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Journal articles on the topic 'Dual Axis LDR Arduino Servomotor'

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1

Pranata, Handy, Aryuanto Soetedjo, and M. Ibrahim Ashari. "Rancang Bangun Solar Tracker Dual Axis Panel Surya Berbasis Arduino." Prosiding SENIATI 6, no. 1 (2022): 9–16. http://dx.doi.org/10.36040/seniati.v6i1.4833.

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Pembangkit Listrik Tenaga Surya (PLTS) merupakan pembangkit listrik alternatif yang ramah lingkungan dan optimal dalam proses penyerapan sinar matahari. Salah satu metode untuk mengoptimalkan kenerja panel surya yaitu dengan solar tracker. Sistem solar tracker dual axis pada rancangan ini mengembangkan dari yang sudah ada dengan menghilangkan penggunaan sensor cahaya, dengan metode ini dapat mengurangi penggunaan dari sensor LDR dan dapat memaksimalkan fungsi dari panel surya yang pada umumnya hanya digunakan untuk penghasil energi listrik saja dengan metode pemberian sekat pemisah pada panel
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Dangat, Prof M. T., Tanvi Pillay, Vaidehi Khartalkar, Shiv Bhosle, and Neha Ankushrao. "Dual Axis Solar Tracker Using Arduino." International Journal for Research in Applied Science and Engineering Technology 11, no. 10 (2023): 1198–201. http://dx.doi.org/10.22214/ijraset.2023.56186.

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Abstract: The biggest crisis we are heading into is the climate change due to excessive use of fossil fuels and to overcome these issues, we have only one solution that is utilizing Renewable Energy. Renewable energy is a type of energy that is harnessed from the nature without causing ill effects to the environment. One of the most prominent kinds of renewable energy is solar energy. The output electrical energy depends on the amount of sunlight falling on the solar panel. Traditionally, solar panels are fixed and the movement of sun over the horizon means that the solar panel does not harnes
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ANIKET, VEDNORKAR, and MANERKASAR ARIF. "DUAL AXIS SOLAR TRACKING SYSTEM WITHOUT LDR USING ARDUINO." IJIERT - International Journal of Innovations in Engineering Research and Technology 5, no. 4 (2018): 60–65. https://doi.org/10.5281/zenodo.1453985.

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<strong>This paper deals with arduino based solar tracking system,To grab maximum energy solar is non conventional source of energy with the help of this we developed solar tracking system so that can produced maximum output electricity But due to revolution of earth solar source,Means sun does not phase panel continuously . Hence less electricity produces. To produce the maximum amount of energy a solar panel must be perpendicular to the light source because the sun moves both throughout the day as well as the year a solar panel must be able to track the sun�s movement and maximum possible ou
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4

Tade, S. V. "DUAL AXIS SOLAR TRACKING." International Scientific Journal of Engineering and Management 04, no. 06 (2025): 1–9. https://doi.org/10.55041/isjem04452.

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Abstract - This paper presents the development and implementation of a dual-axis solar tracking system designed to improve the efficiency of photovoltaic (PV) modules in a solar energy setup. The system aims to maximize the solar irradiance received by the PV panel by maintaining continuous alignment with the sun throughout the day. A hardware prototype was designed and constructed using an Arduino Uno microcontroller, which controls two servo motors to rotate the solar panel along both azimuth and elevation axes. The control mechanism is driven by real-time input from four light-dependent res
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Chenchireddy, Kalagotla, Gouse Basha Mulla, Vadthya Jagan, Waseem Sultana, Shabbier Ahmed Sydu, and Eswaraiah Giddalur. "Solar tracker using Arduino microcontroller and light dependent resistor." International Journal of Power Electronics and Drive Systems (IJPEDS) 16, no. 1 (2025): 70. https://doi.org/10.11591/ijpeds.v16.i1.pp70-75.

