Journal ArticleDOI
A CMOS integrated voltage and power efficient AC/DC converter for energy harvesting applications
TLDR
In this paper, a fully CMOS integrated active AC/DC converter for energy harvesting applications is presented, where the rectifier is realized in a standard 0.35 µm CMOS process without special process options.Abstract:
In this paper, a fully CMOS integrated active AC/DC converter for energy harvesting applications is presented. The rectifier is realized in a standard 0.35 µm CMOS process without special process options. It works as a full wave rectifier and can be separated into two stages—one passive and one active. The active part is powered from the storage capacitor and consumes about 600 nA at 2 V supply. The input voltage amplitude range is between 1.25 and 3.75 V, and the operating frequency range is from 1 Hz to as much as several 100 kHz. The series voltage drop over the rectifier is less than 20 mV. Measurements in combination with an electromagnetic harvester show a significant increase in the achievable output voltage and power compared to a common, discrete Schottky diode rectifier. The measured efficiency of the rectifier is over 95%. Measurements show a negligible temperature influence on the output voltage between −40 °C and +125 °C.read more
Citations
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Journal ArticleDOI
An Integrated Power-Efficient Active Rectifier With Offset-Controlled High Speed Comparators for Inductively Powered Applications
Hyung-Min Lee,Maysam Ghovanloo +1 more
TL;DR: An active full-wave rectifier with offset-controlled high speed comparators in standard CMOS that provides high power conversion efficiency (PCE) in high frequency (HF) range for inductively powered devices and overvoltage protection as safety measure and built-in back telemetry capabilities are presented.
Journal ArticleDOI
Energy scavenging sources for biomedical sensors
TL;DR: The state of the art of energy scavenging technologies for powering sensors and instrumentation of physiological variables, the different transduction mechanisms, recent developments and challenges faced are reviewed and discussed.
Journal ArticleDOI
A Micro Inertial Energy Harvesting Platform With Self-Supplied Power Management Circuit for Autonomous Wireless Sensor Nodes
TL;DR: A 0.25 cm3 autonomous energy harvesting micro-platform is realized to efficiently scavenge, rectify and store ambient vibration energy with batteryless cold start-up and zero sleep-mode power consumption.
Journal ArticleDOI
A Fully Autonomous Integrated Interface Circuit for Piezoelectric Harvesters
Thorsten Hehn,Friedrich Hagedorn,Dominic Maurath,Djordje Marinkovic,Ingo Kuehne,Alexander Frey,Yiannos Manoli +6 more
TL;DR: This paper presents a fully autonomous, adaptive pulsed synchronous charge extractor (PSCE) circuit optimized for piezoelectric harvesters (PEHs) which have a wide output voltage range 1.3-20 V.
Journal ArticleDOI
A Sub-500 mV Highly Efficient Active Rectifier for Energy Harvesting Applications
TL;DR: This paper presents a highly efficient, ultra-low-voltage active full wave rectifier using a bulk-input comparator working in the subthreshold region to drive the switch of the active diode.
References
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Journal ArticleDOI
A study of low level vibrations as a power source for wireless sensor nodes
TL;DR: The goal of this paper is not to suggest that the conversion of vibrations is the best or most versatile method to scavenge ambient power, but to study its potential as a viable power source for applications where vibrations are present.
Journal ArticleDOI
A micro electromagnetic generator for vibration energy harvesting
Steve Beeby,Russel Torah,Michael Tudor,Peter Glynne-Jones,Terence O'Donnell,Chitta Saha,Saibal Roy +6 more
TL;DR: In this paper, the authors presented a small (component volume 1 cm3, practical volume 1 5 cm3) electromagnetic generator utilizing discrete components and optimized for a low ambient vibration level based upon real application data.
Journal ArticleDOI
On energy harvesting from ambient vibration
TL;DR: In this article, an elastically mounted magnetic seismic mass moving past a coil, considered previously by several authors, is analyzed in detail. And the overall damping coefficient (part of which is mechanical) is associated with the harvesting and dissipation of energy and also the transfer of energy from the vibrating base into the system.
Journal ArticleDOI
Review of Microscale Magnetic Power Generation
TL;DR: The history, current state of the art, and ongoing challenges for compact (less than a few cubic centimeters) magnetic power generation systems in the microwatts to tens of watts power range are discussed.
Proceedings ArticleDOI
Analysis Of A Micro-electric Generator For Microsystems
CB Williams,R.B. Yates +1 more
TL;DR: In this article, the authors proposed a micro-generator that generates electricity from mechanical energy when embedded in a vibrating medium, assuming a mass deflection of 50/spl mu/m.
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