. . . "Many real life applications using energy harvesting system power are now practical. Wireless sensor network systems often benefit from energy harvesting power sources. For example, when a wireless node is deployed at a remote site where a wall plug or a battery is either unreliable or unavailable, energy harvesting can augment or supply power. In another example, a remote control node running on energy harvesting can be implemented as a self-powered electronic system. And in yet other situations, multiple energy sources can be used to enhance the overall efficiency and reliability of any system. This is a high efficiency step-up DC/DC converter that can operate from input voltages as low as 225mV. A 250mV start-up capability and integrated maximum power point controller (MPPC) enable operation directly from low voltage, high impedance alternative power sources such as photovoltaic cells, TEGs (thermoelectric generators) and fuel cells. A user programmable MPPC set point maximizes the energy that can be extracted from any power source. Burst Mode operation, with a proprietary self adjusting peak current, optimizes converter efficiency and output voltage ripple overall operating conditions" . "EHarv" . "26220" . "2"^^ . "[B5482A35C351]" . "RIV/00216305:26220/12:PR26290" . . . . "2"^^ . . "Szab\u00F3, Zolt\u00E1n" . "Energy Harvester"@en . "Energy harwester, ugenerator, mikco generator,"@en . "Energy Harvester"@en . "Marco\u0148, Petr" . . . "http://www.utee.feec.vutbr.cz/?q=cs/energy-harvester" . "RIV/00216305:26220/12:PR26290!RIV13-MSM-26220___" . "Energy Harvester" . . "Energy Harvester" . . . . . . "Szab\u00F3, Zolt\u00E1n" . "S" . . "vystupn\u00ED nap\u011Bt\u00ED: 2,5V max. \u0161pi\u010Dkov\u00FD v\u00FDstupn\u00ED proud: 100mA min. vstupn\u00ED nap\u011Bt\u00ED: 250mV Realizov\u00E1no pro Honeywell, I\u010C: dle smlouvy v r\u00E1mci projektu FEKT-S-11-5/1012 ze dne 21.11.2012" . . "102 000K\u010D" . "134376" . . "Many real life applications using energy harvesting system power are now practical. Wireless sensor network systems often benefit from energy harvesting power sources. For example, when a wireless node is deployed at a remote site where a wall plug or a battery is either unreliable or unavailable, energy harvesting can augment or supply power. In another example, a remote control node running on energy harvesting can be implemented as a self-powered electronic system. And in yet other situations, multiple energy sources can be used to enhance the overall efficiency and reliability of any system. This is a high efficiency step-up DC/DC converter that can operate from input voltages as low as 225mV. A 250mV start-up capability and integrated maximum power point controller (MPPC) enable operation directly from low voltage, high impedance alternative power sources such as photovoltaic cells, TEGs (thermoelectric generators) and fuel cells. A user programmable MPPC set point maximizes the energy that can be extracted from any power source. Burst Mode operation, with a proprietary self adjusting peak current, optimizes converter efficiency and output voltage ripple overall operating conditions"@en . .