Depletion of renewable energy sources leads to more stress on finding out methods to overcome the issues of scarcity of electrical energy. Electrical energy is the prime need for running out industrial process, commercial applications and mainly it is the criteria that decide the economic wealth of any nation in today world. Solar energy is an important resource which finds an increasing use in real world because of its convincing advantages over other sources. The proposed system prototype takes the solar energy as the key aspect and efficiently harvesting the power to be used as a remote backup device in the real time applications. The major factors that makes the prospective model over the existing system is the portability and considerably smaller in size. The system can function with high degree of performance as an external power supply device for industrial utilization and in remote and harsh environments such as surveillance applications. To obtain the energy in accessible form as needed by the load or grid where problems such as voltage fluctuations and ripples may be the disturbances. To overcome this, in the proposed work the processors LPC 2148 and ATMega-8L are used. The processor typically achieves by the usage of inherent PWM channels as modified for the above mentioned by means of algorithms. In addition to which a suitable monitoring provision is given in the hardware model by integrating components for displaying status. The ultimate goal of this prototype is to satisfy factors such as reliability, scalability and maintenance which are successfully accomplished.
Development of Power Backup Device Using Solar Energy Harvesting for Real Time Industrial Applications
ICPERES, International Conference on Power Electronics and Renewable Energy Systems, 2014 ; 1213-1223
2015
11 Seiten
Aufsatz (Konferenz)
Englisch
MOS-FET , Engineering , Elektrotechnik , Energy Harvesting , Solarenergie , elektrische Energie , industrielle Anwendung , Versorgung , erneuerbare Energie , Leistungselement , elektrisches Netz (Energienetz) , Leistungselektronik , erneuerbare Energiequelle , Erfüllungsgrad , Spannung (elektrisch) , Echtzeitbetrieb , Provision , Instandhaltung
BACKUP POWER SUPPLY DEVICE AND VEHICLE USING BACKUP POWER SUPPLY DEVICE
Europäisches Patentamt | 2017
|VEHICULAR BACKUP POWER SUPPLY CONTROL DEVICE AND VEHICULAR BACKUP POWER SUPPLY DEVICE
Europäisches Patentamt | 2020
|