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This paper presents a dual-axis solar tracker using Arduino and LDRs. The aim of the proposed paper is to enhance the competence of solar energy harvesting by developing an intelligent solar tracking system. This system employs light-dependent resistors (LDRs) as sensors to detect ambient light levels, enabling precise adjustments of solar panels along both azimuth and elevation axes. The Arduino microcontroller serves as the intellect of the system, orchestrating the synchronized movement of dual-axis servo motors to align solar panels optimally with the sun's point during the day. The core f
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Chenchireddy, Kalagotla, Gouse Basha Mulla, Vadthya Jagan, Waseem Sultana, Shabbier Ahmed Sydu, and Eswaraiah Giddalur. "Solar tracker using Arduino microcontroller and light dependent resistor." Solar tracker using Arduino microcontroller and light dependent resistor 16, no. 1 (2025): 70–75. https://doi.org/10.11591/ijpeds.v16.i1.pp70-75.

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This paper presents a dual-axis solar tracker using Arduino and LDRs. The aim of the proposed paper is to enhance the competence of solar energy harvesting by developing an intelligent solar tracking system. This system employs light-dependent resistors (LDRs) as sensors to detect ambient light levels, enabling precise adjustments of solar panels along both azimuth and elevation axes. The Arduino microcontroller serves as the intellect of the system, orchestrating the synchronized movement of dual-axis servo motors to align solar panels optimally with the sun's point during the day. The core f
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7

Mainuddin, Md. "Fabrication, Design, and Analysis of Dual Axis Solar Tracking System." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 03 (2024): 1–11. http://dx.doi.org/10.55041/ijsrem29207.

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Energy crisis is one of the prime issues in the third world developing country like Bangladesh. There is an enormous gap between generation and demand of electrical energy. Nearly 50% of the population of the country is extremely isolated from this blessing. Renewable energy is the only answer to solve this issue. Solar energy is one of the most effective resources of renewable energy which could play a significant role in solving this crisis. This research presents a performance analysis of the dual axis solar tracking system using Arduino. The main objective of this research is whether a sta
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8

Al anzy, Laith Abdul Raheem, Ahmed Aizaldeen Abdullah, and Ali Kahtan Lilo Aquraishi. "IoT Cloud System Based Dual Axis Solar Tracker Using Arduino." Journal of Internet Services and Information Security 13, no. 2 (2023): 193–202. http://dx.doi.org/10.58346/jisis.2023.i2.012.

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Because of the urgent need for electricity and the shortage of it, humanity has searched for the most environmentally friendly and well-available types of energy. From the different types of energy that comes from the sun, wind, tides, hydro and thermal energy that emanates from the earth and is spontaneously replenished naturally, the focus has been on solar energy. Which represents the best source of energy as it is naturally available in life and does not cause any damage or pollution in particular to nature and life. Not to mention after-math effects. This project led to the development of
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Rd. Reyhan Triwibowo, Ignatius R. Mardiyanto, and Mulki R. B Pratama. "Sistem Kontrol Pada Solar Tracker Dual Axis Berbasis Arduino dan Light Dependent Resistor (LDR)." Jurnal Teknik Energi 13, no. 1 (2024): 52–57. http://dx.doi.org/10.35313/.v13i1.5219.

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Solar cell merupakan salah satu sumber energi terbarukan yang berfungsi untuk mengkonversi energi panas dari matahari sehingga bisa menghasilkan energi listrik. Hingga saat ini penyerapan energi panas matahari pada solar cell belum maksimal. Hal ini disebabkan karena solar cell hanya diletakkan secara statis untuk menyerap energi matahari dari arah timur dan barat. Sedangkan sudut penyinaran matahari yang optimal berasal dari arah utara, timur, Selatan dan barat, maka dari itu, dalam penelitian ini menerapkan solar tracker berbasis dual axis pada rangkaian solar cell agar penyerapan energi pan
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Amin, Nurhani, Agustinus Kali, Muchsin, and Firman Syam. "Automatic dual-axis solar tracker system design." MATEC Web of Conferences 331 (2020): 06002. http://dx.doi.org/10.1051/matecconf/202033106002.

