repeater equipment, determining the components needed, and executing site installation. With calculation result of 6,3 Days of Autonomy, the photovoltaic system is believed to be robust enough to increase the effectiveness of radio repeater operation.

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Solar Charge Controller with Maximum Power Point Tracking for Low-Power Solar Applications

Cited by 17 publications

References 14 publications

Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities

Renewable energy sources‐based hybrid microgrid system for off‐grid electricity solution for rural communities

System-Independent Irradiance Sensorless ANN-Based MPPT for Photovoltaic Systems in Electric Vehicles

Pemanfaatan Sistem Photovoltaic untuk Catu Daya Repeater Radio PLN

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