High-temperature behavior of housed  piezoelectric resonators based on CTGS

Schulz, Michal; Ghanavati, Rezvan; Kohler, Fabian; Wilde, Jürgen; Fritze, Holger

doi:10.5194/jsss-10-271-2021

Articles | Volume 10, issue 2

https://doi.org/10.5194/jsss-10-271-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Sensors and Measurement Science International SMSI 2021

https://doi.org/10.5194/jsss-10-271-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 10, issue 2

Regular research article

|

19 Nov 2021

Regular research article |

| 19 Nov 2021

High-temperature behavior of housed piezoelectric resonators based on CTGS

Michal Schulz, Rezvan Ghanavati, Fabian Kohler, Jürgen Wilde, and Holger Fritze

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Aug 2025	42	13	3	58
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Oct 2025	108	16	3	127
Nov 2025	69	8	2	79

Cumulative views and downloads (calculated since 19 Nov 2021)

Month	HTML	PDF	XML	Total
Nov 2021	71	15	1	87
Dec 2021	45	13	1	59
Jan 2022	63	17	2	82
Feb 2022	47	9	5	61
Mar 2022	29	6	3	38
Apr 2022	8	3	0	11
May 2022	12	6	1	19
Jun 2022	12	6	1	19
Jul 2022	14	5	0	19
Aug 2022	25	2	1	28
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Feb 2024	6	4	0	10
Mar 2024	13	8	1	22
Apr 2024	14	4	4	22
May 2024	13	4	1	18
Jun 2024	59	5	4	68
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Aug 2024	38	4	42
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Feb 2025	8	1	3	12
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May 2025	17	2	1	20
Jun 2025	52	18	0	70
Jul 2025	26	8	0	34
Aug 2025	42	13	3	58
Sep 2025	113	7	1	121
Oct 2025	108	16	3	127
Nov 2025	69	8	2	79

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Short summary

Temperature sensors based on piezoelectric devices enable precise measurement of temperature changes in harsh environments such as high temperatures or aggressive atmospheres. In the case of this device, the change in the temperature is detected by means of the changing resonance frequency of the sensor. Here a sensor device based on catangasite (an isomorph of quartz) is presented. We discuss its behavior at elevated temperatures and confirm that it can successfully operate up to 1030 °C.


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