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Battery-assisted and photovoltaic-sourced switched-inductor CMOS harvesting charger-supply

机译：电池辅助和光伏供电的开关电感CMOS采集充电器电源

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A challenge wireless microsensors and other microsystems face is short lifetime, because tiny batteries store little energy. Fortunately, the environment holds vast amounts of energy, and of available sources, like light, motion, temperature, and radiation, solar light produces the highest power density. Still, micro-scale photovoltaic (PV) cells harness a diminutive fraction of light and artificial lighting avails a small percentage of what solar light can, which means the PV cell needs assistance from a battery. Mixing PV and battery power to supply a microwatt system, however, requires a smart and low-loss circuit. For that, the battery-assisted pulse-width-modulated (PWM) buck-boost single-inductor 0.18-μm CMOS harvester-supply proposed and simulated here uses up to 100 μW from a PV cell to supply up to 1 mA and regulate 1 V within 25 mV at 10–80 kHz and with 77%–89% efficiency.

机译：无线微型传感器和其他微型系统面临的挑战是寿命短，因为微小的电池几乎没有能量存储。幸运的是，环境拥有大量能量，并且在可用的光源（例如光，运动，温度和辐射）中，太阳光产生了最高的功率密度。尽管如此，微型光伏（PV）电池利用的是一小部分的光，而人工照明只能利用太阳光的一小部分，这意味着PV电池需要电池的帮助。然而，将光伏和电池电源混合在一起以为微瓦系统供电需要一个智能且低损耗的电路。为此，在此提出并仿真的电池辅助脉冲宽度调制（PWM）降压-升压单电感器0.18μmCMOS采集器电源使用的PV电池高达100μW，可提供高达1mA的电流并调节1 V在10–80 kHz时在25 mV范围内，效率为77％–89％。

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《IEEE International Symposium on Circuits and Systems 》|2013年|253-256|共4页
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Damodaran Prabha Rajiv; Rincon-Mora Gabriel A.;
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Harvester; SIMIMO; SIMO; microsystem; photovoltaic (PV); switched-inductor supply; switching converter;

机译：收割机; SIMIMO; SIMO;微系统;光伏（PV）;开关电感电源;开关转换器;

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专利

1. 0.18-μm Light-Harvesting Battery-Assisted Charger–Supply CMOS System [J] . Damodaran Prabha Rajiv, Rincon-Mora Gabriel A. Power Electronics, IEEE Transactions on . 2016 ,第4期

机译：0.18μm的光收集电池辅助充电器-供应CMOS系统
2. Dual-source hysteretic switched-inductor 0.18 µm complementary metal–oxide–semiconductor charger-supply system [J] . Kim Suhwan, Rincόn-Mora Gabriel /A/. Circuits, Devices & Systems, IET . 2015 ,第4期

机译：双源迟滞开关电感器0.18 µm互补金属氧化物半导体充电器-电源系统
3. A 44–93- src="/images/tex/16796.gif" alt="muhbox {s}"> 250–400-mV 0.18- src="/images/tex/527.gif" alt="muhbox {m}"> CMOS Starter for DC-Sourced Switched-Inductor Energy Harvesters [J] . Blanco A.A., Rincon-Mora G.A. Circuits and Systems II: Express Briefs, IEEE Transactions on . 2014 ,第12期

机译：44–93- src =“ / images / tex / 16796.gif” alt =“ muhbox {s}”> 250–400-mV 0.18- src =“ / images / tex / 527.gif” alt =“ muhbox {m}”> 用于直流源开关电感式能量收集器的CMOS起动器
4. Battery-assisted and Photovoltaic-sourced Switched-inductor CMOS Harvesting Charger-Supply [C] . Rajiv Damodaran Prabha, Gabriel A. Rincon-Mora IEEE International Symposium on Circuits and Systems . 2013

机译：电池辅助和光伏型开关电感器CMOS收集充电器供应
5. Ultra-low Power/Energy Harvesting CMOS Sensor Designs in Wireless Sensing Platforms. [D] . Law, Man Kay. 2011

机译：无线传感平台中的超低功耗/能量收集CMOS传感器设计。
6. Combined Organic Photovoltaic Cells and Ultra Low Power CMOS Circuit for Indoor Light Energy Harvesting [O] . Duarte Batista, Luis Bica Oliveira, Nuno Paulino, 2019

机译：结合有机光伏电池和超低功耗CMOS电路进行室内光能收集
7. Battery-assisted and Photovoltaic-sourced Switched-inductor CMOS Harvesting Charger–Supply [O] . Rajiv Damodaran Prabha, Graduate Student Member, Gabriel A. Rincón-mora 2013

机译：电池辅助和光伏源开关电感器CmOs收集充电器 - 电源

Battery-assisted and photovoltaic-sourced switched-inductor CMOS harvesting charger-supply

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