Hybrid rotary-translational vibration energy harvester using cycloidal motion as a mechanical amplifier

被引:34
|
作者
Moss, Scott D. [1 ]
Hart, Genevieve A. [1 ]
Burke, Stephen K. [1 ]
Carman, Gregory P. [2 ]
机构
[1] Def Sci & Technol Org, Fishermans Bend, Vic 3207, Australia
[2] UCLA, Active Mat Lab, Los Angeles, CA 90095 USA
来源
APPLIED PHYSICS LETTERS | 2014年 / 104卷 / 03期
关键词
D O I
10.1063/1.4861601
中图分类号
O59 [应用物理学];
学科分类号
摘要
This paper reports on a hybrid rotary-translational vibration energy harvesting approach that exploits cycloidal motion to achieve a relatively high power density from an oscillatory kinetic energy harvester operating at frequencies below 10 Hz. The approach uses a rolling magnetic sphere. The rolling motion mechanically amplifies the velocity at which the magnetic pole of the sphere passes a nearby coil transducer, inducing a proportionally larger electro-motive force across the coil. A prototype cycloidal energy harvester is shown to produce a peak power of 201 mW from a host vibration of 500 mg rms at 5.4 Hz.
引用
收藏
页数:5
相关论文
共 50 条
  • [1] Modelling and development of a robust hybrid rotary-translational vibration energy harvester
    Payne, Owen R.
    Moss, Scott D.
    [J]. JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 2017, 28 (05) : 565 - 577
  • [2] NONLINEAR DYNAMICS OF THE HYBRID ROTARY-TRANSLATIONAL ENERGY HARVESTER
    Karami, M. Amin
    Inman, Daniel J.
    [J]. PROCEEDINGS OF THE ASME CONFERENCE ON SMART MATERIALS ADAPTIVE STRUCTURES AND INTELLIGENT SYSTEMS - 2013, VOL 2, 2014,
  • [3] HYBRID ROTARY-TRANSLATIONAL ENERGY HARVESTER FOR MULTI-AXIS AMBIENT VIBRATIONS
    Karami, M. Amin
    Inman, Daniel J.
    [J]. PROCEEDINGS OF THE ASME CONFERENCE ON SMART MATERIALS, ADAPTIVE STRUCTURES AND INTELLIGENT SYSTEMS, VOL 2, 2012, : 739 - 746
  • [4] Implementation of a robust hybrid rotary-translational vibration energy harvester for autonomous self-powered acceleration measurement
    Payne, Owen R.
    Vandewater, Luke A.
    Ung, Chandarin
    Moss, Scott D.
    [J]. ACTIVE AND PASSIVE SMART STRUCTURES AND INTEGRATED SYSTEMS 2015, 2015, 9431
  • [5] An electromagnetic rotary-translational motion energy harvester enabled by magnetic-regulated magnetic sphere
    Wang, Shuxian
    Wu, Zhiyi
    Liu, Shiyou
    [J]. SENSORS AND ACTUATORS A-PHYSICAL, 2022, 345
  • [6] ELECTROMAGNETIC ENERGY HARVESTER WITH MECHANICAL AMPLIFIER FOR TRANSLATIONAL KINETIC
    Cerny, M.
    Dzurilla, M.
    Musil, M.
    [J]. ENGINEERING MECHANICS 2017, 2017, : 242 - 245
  • [7] POWERING PACEMAKERS WITH A NONLINEAR HYBRID ROTARY TRANSLATIONAL ENERGY HARVESTER
    Kuch, Benjamin
    Karami, M. Amin
    [J]. PROCEEDINGS OF THE ASME INTERNATIONAL DESIGN ENGINEERING TECHNICAL CONFERENCES AND COMPUTERS AND INFORMATION IN ENGINEERING CONFERENCE, 2014, VOL 8, 2014,
  • [8] A bistable rotary-translational energy harvester from ultra-low-frequency motions for self-powered wireless sensing
    Masabi, Sayed N.
    Fu, Hailing
    Theodossiades, Stephanos
    [J]. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 2023, 56 (02)
  • [9] Piezomagnetic vibration energy harvester with an amplifier
    Norenberg, Joao Pedro
    Cunha Jr, Americo
    Wolszczak, Piotr
    Litak, Grzegorz
    [J]. THEORETICAL AND APPLIED MECHANICS LETTERS, 2023, 13 (06)
  • [10] Ultra-low frequency energy harvesting using bi-stability and rotary-translational motion in a magnet-tethered oscillator
    Fu, Hailing
    Theodossiades, Stephanos
    Gunn, Ben
    Abdallah, Imad
    Chatzi, Eleni
    [J]. NONLINEAR DYNAMICS, 2020, 101 (04) : 2131 - 2143
12345