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      KCI등재 SCIE SCOPUS

      Self-powered piezoelectric energy harvester for bicycle

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      https://www.riss.kr/link?id=A103789485

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      다국어 초록 (Multilingual Abstract)

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      한국어
      Various electronic accessories, such as on-board computers, communication devices, and wireless sensor nodes, have been installed onbicycles for several years. A powering scheme from ambient energy could avoid the use of batteries and improve the availability of thesedevices even when the bicycle is unused for a long time. This paper reports on vibration resources detected in a bicycle as a potentialenergy source for supplying these on-board devices. Measurements showed that the bandwidth of energy vibration is reduced with speedand that the vibrations at any location in the bicycle are nevertheless sufficient for useful vibration harvesting. For this application, a piezoelectricvibration harvester was designed and equipped with a voltage switching interface circuit. Sufficient energy is harvested duringthe field test.
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      Various electronic accessories, such as on-board computers, communication devices, and wireless sensor nodes, have been installed onbicycles for several years. A powering scheme from ambient energy could avoid the use of batteries and improve the avai...

      Various electronic accessories, such as on-board computers, communication devices, and wireless sensor nodes, have been installed onbicycles for several years. A powering scheme from ambient energy could avoid the use of batteries and improve the availability of thesedevices even when the bicycle is unused for a long time. This paper reports on vibration resources detected in a bicycle as a potentialenergy source for supplying these on-board devices. Measurements showed that the bandwidth of energy vibration is reduced with speedand that the vibrations at any location in the bicycle are nevertheless sufficient for useful vibration harvesting. For this application, a piezoelectricvibration harvester was designed and equipped with a voltage switching interface circuit. Sufficient energy is harvested duringthe field test.

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      참고문헌 (Reference)

      1 D. Guyomar, "Toward energy harvesting using active materials and conversion improvement by nonlinear processing" 52 (52): 584-595, 2005

      2 L. Tang, "Toward broadband vibration-based energy harvesting" 21 (21): 1867-1897, 2010

      3 Y. Y. Chen, "Study of a piezoelectric switching circuits for energy harvesting with bistable broadband technique by work-cycle analysis" 24 (24): 180-193, 2013

      4 Yuan-Ping Liu, "Semi-passive piezoelectric structural damping based on a pulse-width modulation switching circuit" 대한기계학회 27 (27): 3625-3633, 2013

      5 Y. Y. Chen, "Self-powered semi-passive Piezoelectric structural damping based on zero velocity crossing detection" 22 (22): 025029-, 2013

      6 Y. Y. Chen, "Self-powered piezoelectric energy harvesting device using velocity control synchronized switching technique" 2010

      7 D. P. Arnold, "Review of microscale magnetic power generation" 43 (43): 3940-3951, 2007

      8 M. Ericka, "Predictive energy harvesting from mechanical vibration using circular piezoelectric membrane" 2005

      9 B. S. Lee, "Power harvesting using piezoelectric MEMS generator with interdigital electrodes" 2007

      10 A. Badel, "Piezoelectric energy harvesting using a synchronized switch technique" 17 (17): 831-839, 2006

      1 D. Guyomar, "Toward energy harvesting using active materials and conversion improvement by nonlinear processing" 52 (52): 584-595, 2005

      2 L. Tang, "Toward broadband vibration-based energy harvesting" 21 (21): 1867-1897, 2010

      3 Y. Y. Chen, "Study of a piezoelectric switching circuits for energy harvesting with bistable broadband technique by work-cycle analysis" 24 (24): 180-193, 2013

      4 Yuan-Ping Liu, "Semi-passive piezoelectric structural damping based on a pulse-width modulation switching circuit" 대한기계학회 27 (27): 3625-3633, 2013

      5 Y. Y. Chen, "Self-powered semi-passive Piezoelectric structural damping based on zero velocity crossing detection" 22 (22): 025029-, 2013

      6 Y. Y. Chen, "Self-powered piezoelectric energy harvesting device using velocity control synchronized switching technique" 2010

      7 D. P. Arnold, "Review of microscale magnetic power generation" 43 (43): 3940-3951, 2007

      8 M. Ericka, "Predictive energy harvesting from mechanical vibration using circular piezoelectric membrane" 2005

      9 B. S. Lee, "Power harvesting using piezoelectric MEMS generator with interdigital electrodes" 2007

      10 A. Badel, "Piezoelectric energy harvesting using a synchronized switch technique" 17 (17): 831-839, 2006

      11 E. Lefeuvre, "Piezoelectric energy harvesting device optimization by synchronous electric charge extraction" 16 (16): 865-876, 2005

      12 E. Minazara, "Piezoelectric diaphragm for vibration energy harvesting" 44 : 699-703, 2006

      13 D. Vasic, "PWM interface for piezoelectric energy harvesting" 49 (49): 843-845, 2013

      14 A. Khaligh, "Kinetic energy harvesting using piezoelectric and electromagnetic technologiesstate of the art" 57 (57): 850-860, 2010

      15 J. Liang, "Impedance modeling and analysis for piezoelectric energy harvesting systems" 17 (17): 1145-1157, 2012

      16 Longhan Xie, "Harvest human kinetic energy to power portable electronics" 대한기계학회 26 (26): 2005-2008, 2012

      17 S. P. Beeby, "Energy harvesting vibration sources for microsystems applications" 17 (17): 175-195, 2007

      18 J. Liang, "Energy flow in piezoelectric energy harvesting systems" 20 (20): 015005-, 2011

      19 D. Inman, "Energy Harvesting Technologies" Springer 2009

      20 Juil Park, "Design optimization of piezoelectric energy harvester subject to tip excitation" 대한기계학회 26 (26): 137-143, 2012

      21 D. Vasic, "Design of selfpowering part of SSHI interface for piezoelectric energy harvesting" 49 (49): 288-290, 2013

      22 G. A. Lesieutre, "Damping as a result of piezoelectric energy harvesting" 269 : 991-1001, 2004

      23 G. A. Lesieutre, "Damping as a result of piezoelectric energy harvesting" 269 (269): 991-1001, 2004

      24 Y. C. Shu, "An improved analysis of the SSHI interface in piezoelectric energy harvesting" 16 (16): 2253-2264, 2007

      25 S. Roundy, "A study of low level vibrations as a power source for wireless sensor nodes" 26 (26): 1131-1144, 2003

      26 W. Wang, "A smart sensing unit for vibration measurement and monitoring" 15 (15): 70-78, 2010

      27 Y. Y. Chen, "A selfpowered switching circuit for piezoelectric energy harvesting with velocity control" 57 (57): 30903-, 2012

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2012-11-05 학술지명변경 한글명 : 대한기계학회 영문 논문집 -> Journal of Mechanical Science and Technology KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-19 학술지명변경 한글명 : KSME International Journal -> 대한기계학회 영문 논문집
      외국어명 : KSME International Journal -> Journal of Mechanical Science and Technology      		 KCI등재
      2006-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2004-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2001-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      1998-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.04 0.51 0.84
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.74 0.66 0.369 0.12
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