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NTIS 바로가기IEEE transactions on ultrasonics, ferroelectrics, and frequency control, v.58 no.3, 2011년, pp.629 - 645
Soobum Lee (Dept. of Mech. Eng., Univ. of Maryland at Coll. Park, College Park, MD, USA) , Youn, Byeng D (Sch. of Mech. & Aerosp. Eng., Seoul Nat. Univ., Seoul, South Korea)
This paper presents an advanced design concept for a piezoelectric energy harvesting (EH), referred to as multimodal EH skin. This EH design facilitates the use of multimodal vibration and enhances power harvesting efficiency. The multimodal EH skin is an extension of our previous work, EH skin, whi...
Erturk, A, Inman, D J. An experimentally validated bimorph cantilever model for piezoelectric energy harvesting from base excitations. Smart materials & structures, vol.18, no.2, 025009-.
Lin, J. H., Wu, X. M., Ren, T. L., Liu, L. T.. MODELING AND SIMULATION OF PIEZOELECTRIC MEMS ENERGY HARVESTING DEVICE. Integrated ferroelectrics, vol.95, no.1, 128-141.
Allik, Henno, Hughes, Thomas J. R.. Finite element method for piezoelectric vibration. International journal for numerical methods in engineering, vol.2, no.2, 151-157.
Sodano, H. A., Inman, D. J., Park, G.. A Review of Power Harvesting from Vibration using Piezoelectric Materials. The Shock and vibration digest : a publication of the Shock and Vibration Information Center, Naval Research Laboratory, vol.36, no.3, 197-206.
Anton, Steven R, Sodano, Henry A. A review of power harvesting using piezoelectric materials (2003–2006). Smart materials & structures, vol.16, no.3, R1-R21.
Lu, F, Lim, S P. Modeling and analysis of micro piezoelectric power generators for micro-electromechanical-systems applications. Smart materials & structures, vol.13, no.1, 57-63.
Chen, Shih-Nung, Wang, Gou-Jen, Chien, Ming-Chun. Analytical modeling of piezoelectric vibration-induced micro power generator. Mechatronics : mechanics, electronics, control, vol.16, no.7, 379-387.
Erturk, A., Tarazaga, P. A., Farmer, J. R., Inman, D. J.. Effect of Strain Nodes and Electrode Configuration on Piezoelectric Energy Harvesting From Cantilevered Beams. Journal of vibration and acoustics, vol.131, no.1, 011010-.
Badel, A., Guyomar, D., Lefeuvre, E., Richard, C.. Efficiency Enhancement of a Piezoelectric Energy Harvesting Device in Pulsed Operation by Synchronous Charge Inversion. Journal of intelligent material systems and structures, vol.16, no.10, 889-901.
Guan, M J, Liao, W H. On the efficiencies of piezoelectric energy harvesting circuits towards storage device voltages. Smart materials & structures, vol.16, no.2, 498-505.
Meninger, S., Mur-Miranda, J.O., Amirtharajah, R., Chandrakasan, A., Lang, J.H.. Vibration-to-electric energy conversion. IEEE transactions on very large scale integration (VLSI) systems, vol.9, no.1, 64-76.
Rupp, Cory J., Evgrafov, Anton, Maute, Kurt, Dunn, Martin L.. Design of Piezoelectric Energy Harvesting Systems: A Topology Optimization Approach Based on Multilayer Plates and Shells. Journal of intelligent material systems and structures, vol.20, no.16, 1923-1939.
ITP sensors and automation: Low-cost vibration power harvesting for wireless sensors 2008
Erturk, A, Inman, D J. Issues in mathematical modeling of piezoelectric energy harvesters. Smart materials & structures, vol.17, no.6, 065016-.
Shen, Dongna, Choe, Song-Yul, Kim, Dong-Joo. (Regular Papers & Brief Communications) (Electrical Properties of Condensed Matter) Analysis of Piezoelectric Materials for Energy Harvesting Devices under High-g Vibrations. Japanese journal of applied physics. Part 1, Regular papers, short notes and review papers, vol.46, no.10, 6755-6760.
Tadesse, Yonas, Shujun Zhang,, Priya, Shashank. Multimodal Energy Harvesting System: Piezoelectric and Electromagnetic. Journal of intelligent material systems and structures, vol.20, no.5, 625-632.
Lee, Soobum, Youn, Byeng D, Jung, Byung C. Robust segment-type energy harvester and its application to a wireless sensor. Smart materials & structures, vol.18, no.9, 095021-.
Ottman, G.K., Hofmann, H.F., Bhatt, A.C., Lesieutre, G.A.. Adaptive piezoelectric energy harvesting circuit for wireless remote power supply. IEEE transactions on power electronics, vol.17, no.5, 669-676.
