A 10 mV-Input Boost Converter With Inductor Peak Current Control and Zero Detection for Thermoelectric and Solar Energy Harvesting With 220 mV Cold-Start and -14.5 dBm, 915 MHz RF Kick-Start

A 10 mV-Input Boost Converter With Inductor Peak Current Control and Zero Detection for Thermoelectric and Solar Energy Harvesting With 220 mV Cold-Start and -14.5 dBm, 915 MHz RF Kick-Start

A boost converter for thermoelectric energy harvesting in 130 nm CMOS achieves energy harvesting from a 10 mV input, which allows wearable body sensors to continue operation with low thermal gradients. The design uses a peak inductor current control scheme and duty cycled, offset compensated compara...

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Veröffentlicht in:IEEE journal of solid-state circuits 2015-08, Vol.50 (8), p.1820-1832
Hauptverfasser: Shrivastava, Aatmesh, Roberts, Nathan E., Khan, Osama U., Wentzloff, David D., Calhoun, Benton H.
Format: Artikel
Sprache:eng
Schlagworte:
Boost converter
Capacitors
Circuits
Converters
DC-DC converter
Energy harvesting
Error analysis
Inductors
low voltage
Radio frequency
Simulation
solar energy harvesting
Switches
Syntax
thermal-electric
Thermoelectricity
Timing
ultra-low power
Voltage
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Beschreibung
Zusammenfassung:A boost converter for thermoelectric energy harvesting in 130 nm CMOS achieves energy harvesting from a 10 mV input, which allows wearable body sensors to continue operation with low thermal gradients. The design uses a peak inductor current control scheme and duty cycled, offset compensated comparators to maintain high efficiency across a broad range of input and output voltages. The measured efficiency ranges from 53% at V I =20 mV to a peak efficiency of 83% at V I =300 mV. A cold-start circuit starts the operation of the boost converter from 220 mV, and an RF kick-start circuits starts it from -14.5 dBm at 915 MHz RF power.
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2015.2412952