Summary
The design of the power supply of an autonomous system is always challenging. The harvesting of ambient energy instead of using batteries would be a great improvement. Why is this technique so rarely applied? In this contribution a survey of mature technologies and visionary approaches is given.
Zusammenfassung
Die Energieversorgung autonomer Systeme ist immer eine Herausforderung. Oft würde die Ausbeutung der in der Umgebung vorhandenen Energie einen großen Fortschritt bedeuten. Warum muss man sich aber meist doch noch mit Batterien oder gar mit einem Netzanschluss zufrieden geben? Dieser Beitrag gibt einen Überblick über ausgereifte Problemlösungen und visionäre Überlegungen zu diesem Thema.
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Literatur
Ashauer, M. (2009): Mikro-Energietechnik–Thermoelektrischer Generator, Anwendungsbericht Mikrofluidik. HSG-IMIT Institut für Mikro und Informationstechnik; http://www.mstbw.de/imperia/md/content/mstbw/bestpractice/hsg_imit_thermoelektrischer_generator_d.pdf/
Beeby, S. P., Tudor, M. J., White, N. M. (2006): Energy harvesting vibration sources for microsystems applications. Measurements Science & Technollogy 17 (2006): R175–R195
Bindel, A. (2008): Energieautarke Sensor-Aktor-Systeme mit kabelloser Datenübertragung. Mechatronic Cluster Workshop, 1. 7. 2008 der Fraunhofer TEG in Linz
EnOcean (2007): Data Sheet Energy Harvester ECO 100; http://www.enocean.com/fileadmin/redaktion/pdf/tec_docs/datasheet_ECO100.pdf/
Habbe, B. (2008): Thermo Harvesting – More And Enduring Power For Wireless Systems. Eurosensors XXII, Dresden, Germany, Sept. 7–10, 2008: 1486–1489
Kwon, D., Rincón-Mora, G. A. (2009): A Rectifier-Free Piezoelectric Energy Harvester Circuit. 2009 IEEE Int. Symp. on Circuits and Systems, May 24–27, 2009, Taipei, Taiwan: 1085–1088
Maier, F., Berger, A., Dierneder, S., Sturmlechner, M. (2009): Energy Harvesting: Novel Linear Bearing With Low-friction Used in Electromagnetic Transformer. 1st ACCM Global Scientific Exchange Meeting, May 7, 2009, Johannes Kepler Universität, Linz, Austria
Milosiu, H., Meier, F. (2009): Wake-Up-Receiver für drahtlose Sensornetzwerke in Logistik-Anwendungen. EEEfCOM, 24.–25. Juni 2009, Ulm, Deutschland
Perpetuum Ltd. (2008): PMG17 Technical Specification Rev 2.0, Jan. 18, 2008, Document Number 26999
Pobering, S., Schwesinger, N. (2008): A Piezoelectric Energy Harvesting Device – Design, Simulation, Latest Results. Eurosensors XXII, Sept. 7–10, 2008, Dresden, Germany: 1478–1481
Raju, M. (2008): Energy Harvesting, Whitepaper, 2008. Texas Instruments Inc
Rittenschober, T. (2009): Energy Harvesting in Agricultural Machinery using Piezo Technology. 1st ACCM Global Scientific Exchange Meeting, May 7, 2009, Johannes Kepler Universität, Linz, Austria
Roundy, S. J. (2003): Energy Scavenging for Wireless Sensor Nodes with a Focus on Vibration to Electricity Conversion. Dissertation, 2003, University of California, Berkeley, USA
Spinola Durante, M., Mahlknecht, S. (2009): An Ultra Low Power Wakeup Receiver for Wireless Sensor Nodes. 3rd Int. Conf. on Sensor Technologies and Applications, Athens/Glyfada, Greece, June 18–23, 2009: 167–170
Torres, E. O., Rincón-Mora, G. A. (2009): Energy Budget and High-Gain Strategies for Voltage-Constrained Electrostatic Harvesters. IEEE Int. Symp. on Circuits and Systems, May 24–27, 2009, Taipei, Taiwan: 1101–1104
Wang, Z., Leonov, V., Fiorini, P., Van Hoof, C. (2008): Realization of a Poly-SiGe Based Micromachined Thermopile. Eurosensors XXII, Sept. 7–10, 2008, Dresden, Germany: 1420–1423
Waters, R. L., Chisum, B., Jazo, H., Fralick, M. (2008): Development of an Electro-Magnetic Transducer for Energy Harvesting of Kinetic Energy and its' Applicability to a MEMS-scale Device. Nanopower Forum 2008, Costa Mesa, California, USA, June 2–4, 2008
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Diskus, C. Energy Harvesting – ein Überblick. Elektrotech. Inftech. 127, 33–38 (2010). https://doi.org/10.1007/s00502-010-0716-3
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DOI: https://doi.org/10.1007/s00502-010-0716-3