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Sunlight is one of the energy that can be used to generate electricity. Converting solar energy into electrical energy required a device called Photo-Voltaic (PV). However, output of PV hardly depends on the position of PV to the sun. The maximum PV output will reach when the sun position perpendicular to the surface of PV. Therefore, the device that can track the position of PV is needed. The aim of this research is to design a track solar system using Arduino and LDR sensor to follow the sun movement. This method will be applied to a 80 Wp solar panel. The output of the tracker solar system
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11

Any Kurniawaty Yapie and Fathur Riski. "Perancangan Solar Tracker Dual Axis untuk Optimasi Panel Surya." Jurnal Penelitian Rumpun Ilmu Teknik 3, no. 4 (2024): 179–90. https://doi.org/10.55606/juprit.v3i4.4769.

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in this global era, the development of renewable energy is the main focus to reduce dependence on fossil fuels and negative impacts on the environment. Solar energy is one of the most promising renewable energy sources on this earth of Indonesia, which can be harvested through solar panels. This study aims to design and create a dual-axis solar tracker prototype using an Arduino Uno microcontroller to increase the absorption of solar energy by solar panels. This prototype uses an LDR sensor and a servo motor to move the solar panel following the movement of the sun throughout the day. The test
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12

Jumaat, Siti Amely, Mohamad Nur Aiman Mohd Said, and Clarence Rimong Anak Jawa. "Dual axis solar tracker with IoT monitoring system using arduino." International Journal of Power Electronics and Drive Systems (IJPEDS) 11, no. 1 (2020): 451. http://dx.doi.org/10.11591/ijpeds.v11.i1.pp451-458.

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This project aims to develop dual axis solar tracker with IOT monitoring system using Arduino. Generally, solar energy is the technology to get useful energy from sunlight. Solar energy has been used in many traditional technologies over the centuries and has been widely used in the absence of other energy supplies. Its usefulness is widespread when awareness of the cost of the environment and the supply is limited by other energy sources such as fuel. The solar tracking system is the most effective technology to improve the efficiency of solar panels by tracking and following the sun's moveme
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Mohamad, Nur Aiman Mohd Said, Amely Jumaat Siti, and Rimong Anak Jawa Clarence. "Dual axis solar tracker with IoT monitoring system using arduino." International Journal of Power Electronics and Drive System (IJPEDS) 11, no. 1 (2020): 451–58. https://doi.org/10.11591/ijpeds.v11.i1.pp451-458.

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This project aims to develop dual axis solar tracker with IOT monitoring system using Arduino. Generally, solar energy is the technology to get useful energy from sunlight. Solar energy has been used in many traditional technologies over the centuries and has been widely used in the absence of other energy supplies. Its usefulness is widespread when awareness of the cost of the environment and the supply is limited by other energy sources such as fuel. The solar tracking system is the most effective technology to improve the efficiency of solar panels by tracking and following the sun&#39;s mo
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14

Ganer, Prof Anmol. "Dual Axis Solar Tracking System with Weather Sensor." International Journal for Research in Applied Science and Engineering Technology 10, no. 6 (2022): 2894–97. http://dx.doi.org/10.22214/ijraset.2022.44652.

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Abstract: Energy crisis is one in every of the major problems in world developing countries like Republic of India.There's a huge gap between generation and demand of current. Nearly half of the population of the country cannot get the power supply. Renewable energy is one of the answers to solve this issue. Solar power is one in every of the foremost effective resources of the renewable energy that might play a big role to resolve this drawback. This analysis presents a performance analysis of the dual axis solar tracking systemusing Arduino and led &amp; servo motors. The most objective of t
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15

Nori, Abbas F., Enas R. Wdaah, Hassan J. Alatta, and Faisel G. Mohammed. "A prototype sensorless dual axis solar tracker system based on Arduino programming technique." IOP Conference Series: Earth and Environmental Science 1202, no. 1 (2023): 012011. http://dx.doi.org/10.1088/1755-1315/1202/1/012011.