9th Int Congr Sound and Vibration (ICSV9) Energy reclamation from a vibrating piezoceramic composite beam kasyap 2002
Granstrom, Jonathan, Feenstra, Joel, Sodano, Henry A, Farinholt, Kevin. Energy harvesting from a backpack instrumented with piezoelectric shoulder straps. Smart materials & structures, vol.16, no.5, 1810-1820.
Wireless Networking Symposium A self-powered wireless sensor for indoor environmental monitoring leland 2004
2024 T3 Alclad Aluminum Sheet and Coil 2010
Jeon, Y.B., Sood, R., Jeong, J.-h., Kim, S.-G.. MEMS power generator with transverse mode thin film PZT. Sensors and actuators. A, Physical, vol.122, no.1, 16-22.
Park, Gyuhae, Rosing, Tajana, Todd, Michael D., Farrar, Charles R., Hodgkiss, William. Energy Harvesting for Structural Health Monitoring Sensor Networks. Journal of infrastructure systems, vol.14, no.1, 64-79.
Roundy, Shad, Wright, Paul K., Rabaey, Jan. A study of low level vibrations as a power source for wireless sensor nodes. Computer communications, vol.26, no.11, 1131-1144.
Goldschmidtboeing, Frank, Woias, Peter. Characterization of different beam shapes for piezoelectric energy harvesting. Journal of micromechanics and microengineering.: structures, devices, and systems, vol.18, no.10, 104013-.
Roundy, S., Leland, E.S., Baker, J., Carleton, E., Reilly, E., Lai, E., Otis, B., Rabaey, J.M., Wright, P.K., Sundararajan, V.. Improving power output for vibration-based energy scavengers. IEEE pervasive computing, vol.4, no.1, 28-36.
Zheng, Bin, Chang, Ching-Jui, Gea, Hae Chang. Topology optimization of energy harvesting devices using piezoelectric materials. Structural and multidisciplinary optimization : journal of the International Society for Structural and Multidisciplinary Optimization, vol.38, no.1, 17-23.
Silva, Emílio C. N.. Comment on “Topology optimization of energy harvesting devices using piezoelectric materials” : by Bin Zheng, Ching-Jui Chang and Hae Chang Gea (Struct Multidisc Optim 38:17-23, March 2009). Structural and multidisciplinary optimization : journal of the International Society for Structural and Multidisciplinary Optimization, vol.39, no.3, 337-338.
Ultrasonic Transducers for Nondestructive Testing silk 1984
Glynne-Jones, P., Beeby, S.P., White, N.M.. Towards a piezoelectric vibration-powered microgenerator. IEE proceedings, Science, measurement and technology, vol.148, no.2, 68-72.
IEEE Trans Ultrason Ferroelectr Freq Control Single crystal PMN-PT/epoxy 1–3 composite for energy-harvesting application ren 2006 10.1109/TUFFC.2006.1610572 53 631
Proc Global Symp Innovative Solutions for the Advancement of the Transport Industry (TRANSFAC) Applications of piezoelectric materials in transportation industry nuffer 2006
Elvin, N, Elvin, A, Choi, D. H. A self-powered damage detection sensor. The Journal of strain analysis for engineering design, vol.38, no.2, 115-124.
ASME Int Design Engineering Technical Conj & Computers and Information in Engineering Conf A generic sensor network design framework based on a detect ability measure wang 2010 2010
Analog temperature sensor 2008
Rivera, H.L., Garcia-Souto, J.A., Sanz, J.. Measurements of mechanical vibrations at magnetic cores of power transformers with fiber-optic interferometric intrinsic sensor. IEEE journal on selected topics in quantum electronics : a publication of the IEEE Communications Society, vol.6, no.5, 788-797.
Allan, D., Blundell, M., Boyd, K., Hinde, D.. New techniques for monitoring the insulation quality of in-service HV apparatus. IEEE transactions on electrical insulation, vol.27, no.3, 578-585.
International Conference on Electrical Machines 2008 3D-FEM simulation for investigation of load noise of power transformers verified by measurements peter 0 1
Korean Soc Noise and Vibration Engineering (KSNE) Annu Spring & Fall Conf Study on vibration velocity rating for main transformer in nuclear power plant lee 2005 587
Alclad Aluminum 7075-O MatWeb Material Property Data 2009
Catalog #7C 2008
Leibfried, T.. Online monitors keep transformers in service. IEEE computer applications in power : CAP, vol.11, no.3, 36-42.
Sine-sweep test simulation haberman 2008
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