Paper Info
Title
A 4.5-to-16μW integrated triboelectric energy-harvesting system based on high-voltage dual-input buck converter with MPPT and 70V maximum input voltage
Abstract
As a newly emerging energy source, a triboelectric nanogenerator (TENG) was introduced in 2012, and various types of energy harvesters and active sensors based on the TENG have since been developed. Although research in the material-engineering field is actively conducted, there is not much research on TENG energy-harvesting circuits in the integrated-circuits field. From the viewpoint of material engineering, much research focuses on the applications and the analysis of instantaneous power. However, topics such as rms maximum power point (MPP), spice modeling, and impedance matching are more important from the circuit designer's viewpoint. This paper presents a TENG energy-harvesting circuit designed as a high-voltage (HV) dual-input (DI) buck converter with MPP tracking (MPPT) based on the proposed MPP analysis for the TENG.
Year
DOI
Venue
2018
10.1109/ISSCC.2018.8310226
2018 IEEE International Solid - State Circuits Conference - (ISSCC)
Keywords
Field
DocType
energy source,integrated triboelectric energy-harvesting system,instantaneous power analysis,SPICE modeling,impedance matching,high-voltage dual-input buck converter,rms maximum power point tracking,active sensors,triboelectric nanogenerator,MPPT,high-voltage dual-input buck converter,integrated-circuits field,TENG energy-harvesting circuit,material-engineering field,voltage 70.0 V,power 4.5 muW to 16 muW
Computer science,Maximum power point tracking,Energy harvesting,Circuit design,Impedance matching,Electronic engineering,Energy source,High voltage,Maximum power principle,Electrical engineering,Buck converter
Conference
ISBN
Citations 
PageRank 
978-1-5386-2227-8
0
0.34
References 
Authors
2
6
Name
Order
Citations
PageRank
Inho Park111.41
Junyoung Maeng211.07
Dongju Lim320.73
Minseob Shim4185.16
Junwon Jeong5112.84
Chulwoo Kim639774.58