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Abstract The research works on designing and manufacturing a device that can generate clean energy, taking into account the geographical location of Iraq, and be economical and cheap, this manufactured device addresses the permanent problems that this type of device encounters. Therefore, a solar tracker has been manufactured that tracks the sun’s rays, to reduce the number of solar panels used, and is an environmentally friendly generator, it works without the LDR photosensors. The work was done on different days, a sunny day, a partially cloudy day, and a cloudy day. Through the work, it was
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16

Pardawantara, Meiko, Fery Antony, and Rachmansyah. "PERANCANGAN SISTEM SOLAR TRACKING DUAL AXIS UNTUK OPTIMASI PANEL SURYA MENGGUNAKAN SENSOR LDR DAN GYROSCOPE BERBASIS INTERNET OF THINGS (IOT)." Journal of Intelligent Networks and IoT Global 1, no. 2 (2023): 98–106. http://dx.doi.org/10.36982/jinig.v1i2.3645.

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Sistem instalasi solar tracking dual axis merupakan sebuah sistem yang mampu untuk menggerakkan panel surya untuk selalu mengikuti pergerakan dari sumber cahaya secara otomatis. Pergerakan dari sistem solar trackingdual axis memiliki dua arah pergerakan yaitu secara horizontal dan vertical. Tujuan dari penelitian ini adalah menghasilkan sistem instalasi solar tracking dual axis yang mampu menggerakkan panel surya secara otomatis agar selalu dapat mengikuti gerak dari sumber cahaya. Sistem ini dilengkapi dengan sensor light dependent resistor yang mampu mendeteksi sumber cahaya, sensor BNO055 (
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17

Margana, Margana. "Solar Tracking Dual – Axis Berbasis Arduino Uno Dengan Menggunakan Lensa Fresnel Guna Meningkatkan Efisiensi Pengfokusan Cahaya Matahari." Eksergi 15, no. 2 (2019): 77. http://dx.doi.org/10.32497/eksergi.v15i2.1509.

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&lt;p&gt;Solar Tracking Dual-Axis Berbasis Mikrokontroler dengan Menggunakan Lensa Fresnel Guna Meningkatkan Efisiensi Pemfokusan Cahaya Matahari ini merupakan sebuah alat yang dirancang untuk mengarahkan Solar cell ke cahaya matahari. Alat ini bekerja dengan menggunakan 4 buah sensor LDR (Light Dependent Resistor) dan dua Motor Servo MG996 sebagai aktuator/penggeraknya. Sistem ini dikendalikan oleh Arduino Nano yang menjalankan program yang ditanamkan oleh software Arduino IDE (Integrated Development Environment). Hasil pengujian menunjukkan perbandingan tegangan dan arus yang dihasilkan Sola
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18

Pardosi, Cristoni Hasiholan, Marsul Siregar, and Lanny W. Pandjaitan. "Design and Implementation of A Dual-Axis Solar Tracking System using Arduino Uno Microcontroller." Jurnal ELTIKOM 8, no. 1 (2024): 44–56. http://dx.doi.org/10.31961/eltikom.v8i1.1105.

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This paper presents a dual-axis solar tracking system developed and evaluated using LDR sensors and stepper motors, controlled by an Arduino Uno microcontroller. The aim was to enhance photovoltaic energy efficiency by designing a system capable of automatically adjusting the position of solar panels to follow the sun's movement throughout the day. Comparative testing between static solar panels and those equipped with solar trackers demonstrated that the latter produced 35% more power on average. Additionally, the dual tracking system showed a 14% improvement in efficiency over previous avera
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Bezaleel Fajar Luista, Aries Boedi Setiawan, and Andrijani Sumarahinsih. "Sistem Pembangkit Panel Surya Menggunakan Solar Traker Dual Axis Untuk Memaksimalkan Keluaran Daya." Mars : Jurnal Teknik Mesin, Industri, Elektro Dan Ilmu Komputer 2, no. 4 (2024): 190–207. http://dx.doi.org/10.61132/mars.v2i4.256.

