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Nonlinearity in energy harvesting sy...
~
Blokhina, Elena.
Nonlinearity in energy harvesting systems = micro- and nanoscale applications /
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Nonlinearity in energy harvesting systems/ edited by Elena Blokhina ... [et al.].
Reminder of title:
micro- and nanoscale applications /
other author:
Blokhina, Elena.
Published:
Cham :Springer International Publishing : : 2016.,
Description:
vii, 359 p. :ill., digital ; : 24 cm.;
Contained By:
Springer eBooks
Subject:
Energy harvesting. -
Online resource:
http://dx.doi.org/10.1007/978-3-319-20355-3
ISBN:
9783319203553
Nonlinearity in energy harvesting systems = micro- and nanoscale applications /
Nonlinearity in energy harvesting systems
micro- and nanoscale applications /[electronic resource] :edited by Elena Blokhina ... [et al.]. - Cham :Springer International Publishing :2016. - vii, 359 p. :ill., digital ;24 cm.
Introduction to Vibration Energy Harvesting -- MEMS Technologies for Energy Harvesting -- Oscillators for Energy Harvesting -- Transducers for Energy Harvesting -- Nonlinear Structural Mechanics of Micro and Nano Systems -- Nonlinear Dynamics of Ambient Noise Driven Graphene Nanostructured Devices for Energy Harvesting -- End-stop Nonlinearities in Vibration Energy Harvesters -- Conditioning circuits for capacitive energy harvesters -- Analysis and Modelling of Nonlinearities in Vibration Energy Harvesters -- Nonlinear Conditioning Circuits for Piezoelectric Energy Harvesters.
This book is a single-source guide to nonlinearity and nonlinear techniques in energy harvesting, with a focus on vibration energy harvesters for micro and nanoscale applications. The authors demonstrate that whereas nonlinearity was avoided as an undesirable phenomenon in early energy harvesters, now it can be used as an essential part of these systems. Readers will benefit from an overview of nonlinear techniques and applications, as well as deeper insight into methods of analysis and modeling of energy harvesters, employing different nonlinearities. The role of nonlinearity due to different aspects of an energy harvester is discussed, including nonlinearity due to mechanical-to-electrical conversion, nonlinearity due to conditioning electronic circuits, nonlinearity due to novel materials (e.g., graphene), etc. Coverage includes tutorial introductions to MEMS and NEMS technology, as well as a wide range of applications, such as nonlinear oscillators and transducers for energy harvesters, and electronic conditioning circuits for effective energy processing. Provides a guide to nonlinearity in energy harvesting systems, implemented in micro- and nanoscale employing MEMS and NEMS engineering techniques; Begins with tutorial chapters that make the discussion self-contained and accessible to readers who are not familiar with MEMS and nonlinear dynamics; Includes an overview of electrostatic and piezoelectric transducers and discusses in detail conditioning circuits for vibrations energy harvesters.
ISBN: 9783319203553
Standard No.: 10.1007/978-3-319-20355-3doiSubjects--Topical Terms:
795519
Energy harvesting.
LC Class. No.: TK2897 / .N659 2016
Dewey Class. No.: 621.042
Nonlinearity in energy harvesting systems = micro- and nanoscale applications /
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Introduction to Vibration Energy Harvesting -- MEMS Technologies for Energy Harvesting -- Oscillators for Energy Harvesting -- Transducers for Energy Harvesting -- Nonlinear Structural Mechanics of Micro and Nano Systems -- Nonlinear Dynamics of Ambient Noise Driven Graphene Nanostructured Devices for Energy Harvesting -- End-stop Nonlinearities in Vibration Energy Harvesters -- Conditioning circuits for capacitive energy harvesters -- Analysis and Modelling of Nonlinearities in Vibration Energy Harvesters -- Nonlinear Conditioning Circuits for Piezoelectric Energy Harvesters.
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This book is a single-source guide to nonlinearity and nonlinear techniques in energy harvesting, with a focus on vibration energy harvesters for micro and nanoscale applications. The authors demonstrate that whereas nonlinearity was avoided as an undesirable phenomenon in early energy harvesters, now it can be used as an essential part of these systems. Readers will benefit from an overview of nonlinear techniques and applications, as well as deeper insight into methods of analysis and modeling of energy harvesters, employing different nonlinearities. The role of nonlinearity due to different aspects of an energy harvester is discussed, including nonlinearity due to mechanical-to-electrical conversion, nonlinearity due to conditioning electronic circuits, nonlinearity due to novel materials (e.g., graphene), etc. Coverage includes tutorial introductions to MEMS and NEMS technology, as well as a wide range of applications, such as nonlinear oscillators and transducers for energy harvesters, and electronic conditioning circuits for effective energy processing. Provides a guide to nonlinearity in energy harvesting systems, implemented in micro- and nanoscale employing MEMS and NEMS engineering techniques; Begins with tutorial chapters that make the discussion self-contained and accessible to readers who are not familiar with MEMS and nonlinear dynamics; Includes an overview of electrostatic and piezoelectric transducers and discusses in detail conditioning circuits for vibrations energy harvesters.
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Energy (Springer-40367)
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