Low power sensor node with photovoltaic power supply for radio-based process monitoring

Research output: Contribution to journalConference articleResearchpeer review

Authors

  • Christoph Von Der Ahe
  • Bernard Lüers
  • Ludger Overmeyer
  • Bernd Geck
  • Tobias Fürtjes

Research Organisations

External Research Organisations

  • MARPOSS MONITORING SOLUTIONS GMBH
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Details

Original languageEnglish
Pages (from-to)203-209
Number of pages7
JournalProcedia Manufacturing
Volume24
Early online date6 Jul 2018
Publication statusPublished - 2018
Event4th International Conference on System-Integrated Intelligence: Intelligent, Flexible and Connected Systems in Products and Production, 2018 - Hannover, Germany
Duration: 19 Jun 201820 Jun 2018

Abstract

This paper presents the idea of improving existing process monitoring systems for drilling, milling or threading by employing a novel communication technology as well as energy harvesting methods. An overview of the system including sensor node, energy supply and communication technology is given. The radio transmission methods are investigated in terms of power consumption in order to define requirements for the power supply. Fundamental measurements to characterize the behavior of different types of solar cells under artificial light are performed. Based on the results, two designs of sensor node prototypes are presented. The optical power supply and the energy harvesting system for the demonstrators are shown in detail.

Keywords

    24 GHz RFID, energy harvesting, optical power supply, process monitoring, RF communication, wireless sensor node

ASJC Scopus subject areas

Sustainable Development Goals

Cite this

Low power sensor node with photovoltaic power supply for radio-based process monitoring. / Von Der Ahe, Christoph; Lüers, Bernard; Overmeyer, Ludger et al.
In: Procedia Manufacturing, Vol. 24, 2018, p. 203-209.

Research output: Contribution to journalConference articleResearchpeer review

Von Der Ahe, C, Lüers, B, Overmeyer, L, Geck, B & Fürtjes, T 2018, 'Low power sensor node with photovoltaic power supply for radio-based process monitoring', Procedia Manufacturing, vol. 24, pp. 203-209. https://doi.org/10.1016/j.promfg.2018.06.038, https://doi.org/10.15488/3814
Von Der Ahe, C., Lüers, B., Overmeyer, L., Geck, B., & Fürtjes, T. (2018). Low power sensor node with photovoltaic power supply for radio-based process monitoring. Procedia Manufacturing, 24, 203-209. https://doi.org/10.1016/j.promfg.2018.06.038, https://doi.org/10.15488/3814
Von Der Ahe C, Lüers B, Overmeyer L, Geck B, Fürtjes T. Low power sensor node with photovoltaic power supply for radio-based process monitoring. Procedia Manufacturing. 2018;24:203-209. Epub 2018 Jul 6. doi: 10.1016/j.promfg.2018.06.038, 10.15488/3814
Von Der Ahe, Christoph ; Lüers, Bernard ; Overmeyer, Ludger et al. / Low power sensor node with photovoltaic power supply for radio-based process monitoring. In: Procedia Manufacturing. 2018 ; Vol. 24. pp. 203-209.
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abstract = "This paper presents the idea of improving existing process monitoring systems for drilling, milling or threading by employing a novel communication technology as well as energy harvesting methods. An overview of the system including sensor node, energy supply and communication technology is given. The radio transmission methods are investigated in terms of power consumption in order to define requirements for the power supply. Fundamental measurements to characterize the behavior of different types of solar cells under artificial light are performed. Based on the results, two designs of sensor node prototypes are presented. The optical power supply and the energy harvesting system for the demonstrators are shown in detail.",
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AU - Von Der Ahe, Christoph

AU - Lüers, Bernard

AU - Overmeyer, Ludger

AU - Geck, Bernd

AU - Fürtjes, Tobias

N1 - Acknowledgements: The authors wish to thank the German Research Foundation for the financial support in the framework of the Collaborative Research Center 653.

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AB - This paper presents the idea of improving existing process monitoring systems for drilling, milling or threading by employing a novel communication technology as well as energy harvesting methods. An overview of the system including sensor node, energy supply and communication technology is given. The radio transmission methods are investigated in terms of power consumption in order to define requirements for the power supply. Fundamental measurements to characterize the behavior of different types of solar cells under artificial light are performed. Based on the results, two designs of sensor node prototypes are presented. The optical power supply and the energy harvesting system for the demonstrators are shown in detail.

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KW - energy harvesting

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T2 - 4th International Conference on System-Integrated Intelligence: Intelligent, Flexible and Connected Systems in Products and Production, 2018

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