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Karena meningkatnya kebutuhan listrik masyarakat Indonesia setiap tahunnya, penelitian sedang dilakukan untuk mengubah energi matahari menjadi energi listrik yang ramah lingkungan melalui konversi panel surya yang menghasilkan arus searah (DC). Karena sebagian besar panel surya diletakkan dalam posisi statis atau tidak bergerak, kemampuannya dalam menyerap sinar matahari tidak maksimal. Dengan menggunakan solar tracking sumbu ganda, posisi panel surya harus selalu melacak pergerakan cahaya matahari guna memaksimalkan energi matahari. Untuk mengetahui cara terbaik dalam menyerap sinar matahari,
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Hamad, Bashar Abduallah, and Ahmed Al-Naib. "Design and Implementation of a Dual-Axis Solar Tracking System STS." NTU Journal of Engineering and Technology 1, no. 1 (2021): 35–43. http://dx.doi.org/10.56286/ntujet.v1i1.84.

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Solar energy is converted into electrical energy using photovoltaic panels. The production of electricity from the solar panel is increased by the increase in the collection of solar radiation by the solar panel. To track the sun in vertical and horizontal directions, a dual-axis tracking prototype has been developed to capture the maximum sun rays by tracking the movement of the sun in four different directions. One axis is horizontal, which allows the solar panel to move left and right. The other axis is vertical and allows the panel to turn up and down. The result of this new development pr
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21

Wahyono, Wahyono, Suwarti Suwarti, Yusuf Dewantoro H, et al. "Dual Axis Solar Tracker System Application Based on Arduino Atmega 2560 and Internet of Things (iot) for Submersible Pump Operation." Eksergi 18, no. 3 (2022): 206–9. https://doi.org/10.32497/eksergi.v18i3.3910.

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Most of the Solar Power Plants (PLTS) still use a static system which is considered less effective in absorbing solar energy. This is due to the earth's rotation which causes the sun to not always be in the same position. In order to optimize the absorption of solar energy so that the power produced is stable and maximum, a tracking system is applied to the solar panels. This tool works by using 4 LDR sensors and 2 DC Power Window motors as the driving force and the presence of Wi-Fi as a communication medium between the Arduino ATmega 2560 and the Android application so that the performance o
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Suparmaniam, M. V., V. Sathis, and A. O. Arshed. "A Real Time Data Monitoring System for Two-Degree of Freedom of Microcontroller based Solar Tracking System." MATEC Web of Conferences 225 (2018): 06014. http://dx.doi.org/10.1051/matecconf/201822506014.

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The dual axis solar tracker was designed for optimum solar cell implementation using dc-dc boost converter which controlled by fuzzy logic controller with the maximum power point tracking (MPPT) method. The objectives of this project are to track and optimize the maximum output power of the solar panel by designing and implementing the fuzzy logic controller using microcontroller as well as to regulate the output voltage of the solar panel using dc-dc boost converter. The photocell panel will detect the existing of sun and the surface plate of photocell panel will move horizontal and vertical
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Rahman, Aswadul Fitri Saiful, Anwar Fattah, A. Asni, Mayda Waruni, Kasrani, and Wahyu Ardiansyah. "Fuzzy Logic Control System for Optimizing Dual-Axis Solar Panel Tracking." E3S Web of Conferences 500 (2024): 03021. http://dx.doi.org/10.1051/e3sconf/202450003021.

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The utilization of solar energy through solar panels has gained considerable attention in renewable energy applications. However, the effectiveness of energy conversion is hindered by the misalignment of solar panels with the incident sunlight. To address this issue, a dual-axis solar tracker system is proposed to automatically adjust the orientation of solar panels, enhancing energy generation efficiency. This research introduces a novel approach using a fuzzy logic control system to regulate the movement of stepper motors responsible for adjusting the solar panel positions. The system relies
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Mohan, M. Khambalkar, Nandha Ankit, and Shah Kavin. "Movement of the Dual-Axis Solar Tracking System." Journal of Sensor Research and Technologies 5, no. 2 (2023): 32–38. https://doi.org/10.5281/zenodo.8314168.

