000			02092nam a22003377a 4500
003			OSt
005			20250717091504.0
008			250716b |||||||| |||| 00| 0 eng d
040			_aTUPM _bEnglish _cTUPM _dTUPM _erda
050			_aBTH TK 146 _bA38 2025
100			_aAguirre, Karl Angelo J. _eauthor
245			_aDesign and fabrication of an iot-based charging station driven by a building-mounted fibonacci wind turbine and permanent magnet dc generator/ _cKarl Angelo J. Aguirre, John Partick D. Alinsunurin, Lorrea Mae E. Clarito, Rafaela G. Dela Cruz, John Carlo R. Elacion, and Mark Joseph R. Javier.--
260			_aManila: _bTechnological University of the Philippines, _c2025.
300			_axiv, 163pages: _c29cm.
336			_2rdacontent
337			_2rdamedia
338			_2rdacarrier
500			_aBachelor's thesis
502			_aCollege of Engineering.-- _bBachelor of science in electrical engineering: _cTechnological University of the Philippines, _d2025.
504			_aIncludes bibliographic references and index.
520			_aThis study presents the development of an IoT-based charging station powered by Building-Mounted Fibonacci Wind Turbine (BMFWT) with a Permanent Magnet DC Generator (PMDCG). The Fibonacci-based blade design improves aerodynamic efficiency, enhancing overall turbine performance. Mechanical energy from wind is converted into electrical energy by the PMDCG and stored in a 3-12V lead-acid battery. The integrated IoT system enables real-time monitoring of power generation and battery status. The charging station supports charging devices such as mobile phones and laptops, providing a practical energy solution for students and staff.
650			_aFibonacci wind turbine
650			_aPermanent magnet dc generator
650			_aIot-based charging station
700			_aAlinsunurin, John Partick D. _eauthor
700			_aClarito, Lorrea Mae E. _eauthor
700			_aDela Cruz, Rafaela G. _eauthor
700			_aElacion, John Carlo R. _eauthor
700			_a Javier, Mark Joseph R. _eauthor
942			_2lcc _cBTH COE _n0
999			_c30412 _d30412