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24 research outputs found

MEMS inertial power generators for biomedical applications

Author: Green T.C.
Holmes A.S.
Miao P.
Mitcheson P.D.
Mitcheson P.D.
Stark B.H.
Yeatman E.M.
Publication venue
Publication date: 01/01/2005
Field of study

Published versio

Spiral - Imperial College Digital Repository

Modelling for optimisation of self-powered wireless sensor nodes

Author: Green T.C.
Holmes A.S.
Mitcheson P.D.
Yates D.C.
Yeatman E.M.
Publication venue: 'Institute of Electrical and Electronics Engineers (IEEE)'
Publication date: 01/01/2005
Field of study

Accepted versio

CiteSeerX

Spiral - Imperial College Digital Repository

Analysis of optimised micro-generator architectures for self-powered ubiquitous computers

Author: Green T.C.
Holmes A.S.
Mitcheson P.D.
Yeatman E.M.
Publication venue
Publication date: 01/01/2002
Field of study

Accepted versio

Spiral - Imperial College Digital Repository

Analysis and optimisation of MEMS electrostatic on-chip power supply for self-powering of slow-moving sensors

Author: Green T.C.
Holmes A.S.
Miao P.
Mitcheson P.D.
Stark B.H.
Yeatman E.M.
Publication venue: Guimaraes, Imperial College London
Publication date: 01/01/2003
Field of study

Accepted versio

CiteSeerX

Spiral - Imperial College Digital Repository

Explore Bristol Research

Optimization of inertial micropower generators for human walking motion

Author: Green T.C.
Holmes A.S.
Mitcheson P.D.
Troster G.
von Buren T.
Yeatman E.M.
Publication venue: 'Institute of Electrical and Electronics Engineers (IEEE)'
Publication date: 01/02/2006
Field of study

Published versio

Spiral - Imperial College Digital Repository

MEMS electrostatic micropower generator for low frequency operation

Author: A.S. Holmes
Amirtharajah
B.H. Stark
E.M. Yeatman
Meninger
P. Miao
P.D. Mitcheson
T.C. Green
Tashiro
Publication venue: 'Elsevier BV'
Publication date: 01/09/2004
Field of study

Accepted versio

Crossref

Spiral - Imperial College Digital Repository

Explore Bristol Research

Multiple solutions and corresponding power output of a nonlinear bistable piezoelectric energy harvester

Author: A. Syta
Arkadiusz Syta
E. Esmailzadeh
Grzegorz Litak
J. Aguirre
J. Cao
J. Cao
J. Twiefel
L. Zavodney
M.F. Daqaq
M.I. Friswell
Michael I. Friswell
P.D. Mitcheson
R.L. Harne
S.P. Pellegrini
Sondipon Adhikari
T.Y. Li
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 01/01/2016
Field of study

We examine multiple responses of a vibrational energy harvester composed of a vertical beam and a tip mass. The beam is excited horizontally by a harmonic inertial force while mechanical vibrational energy is converted to electrical power through a piezoelectric patch. The mechanical resonator can be described by single or double well potentials depending on the gravity force from the tip mass. By changing the tip mass we examine the appearance of various solutions and their basins of attraction. Identification of particular solutions of the energy harvester is important as each solution may provide a different level of power output

Crossref

EDP Sciences OAI-PMH repository (1.2.0)

Springer - Publisher Connector

Cronfa at Swansea University

Enlighten

Vibration energy harvesting by a Timoshenko beam model and piezoelectric transducer

Author: A. Erturk
C.M. Junior
C.P. Le
C.P. Le
E. Manoach
F. Cottone
G. Litak
K. Vijayan
L. Gu
L.-C.J. Blystad
M. Borowiec
M.F. Daqaq
M.I. Friswell
M.S.M. Soliman
P.D. Mitcheson
R.L. Harne
S. Stoykov
S.P. Beeby
S.P. Pellegrini
S.Y. Lee
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

Crossref

Energy harvesting of cantilever beam system with linear and nonlinear piezoelectric model

Author: A. Erturk
C.B. Williams
E. Esmailzadeh
E. Halvorsen
E.S. Leland
G. Litak
G. Litak
H.S. Kim
L. Tang
L.-C.J. Blystad
M. Borowiec
M. Ferrari
M.F. Daqaq
M.I. Friswell
Marek Borowiec
N.A. Khovanova
P. Kumar
P.D. Mitcheson
S. Priya
S.R. Anton
W. Martens
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

Crossref

Multilayer piezoelectric energy harvesting using single supply pre-biasing for maximum power generation

Author: Beeby S.P.
Elliott A.D.T.
Mitcheson P.D.
Zhu D.
Publication venue
Publication date
Field of study

This paper studies the method of increasing output power of multilayer piezoelectric energy harvesters using Single Supply Pre-biasing (SSPB). In SSPB, it is important that the pre-biasing voltage be applied at the right moment. Multilayer piezoelectric energy harvesters are well suited SSPB as there is no phase lag between piezoelectric charge displacement on each layer and one layer can therefore be used for switch timing control. Compared to previously reported SSPB circuits, the power consumption of the circuit has been significantly reduced. Experimentally, the output power of a bimorph single-layer energy harvester using SSPB has been increased by a factor of three compared to that using a bridge rectifier. Furthermore, the possibility of implementing SSPB in bimorph double-layer energy harvesters has also been investigated

Southampton (e-Prints Soton)