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<em>Nowadays biggest problem world is facing is energy crises and fossil fuel price is very high also this fuel is in limited amount so that&rsquo;s why renewable energy is main factor in 21st century. There are various sources of renewable energy like wind, sun and geothermal but cheap energy source is solar energy. in this paper we try to tell that that solar tracking system gives more efficiency and more power than fix solar panel so this system we can implement in every solar panel and try to get maximum benefit of the solar energy.</em>
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Efendi, Erwan Tri, Bayu Setyo Wibowo, Dhiyaussalam Dhiyaussalam, Arum Kusuma Wardhany, and Arifin Wibisono. "Simulation of Automatic Solar Tracker Control System Using Proteus Application." Eksergi 20, no. 03 (2024): 77–79. https://doi.org/10.32497/eksergi.v20i03.6360.

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As a tropical country, Indonesia possesses significant renewable energy potential, particularly from solar and wind sources. However, seasonal variations—such as high solar intensity during the dry season and increased wind speeds during the rainy season—pose challenges to optimizing solar cell utilization. While solar energy presents an ideal solution for clean energy transition, static photovoltaic (PV) systems suffer from efficiency limitations due to their inability to track the sun’s movement. Dual-axis solar trackers can enhance energy efficiency by 25–35% compared to fixed systems, part
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Hymavathi, P. "SOLAR TRACKING SYSTEM USING ARDUINO." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 01 (2025): 1–9. https://doi.org/10.55041/ijsrem40990.

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This research focuses on the development of a solar tracking system using an Arduino microcontroller to optimize the energy efficiency of photovoltaic solar panels. The conventional fixed solar panel setup often leads to suboptimal energy capture as the panel’s orientation remains static, resulting in reduced efficiency due to the sun’s changing position throughout the day. To address this, the proposed system employs a dual-axis solar tracker mechanism that automatically adjusts the solar panel's orientation to align with the sun's trajectory, maximizing solar energy absorption. The system ut
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Ali, Najim Abdullah Saieed, Elmnifi Monaem, Saad Ahmed Eltawati Abdalla, E. Salem Elzwa Salem, Ali Mezaal Yasir, and Jaafer Habeeb Laith. "Design and performance study of a dual-axis solar tracker system for the climate of Eastern Libya." Eastern-European Journal of Enterprise Technologies 5, no. 8(119) (2022): 79–88. https://doi.org/10.15587/1729-4061.2022.266256.

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Fossil fuels are non-renewable, finite, and exhausting. Therefore, it is necessary to find alternative sources of energy. Solar energy is abundant in nature, so it can be considered as the best alternative to meet the energy demand. It is sustainable, renewable, and scalable. Increasing the efficiency of harnessing solar energy should be one of our top concerns because it is a renewable resource. The challenge in utilizing this energy is to increase efficiency as well as reduce production costs. So, a dual-axis solar tracker was developed in this study to ensure that the tracked solar cells cr
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D. Kameswara, Rao, Reddy K. Sudhakar, Rao V. V. Subba, and K. Ankamma. "PVT panel efficiency enhancement with cooling methods and sun tracking." i-manager's Journal on Mechanical Engineering 13, no. 3 (2023): 1. http://dx.doi.org/10.26634/jme.13.3.19759.

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Solar energy is the most abundant and easily available renewable source of electricity. However, the installed solar panels may not always provide the optimal amount of energy because of the changing position of the sun from east to west. This study focused on extending the research and development of a model for a dual-axis solar panel tracking system with a cooling mechanism. The primary objective of this mechanism is to program the Arduino board in a way that ensures continuous alignment of the panel direction and Light-Dependent Resistor (LDR) sensors with the sun's rays. Direct Current (D
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R., Mareeswari S. Tharani G. Niveditha and T. Nithya. "SOLAR TRACKING SYSTEM A DESIDERATUM USING LDR AND MICROCONTROLLER PACKAGE." November 15, 2019. https://doi.org/10.5281/zenodo.3566543.

