Capacitive Power Management Circuit for Micropower Thermoelectric Generators With a 1.4 $\\mu$ A Controller

Author

Doms, Inge ; Merken, Patrick ; Van Hoof, Chris ; Mertens, Robert P.

Author_Institution

IMEC, Leuven, Belgium

Volume

44

Issue

10

fYear

2009

Firstpage

2824

Lastpage

2833

Abstract

Power autonomy is an important requirement for wireless sensor nodes. Thermoelectric generators can produce sufficient power for low power applications. Due to varying temperature, a power management circuit will be required. This paper presents such a power management circuit, realized in the AMIS I3T80 CMOS technology. It contains a Dickson charge pump with a variable number of stages as a DC/DC converter. A controller optimizes the number of stages of the charge pump, consuming 1.4 muA. The maximum efficiency of the charge pump is 82%, leading to a total efficiency that can reach up to 58%.

Keywords

CMOS integrated circuits; DC-DC power convertors; charge pump circuits; thermoelectric conversion; CMOS technology; DC-DC converter; Dickson charge pump; capacitive power management circuit; current 1.4 muA; micropower thermoelectric generators; power autonomy; power management circuit; thermoelectric generators; wireless sensor nodes; CMOS technology; Charge pumps; Circuits; Energy management; Power generation; Technology management; Temperature sensors; Thermal management; Thermoelectricity; Wireless sensor networks; Charge pump; power management circuit; thermoelectric generator;

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/JSSC.2009.2027546

Filename

5256977

Capacitive Power Management Circuit for Micropower Thermoelectric Generators With a 1.4 A Controller

Doms, Inge ; Merken, Patrick ; Van Hoof, Chris ; Mertens, Robert P.

jour

Capacitive Power Management Circuit for Micropower Thermoelectric Generators With a 1.4 $\\mu$ A Controller