Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy
Tenaga solar adalah sumber tenaga yang murah, bersih dan sedia ada. Salah satu aplikasi yang paling penting bagi sistem pengawal caj solar adalah digunakan sebagai penyimpanan cas bateri untuk mengawal selia bateri ‘State –of – Charge’ dan mencegah bateri daripada keadaan bahaya. AT- AT penukar doro...
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T Technology TK1001-1841 Production of electric energy or power. Powerplants. Central stations Hasan, Samiyah Umill Hakim Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
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Tenaga solar adalah sumber tenaga yang murah, bersih dan sedia ada. Salah satu aplikasi yang paling penting bagi sistem pengawal caj solar adalah digunakan sebagai penyimpanan cas bateri untuk mengawal selia bateri ‘State –of – Charge’ dan mencegah bateri daripada keadaan bahaya. AT- AT penukar dorongan adalah salah satu komponen utama yang berfungsi dan dipercayai dalam sistem pengawal caj solar yang digunakan untuk meningkatkan voltan rendah dari panel solar kepada voltan yang lebih tinggi. Cadangan AT – AT penukar dorongan yang digunakan dalam kajian ini adalah papan litar demostrasi DC1286 A-B AT –AT penukar dorongan yang direka khas dari Linear Technology Corporation yang mana rekaannya direka untuk aplikasi voltan dan arus yang tinggi dan boleh mengeluarkan voltan dan arus keluaran 48 V, 3 A. Prosedur yang digunakan untuk memantau atau menilai bekalan kuasa panel fotovolta dan sistem AT-AT penukar dorongan dengan menggunakan pemantauan masa sebenar bekalan kuasa panel fotovolta dan AT- AT peningkat dorongan, sistem ini dapat menilai prestasi sistem solar. Sistem pemantauan akan mengumpul voltan dan arus masukan bekalan fotovolta dan voltan keluaran dan arus keluaran AT – AT penukar dorongan dan memaparkan data diantaramuka pemantauan (GUI) yang telah direka bentuk untuk analisa pada masa hadapan. Eksperimen telah dijalankan dengan AT – AT penukar dorongan beroperasi dalam mod pengaliran berterusan (CCM) dengan voltan keluaran 48 V, 144 W kuasa keluaran dan 200 kHz menukar setiap kekerapan. Keputusan eksperimen menunjukkan bahawa AT –AT penukar dorongan yang dicadangkan itu mampu menghasilkan voltan keluaran 48 V daripada AT –AT penukar dorongan yang berterusan dengan voltan masukan yang pelbagai daripada bekalan kuasa panel fotovolta 8 V hingga 36 V di mana bebannya adalah 16 Ω. Akhir sekali, analisa bagi sistem voltan keluaran fotovolta (PV) telah siap untuk menyasarkan reka bentuk pada masa hadapan dengan voltan keluaran 48 V pengawal caj solar.
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Solar energy is cheap, clean and readily available resource. One of the most important solar charge controller’s applications in solar power system is used as battery storage to regulate battery state-of –charge and help prevent batteries from hazardous conditions and protects battery from being overcharged by-photovoltaic array. A DC-DC boost converter, one of functional and reliable major components in solar charge controller system was used to boost the low voltage from solar panel to a higher voltage. The proposed boost converter was used in this research is DC1286A-B demonstration circuit board from Linear Technology Corporation was designed for high application, providing output voltage 48 V and output current was at 3 A. The procedures used to monitor or evaluate photovoltaic power supply and boost converter system with using the real time monitoring of photovoltaic power supply and boost converter system, the expert system can evaluate the performance of the solar system. The monitoring system will collect voltage and current of input photovoltaic power supply and output DC- DC boost converter and display the data to the designed monitoring interface (GUI) for future analyzed. Experimental work was carried out with the DC-DC boost converter operating in continuous conduction mode (CCM) with 48 V output voltage, 144 W output power and 200 kHz switching frequency. The experimental results showed that the proposed designed was able to produce a constant 48 V output boost converter with range input from photovoltaic 8 V to 36 V at 16 Ω load conditions. Lastly, the final analysis of the output PV system was completed to target the future design of 48 V output of solar charge controller. |
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Thesis |
author |
Hasan, Samiyah Umill Hakim |
author_facet |
Hasan, Samiyah Umill Hakim |
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Hasan, Samiyah Umill Hakim |
title |
Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
title_short |
Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
title_full |
Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
title_fullStr |
Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
title_full_unstemmed |
Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy |
title_sort |