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The renewable-energy sector is fast gaining ground as a new growth area for numerous countries with the vast potential it presents environmentally and economically. Solar energy plays an important role as a primary source of energy, especially for rural area. This paper presents the design and development of high-efficiency dual-axis solar tracking system using Arduino platform. Furthermore, the ultimate objective of this project is to trace the maximum sunlight source to power the solar panel. The project is divided into two stages, which are hardware and software development. In hardware dev
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"Dual Axis Tracker for Photovoltaic Panel." International Journal of Innovative Technology and Exploring Engineering 8, no. 11S (2019): 906–10. http://dx.doi.org/10.35940/ijitee.k1164.09811s19.

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Main challenge of solar-tracking systems are the sunlight detection, providing position and delay of PV movement, designing control module for low consumption dc servo motor(s). Objective of this paper is designing and implementing automatic control for detecting maximum solar light to a solar panel. The two-axis solar tracker is used for optimizing conversion of solar energy into electrical energy, at cost of the mechanical and the maintenance need, for the best efficiency. The hardware development, two dc servomotors are adjusted which is controlled by drive module moving panel by using four
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P., G. Pillewar, Siraskar Aarti, Vanjari Srushti, and Godge Umatai. "IoT Based Solar Tracking System for Power Output Maximization." June 14, 2023. https://doi.org/10.5281/zenodo.8037498.

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In this research paper we are focusing on power output maximization by using IOT based dual axis solar tracker. The system is divided into two parts, hardware system and software system. Hardware system includes light dependent resistor (LDR) which is used for detecting the sun light, two servo motor which are used to move the solar panel and software system consist of coding by using HTML programming language and send to Arduino NANO controller using Proteus software. Dual axis solar tracker captures maximum sun radiation.
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Wendryanto, Wendryanto, Gede Widayana, and I. Wayan Sutaya. "PENGEMBANGAN PENGGERAK SOLAR PANEL DUA SUMBU UNTUK MENINGKATKAN DAYA PADA SOLAR PANEL TIPE POLIKRISTAL." Jurnal Pendidikan Teknik Mesin Undiksha 5, no. 3 (2019). http://dx.doi.org/10.23887/jjtm.v5i3.20293.

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ABSTRAK Prototipe ini didesain agar panel surya mampu senantiasa tegak lurus dengan matahari dengan menggunakan Arduino Nano 3.0 Atmega 328 CH340G sebagai control otomatis, serta komponen lain seperti sensor cahaya (LDR) dan motor DC. Prinsip kerja dari mikrokontroler ini dalam penggerak panel surya 2 sumbu ini yaitu output dari sensor LDR diolah oleh mikrokontroler Arduino Nano 3.0 Atmega 328 CH340G dengan menggunakan bahasa pemrograman. Apabila sensor LDR tidak tegak lurus terhadap matahari, maka akan memiliki nilai tahanan yang berbeda. Jika terjadi perbedaan maka mikrokontroler akan meresp
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Naif, Yasir Hashim. "A New Design Arduino-Based Dual Axis Solar Tracking System." JAREE (Journal on Advanced Research in Electrical Engineering) 4, no. 2 (2020). http://dx.doi.org/10.12962/j25796216.v4.i2.162.

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Green and clean energy depends meanly on the Solar energy, especially at urban area. This paper presents the Arduino-based new design of dual-axis solar tracking system with high-efficiency using through the use of five-point sunlight sensors. The main objective of this research is to convert the maximum sunlight to electrical power by auto movement of the solar panel. This research is divided into two stages, first stage related to hardware design and the second related to software development. In hardware design, five light dependent resistors (LDR) have been used for tracking light directio
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Prof., Monica Ugale, Gandhi Reva, Singh Pavneet, Shankar Shreya, Narang Vanshay, and Singh Saurav. "Dual Axis Solar Tracker." June 6, 2023. https://doi.org/10.5281/zenodo.8076734.

