An environmentally powered wireless sensor node for high precision temperature measurements

Achim Berger; Thomas Hölzl; Leander B. Hörmann; Hans-Peter Bernhard; Andreas Springer; Peter Priller

doi:10.1109/SAS.2017.7894039

An environmentally powered wireless sensor node for high precision temperature measurements

Achim Berger, Thomas Hölzl, Leander B. Hörmann, Hans-Peter Bernhard, Andreas Springer, Peter Priller

Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung

Abstract

Wireless measurement systems will provide significant benefits to industrial applications, for production facilities as well as in mobile or R&D scenarios. However, in order to exploit the improvements by flexibility, scalability and easy reconfigurability brought by wireless sensor networks (WSN), industrial use cases often require a sustainable autonomous energy supply, while providing the reliability which is comparable with today's wired systems. In this work we introduce a sensor node implementation with a temperature measurement circuit design, optimized for low energy consumption, while providing industry-grade accuracy and resolution. A first implementation realizing the concept of a switched signal acquisition circuitry is discussed, demonstrating the impact of the energy harvesting and storage unit. In a second implementation, a coordinated signal conditioning and power management concept is introduced.

Originalsprache	Englisch
Titel	2017 IEEE Sensors Applications Symposium (SAS)
Herausgeber (Verlag)	IEEE Computer Society
Seiten	1-6
Seitenumfang	6
ISBN (Print)	978-1-5090-3203-7
DOIs	https://doi.org/10.1109/SAS.2017.7894039
Publikationsstatus	Veröffentlicht - 15 März 2017
Extern publiziert	Ja
Veranstaltung	2017 IEEE Sensors Applications Symposium (SAS) - Glassboro, NJ, USA Dauer: 13 März 2017 → 15 März 2017

Konferenz

Konferenz	2017 IEEE Sensors Applications Symposium (SAS)
Zeitraum	13/03/17 → 15/03/17

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10.1109/SAS.2017.7894039

https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=7894039

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abstract = "Wireless measurement systems will provide significant benefits to industrial applications, for production facilities as well as in mobile or R&D scenarios. However, in order to exploit the improvements by flexibility, scalability and easy reconfigurability brought by wireless sensor networks (WSN), industrial use cases often require a sustainable autonomous energy supply, while providing the reliability which is comparable with today's wired systems. In this work we introduce a sensor node implementation with a temperature measurement circuit design, optimized for low energy consumption, while providing industry-grade accuracy and resolution. A first implementation realizing the concept of a switched signal acquisition circuitry is discussed, demonstrating the impact of the energy harvesting and storage unit. In a second implementation, a coordinated signal conditioning and power management concept is introduced.",

keywords = "Temperature measurement, Wireless sensor networks, Energy harvesting, Switches, Power demand, Voltage measurement, Wireless communication",

author = "Achim Berger and Thomas H{\"o}lzl and H{\"o}rmann, {Leander B.} and Hans-Peter Bernhard and Andreas Springer and Peter Priller",

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doi = "10.1109/SAS.2017.7894039",

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T1 - An environmentally powered wireless sensor node for high precision temperature measurements

AU - Berger, Achim

AU - Hölzl, Thomas

AU - Hörmann, Leander B.

AU - Bernhard, Hans-Peter

AU - Springer, Andreas

AU - Priller, Peter

PY - 2017/3/15

Y1 - 2017/3/15

N2 - Wireless measurement systems will provide significant benefits to industrial applications, for production facilities as well as in mobile or R&D scenarios. However, in order to exploit the improvements by flexibility, scalability and easy reconfigurability brought by wireless sensor networks (WSN), industrial use cases often require a sustainable autonomous energy supply, while providing the reliability which is comparable with today's wired systems. In this work we introduce a sensor node implementation with a temperature measurement circuit design, optimized for low energy consumption, while providing industry-grade accuracy and resolution. A first implementation realizing the concept of a switched signal acquisition circuitry is discussed, demonstrating the impact of the energy harvesting and storage unit. In a second implementation, a coordinated signal conditioning and power management concept is introduced.

AB - Wireless measurement systems will provide significant benefits to industrial applications, for production facilities as well as in mobile or R&D scenarios. However, in order to exploit the improvements by flexibility, scalability and easy reconfigurability brought by wireless sensor networks (WSN), industrial use cases often require a sustainable autonomous energy supply, while providing the reliability which is comparable with today's wired systems. In this work we introduce a sensor node implementation with a temperature measurement circuit design, optimized for low energy consumption, while providing industry-grade accuracy and resolution. A first implementation realizing the concept of a switched signal acquisition circuitry is discussed, demonstrating the impact of the energy harvesting and storage unit. In a second implementation, a coordinated signal conditioning and power management concept is introduced.

KW - Temperature measurement

KW - Wireless sensor networks

KW - Energy harvesting

KW - Switches

KW - Power demand

KW - Voltage measurement

KW - Wireless communication

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U2 - 10.1109/SAS.2017.7894039

DO - 10.1109/SAS.2017.7894039

M3 - Conference Paper

SN - 978-1-5090-3203-7

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BT - 2017 IEEE Sensors Applications Symposium (SAS)

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An environmentally powered wireless sensor node for high precision temperature measurements

Abstract

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