Smart Energy Management and Conversion

Wensi Wang; James F. Rohan; Ningning Wang; Mike Hayes; Aldo Romani; Enrico Macrelli; Michele Dini; Matteo Filippi; Marco Tartagni; Denis Flandre

doi:10.1002/9781118984772.ch9

Smart Energy Management and Conversion

Wensi Wang
, James F. Rohan
, Ningning Wang
, Mike Hayes
, Aldo Romani
, Enrico Macrelli
, Michele Dini
, Matteo Filippi
, Marco Tartagni
, Denis Flandre

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

Abstract

This chapter introduced power management circuits and energy storage unit designs for sub-1mW low power energy harvesting technologies, including indoor light energy harvesting, thermoelectric energy harvesting and vibration energy harvesting. The solutions address several of the problems associated with energy harvesting, power management and storage issues including low voltage operation, self-start, efficiency (conversion efficiency as well as impact of power consumption of the power management circuit itself), energy density and leakage current levels. Additionally, efforts to miniaturize and integrate magnetic parts as well as integrate discrete circuits onto silicon are outlined to offer improvements in cost, size and efficiency. Finally initial results from efforts to improve energy density of storage devices using nanomaterials are introduced.

Original language	English
Title of host publication	Beyond CMOS Nanodevices 1
Publisher	Wiley-Blackwell
Pages	249-275
Number of pages	27
Volume	9781848216549
ISBN (Electronic)	9781118984772
ISBN (Print)	9781848216549
DOIs	https://doi.org/10.1002/9781118984772.ch9
Publication status	Published - 23 Jun 2014

Keywords

Energy conversion
Photovoltaic energy harvesting
Power management circuits
Smart energy management
Sub-1mW low power energy harvesting
Thermoelectric energy harvesting
Vibration energy harvesting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/9781118984772.ch9

Cite this

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abstract = "This chapter introduced power management circuits and energy storage unit designs for sub-1mW low power energy harvesting technologies, including indoor light energy harvesting, thermoelectric energy harvesting and vibration energy harvesting. The solutions address several of the problems associated with energy harvesting, power management and storage issues including low voltage operation, self-start, efficiency (conversion efficiency as well as impact of power consumption of the power management circuit itself), energy density and leakage current levels. Additionally, efforts to miniaturize and integrate magnetic parts as well as integrate discrete circuits onto silicon are outlined to offer improvements in cost, size and efficiency. Finally initial results from efforts to improve energy density of storage devices using nanomaterials are introduced.",

keywords = "Energy conversion, Photovoltaic energy harvesting, Power management circuits, Smart energy management, Sub-1mW low power energy harvesting, Thermoelectric energy harvesting, Vibration energy harvesting",

author = "Wensi Wang and Rohan, \{James F.\} and Ningning Wang and Mike Hayes and Aldo Romani and Enrico Macrelli and Michele Dini and Matteo Filippi and Marco Tartagni and Denis Flandre",

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doi = "10.1002/9781118984772.ch9",

language = "English",

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TY - CHAP

T1 - Smart Energy Management and Conversion

AU - Wang, Wensi

AU - Rohan, James F.

AU - Wang, Ningning

AU - Hayes, Mike

AU - Romani, Aldo

AU - Macrelli, Enrico

AU - Dini, Michele

AU - Filippi, Matteo

AU - Tartagni, Marco

AU - Flandre, Denis

PY - 2014/6/23

Y1 - 2014/6/23

N2 - This chapter introduced power management circuits and energy storage unit designs for sub-1mW low power energy harvesting technologies, including indoor light energy harvesting, thermoelectric energy harvesting and vibration energy harvesting. The solutions address several of the problems associated with energy harvesting, power management and storage issues including low voltage operation, self-start, efficiency (conversion efficiency as well as impact of power consumption of the power management circuit itself), energy density and leakage current levels. Additionally, efforts to miniaturize and integrate magnetic parts as well as integrate discrete circuits onto silicon are outlined to offer improvements in cost, size and efficiency. Finally initial results from efforts to improve energy density of storage devices using nanomaterials are introduced.

AB - This chapter introduced power management circuits and energy storage unit designs for sub-1mW low power energy harvesting technologies, including indoor light energy harvesting, thermoelectric energy harvesting and vibration energy harvesting. The solutions address several of the problems associated with energy harvesting, power management and storage issues including low voltage operation, self-start, efficiency (conversion efficiency as well as impact of power consumption of the power management circuit itself), energy density and leakage current levels. Additionally, efforts to miniaturize and integrate magnetic parts as well as integrate discrete circuits onto silicon are outlined to offer improvements in cost, size and efficiency. Finally initial results from efforts to improve energy density of storage devices using nanomaterials are introduced.

KW - Energy conversion

KW - Photovoltaic energy harvesting

KW - Power management circuits

KW - Smart energy management

KW - Sub-1mW low power energy harvesting

KW - Thermoelectric energy harvesting

KW - Vibration energy harvesting

UR - https://www.scopus.com/pages/publications/84926396714

U2 - 10.1002/9781118984772.ch9

DO - 10.1002/9781118984772.ch9

M3 - Chapter

AN - SCOPUS:84926396714

SN - 9781848216549

VL - 9781848216549

SP - 249

EP - 275

BT - Beyond CMOS Nanodevices 1

PB - Wiley-Blackwell

ER -

Smart Energy Management and Conversion

Abstract

Keywords

UN SDGs

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