Title :
IC design of an adaptive high-voltage electrostatic vibration energy harvester
Author :
Dudka, Andrii ; Galayko, Dimitri ; Basset, Philippe
Author_Institution :
LIP6 Lab., Univ. Pierre & Marie Curie (UPMC), Paris, France
Abstract :
This work presents a low power low- and high-voltage IC design of an asynchronous conditioning circuit assisting the capacitive vibration energy harvester. The proposed IC implements a sensing and control electronics featuring an autocalibration concept, which allows the harvester to adapt to the environmental fluctuations. For the first time such a system is designed to operate at high voltage (up to 30 V). The estimated average power consumption of the IC is less then 1.1uW, whereas the average harvested power is approximately 1.4uW for 14V operation voltage. Current paper is particularly focusing on an ultra-low power (7.3-52)nW clock generator with a programmable frequency (41-265)Hz. The IC design has been carried out in AMS 0.35um high-voltage CMOS technology and has been validated by a coupled VHDL-AMS/SPICE simulation.
Keywords :
CMOS logic circuits; asynchronous circuits; calibration; capacitive sensors; circuit simulation; clocks; coupled circuits; electrostatic devices; energy harvesting; hardware description languages; integrated circuit design; integrated circuit measurement; low-power electronics; radiofrequency integrated circuits; vibration measurement; AMS high-voltage CMOS technology; adaptive high-voltage electrostatic vibration energy harvester; asynchronous conditioning circuit; autocalibration concept; average power consumption estimation; capacitive vibration energy harvester; clock generator; control electronics; coupled VHDL-AMS-SPICE simulation; environmental fluctuation; frequency 41 Hz to 265 Hz; high-voltage IC design; low power low-voltage IC design; power 7.3 nW to 5.2 nW; programmable frequency; sensing electronics; size 0.35 mum; voltage 14 V; Calibration; Charge pumps; Clocks; Switches; Transducers; Vibrations; IC design; asynchronous conditioning circuit; auto-calibration; clock generator; electrostatic vibration energy harvester; high voltage; low power;
Conference_Titel :
Design, Test, Integration and Packaging of MEMS/MOEMS (DTIP), 2013 Symposium on
Conference_Location :
Barcelona
Print_ISBN :
978-1-4673-4477-7
