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Energy flow analysis in piezoelectric energy harvesting systems
Kenji Uchino
, Takaaki Ishii
Materials Research Institute (MRI)
Research output
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Contribution to journal
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Article
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peer-review
59
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Keyphrases
Piezoelectric Transducer
100%
Piezoelectric Energy Harvesting
100%
Energy Flow Analysis
100%
Electrical Energy
50%
Electromechanical Coupling Coefficient
25%
Energy Transfer
25%
Academic Research
25%
Comprehensive Strategy
25%
Energy Harvesting
25%
Energy Recovery
25%
Energy Transduction
25%
Mechanical Stability
25%
Cymbal
25%
Mechanical Vibration
25%
Harvesting System
25%
Composite Transducer
25%
Rechargeable Batteries
25%
DC-DC Converter
25%
Energy Transfer Efficiency
25%
Flexible piezoelectric
25%
Transducer Structure
25%
Electrical Impedance Matching
25%
Industrial Research
25%
Engineering
Energy Harvesting
100%
Piezoelectric
100%
Energy Flow
100%
Flow Analysis
100%
Transducer
71%
Electrical Energy
28%
Electromechanical Coupling Factor
14%
Limitations
14%
Mechanical Stability
14%
Mechanical Energy
14%
Electrical Impedance
14%
Mechanical Vibration
14%
Mechanical Impedance
14%
D.C. To D.C. Converter
14%
Secondary Battery
14%
Phase Step
14%
Material Science
Piezoelectricity
100%
Flow Analysis
100%
Electromechanical Coupling
14%
Mechanical Stability
14%
Electrical Impedance
14%
Mechanical Vibration
14%
Secondary Battery
14%
Composite Material
14%