#author("2019-02-16T01:46:45+00:00","default:hiroshi","hiroshi")
#side(News)
*MEMS振動発電素子論文のアクセプト版がオンライン掲載されました。&br;MEMS energy harvester is published online now (accepted version).&br;2018-03-10 [#pabbf456]
#ref(2018-03-10C.jpg,nolink,right,around,zoom,200x200)
#ref(2018-04-04A.jpg,nolink,right,around,zoom,200x200)
低Gでも高効率で振動エネルギーを回収できるMEMS機構を組み込みました。
A new MEMS structure is implemented to retrieve the vibrational energy at high efficiency even within a low-G range.
#clear
+&color(black){Hiroaki Honma, Hiroyuki Mitsuya, Gen Hashiguchi, Hiroyuki Fujita, and Hiroshi Toshiyoshi, "Improvement of Energy Conversion Effectiveness and Maximum Output Power of Electrostatic Induction-type MEMS Energy Harvesters by using Symmetric Comb-electrode Structures," Journal of Micromechanics and Microengineering, vol. 28, 2018, pp. 064005 (13pp) (http://iopscience.iop.org/article/10.1088/1361-6439/aab514 )};
// http://iopscience.iop.org/article/10.1088/1361-6439/aab514
*MEMS振動発電素子論文の最終PDFがオンライン掲載されました。&br;MEMS energy harvester is published online now (final version).&br;2018-04-04 [#sad58415]
#ref(benchmark.jpg,right,around,zoom,400x200)
他のMEMS振動発電素子との性能比較ベンチマークを実施しました。
A benchmark study is included to compare the harvester performance.
![[PukiWiki]](image/XYstage.jpg "[PukiWiki]")