implementation of wireless monitoring system on the performance of 48v dc-dc boost converter in photovoltaic solar energy |
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2018 |
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http://eprints.usm.my/44274/1/Implementation%20Of%20Wireless%20Monitoring%20System%20On%20The%20Performance%20Of%2048v%20Dc-Dc%20Boost%20Converter%20In%20Photovoltaic%20Solar%20Energy.pdf http://eprints.usm.my/44274/ |
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my.usm.eprints.44274 http://eprints.usm.my/44274/ Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy Hasan, Samiyah Umill Hakim T Technology TK1001-1841 Production of electric energy or power. Powerplants. Central stations Tenaga solar adalah sumber tenaga yang murah, bersih dan sedia ada. Salah satu aplikasi yang paling penting bagi sistem pengawal caj solar adalah digunakan sebagai penyimpanan cas bateri untuk mengawal selia bateri ‘State –of – Charge’ dan mencegah bateri daripada keadaan bahaya. AT- AT penukar dorongan adalah salah satu komponen utama yang berfungsi dan dipercayai dalam sistem pengawal caj solar yang digunakan untuk meningkatkan voltan rendah dari panel solar kepada voltan yang lebih tinggi. Cadangan AT – AT penukar dorongan yang digunakan dalam kajian ini adalah papan litar demostrasi DC1286 A-B AT –AT penukar dorongan yang direka khas dari Linear Technology Corporation yang mana rekaannya direka untuk aplikasi voltan dan arus yang tinggi dan boleh mengeluarkan voltan dan arus keluaran 48 V, 3 A. Prosedur yang digunakan untuk memantau atau menilai bekalan kuasa panel fotovolta dan sistem AT-AT penukar dorongan dengan menggunakan pemantauan masa sebenar bekalan kuasa panel fotovolta dan AT- AT peningkat dorongan, sistem ini dapat menilai prestasi sistem solar. Sistem pemantauan akan mengumpul voltan dan arus masukan bekalan fotovolta dan voltan keluaran dan arus keluaran AT – AT penukar dorongan dan memaparkan data diantaramuka pemantauan (GUI) yang telah direka bentuk untuk analisa pada masa hadapan. Eksperimen telah dijalankan dengan AT – AT penukar dorongan beroperasi dalam mod pengaliran berterusan (CCM) dengan voltan keluaran 48 V, 144 W kuasa keluaran dan 200 kHz menukar setiap kekerapan. Keputusan eksperimen menunjukkan bahawa AT –AT penukar dorongan yang dicadangkan itu mampu menghasilkan voltan keluaran 48 V daripada AT –AT penukar dorongan yang berterusan dengan voltan masukan yang pelbagai daripada bekalan kuasa panel fotovolta 8 V hingga 36 V di mana bebannya adalah 16 Ω. Akhir sekali, analisa bagi sistem voltan keluaran fotovolta (PV) telah siap untuk menyasarkan reka bentuk pada masa hadapan dengan voltan keluaran 48 V pengawal caj solar. _______________________________________________________________________________________________________ Solar energy is cheap, clean and readily available resource. One of the most important solar charge controller’s applications in solar power system is used as battery storage to regulate battery state-of –charge and help prevent batteries from hazardous conditions and protects battery from being overcharged by-photovoltaic array. A DC-DC boost converter, one of functional and reliable major components in solar charge controller system was used to boost the low voltage from solar panel to a higher voltage. The proposed boost converter was used in this research is DC1286A-B demonstration circuit board from Linear Technology Corporation was designed for high application, providing output voltage 48 V and output current was at 3 A. The procedures used to monitor or evaluate photovoltaic power supply and boost converter system with using the real time monitoring of photovoltaic power supply and boost converter system, the expert system can evaluate the performance of the solar system. The monitoring system will collect voltage and current of input photovoltaic power supply and output DC- DC boost converter and display the data to the designed monitoring interface (GUI) for future analyzed. Experimental work was carried out with the DC-DC boost converter operating in continuous conduction mode (CCM) with 48 V output voltage, 144 W output power and 200 kHz switching frequency. The experimental results showed that the proposed designed was able to produce a constant 48 V output boost converter with range input from photovoltaic 8 V to 36 V at 16 Ω load conditions. Lastly, the final analysis of the output PV system was completed to target the future design of 48 V output of solar charge controller. 2018-07 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/44274/1/Implementation%20Of%20Wireless%20Monitoring%20System%20On%20The%20Performance%20Of%2048v%20Dc-Dc%20Boost%20Converter%20In%20Photovoltaic%20Solar%20Energy.pdf Hasan, Samiyah Umill Hakim (2018) Implementation Of Wireless Monitoring System On The Performance Of 48v Dc-Dc Boost Converter In Photovoltaic Solar Energy. Masters thesis, Universiti Sains Malaysia. |
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13.209306 |