000			02238cam a2200325 a 4500
003			EG-GiCUC
008			191109s2019 ua dh f m 000 0 eng d
040			_aEG-GiCUC _beng _cEG-GiCUC
041	0		_aeng
049			_aDeposite
097			_aM.Sc
099			_aCai01.13.08.M.Sc.2019.Mo.S
100	0		_aMohamed Badr Mahmoud Mohamed Badr
245	1	0	_aSimultaneous multi-source integrated energy harvesting system for IOE applications / _cMohamed Badr Mahmoud Mohamed Badr ; Supervised Ahmed N. Mohieldin , Mohamed M. Aboudina , Faisal A. Hussien
246	1	5	_aنظام متكامل لحصاد الطاقة من مصادر متعددة تزامن{u٠٦أأ}ا لتطب{u٠٦أأ}قات انترنت كل شيء
260			_aCairo : _bMohamed Badr Mahmoud Mohamed Badr , _c2019
300			_a83 P. : _bcharts , facsimies ; _c25cm
502			_aThesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Electronics and Communications
520			_aThis work presents an integrated modular multi-source energy harvesting system based on the Dickson charge pump and hill-climbing algorithm. The proposed maximum output power extraction is optimizing the system{u2019}s end- to-end efficiency. It collects the power simultaneously from multiple energy sources and boosts their DC voltages to a regulated output voltage that can be used for Internet of Everything (IoE) applications.The proposed imple- mentation utilizes the whole on-chip capacitance regardless of the number of stages in use. A demonstration system using the proposed techniques is implemented for two sources in 0.18 æm CMOS technology and it utilizes a total of 900 pF MIM capacitance. The simulation results show that the proposed system achieves a peak MPPT efficiency of 90%, charge pump efficiency of 70%, and end-to-end efficiency of 55% at a regulated output voltage of 1.5 V
530			_aIssued also as CD
653		4	_aDickson Charge Pump
653		4	_aEnergy Harvesting
653		4	_aMPPT
700	0		_aAhmed N. Mohieldin , _eSupervisor
700	0		_aFaisal A. Hussien , _eSupervisor
700	0		_aMohamed M. Aboudina , _eSupervisor
905			_aNazla _eRevisor
905			_aShimaa _eCataloger
942			_2ddc _cTH
999			_c75061 _d75061