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&nbsp; &nbsp; &nbsp; The variation in the sun takes place every day through the night and even seasonally throughout the year. The world&#39;s population is rapidly expanding. Nonrenewable energy sources such as coal and oil have been depleted over the last decade, posing a severe challenge to the world&#39;s ability to provide reliable energy. However, solar energy is a significant source of primary energy. In this project, we present a dual-axis solar tracking system that uses Arduino as the main processing unit to capture the maximum amount of solar energy. Photovoltaic conversion panels ar
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Calvin, Jerome J. A., R. Kishan, Vinod Kumar M, M. Moonish, and B. S. Dr.Raju. "IOT BASED DUAL AXIS SOLAR TRACKER USING REAL TIME DATA." June 7, 2024. https://doi.org/10.5281/zenodo.13745093.

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Solar tracker that aligns itself accurately with the position of the sun using photovoltaic panels,sensors, motors, and a control system. By maximizing the amount of sunlight that reaches thephotovoltaic panels, the solar tracker enhances the efficiency and performance of solar energysystems, leading to increased energy production. The sunflower design Solar tracker utilizesArduino and NodeMCU platforms to adjust parameters like tilting angles for improvingefficiency. The control hardware of the solar panel is based on IOT control processes and blynksoftware. The system uses hardware component
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Zakariah, Azwaan, Mahdi Faramarzi, Jasrul Jamani Jamian, and Mohd Amri Md Yunus. "MEDIUM SIZE DUAL-AXIS SOLAR TRACKING SYSTEM WITH SUNLIGHT INTENSITY COMPARISON METHOD AND FUZZY LOGIC IMPLEMENTATION." Jurnal Teknologi 77, no. 17 (2015). http://dx.doi.org/10.11113/jt.v77.6468.

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Nowadays, renewable energy such as solar power has become important for electricity generation, and solar power systems have been installed in homes. Furthermore, solar tracking systems are being continuously improved by researchers around the world, who focus on achieving the best design and thus maximizing the efficiency of the solar power system. In this project, a fuzzy logic controller has been integrated and implemented in a medium-scale solar tracking system to achieve the best real-time orientation of a solar PV panel toward the sun. This project utilized dual-axis solar tracking with
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Karabiber, Abdulkerim, and Yunus Güneş. "Single Motor and Dual Axis Solar Tracking System for Micro PV Power Plants." Journal of Solar Energy Engineering, January 23, 2023, 1–22. http://dx.doi.org/10.1115/1.4056739.

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Abstract Photovoltaic (PV) panels convert solar radiation into electrical energy in a clean and cost-effective way. PV panels are positioned against the Sun using fixed or solar tracking systems to generate electricity at maximum efficiency. Although solar tracking systems work with 30-40% higher efficiency than fixed solar systems, they do not attract commercial attention due to their high investment and maintenance costs. In this study, a single motor and dual-axis solar tracking system called asymmetric solar tracker (AST) was designed. The most significant innovation of AST is the adjustab
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S., Divya Gnanarathinam, and Sundaramurthy S. "Empirical Survey of the Solar System Based on the Fusion of GPS and Image Processing." March 5, 2016. https://doi.org/10.5281/zenodo.1123991.

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The tremendous increase in the population of the world creates the immediate need for the energy resources. All the people in the world need the sustainable energy resources which have low costs. Solar energy is appraised as one of the main energy resources in warm countries. The areas in the west of India like Rajasthan, Gujarat, etc. are immensely rich in solar energy resources. This paper deals with the development of dual axis solar tracker using Arduino board. Depending on the astronomical estimates of the sun from the GPS and sensor image processing outcomes, a methodology is proposed to
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