Capacitive-type liquid crystal temperature sensor

Temperature monitoring plays an increasingly important role in research and industrial applications. Based on the influence of liquid crystal material thermal sensitivity on the capacitance of liquid crystal cell, the sensing performance of the capacitive-type liquid crystal temperature sensor were...

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Bibliographic Details
Published in:Liquid crystals 2021-06, Vol.48 (8), p.1103-1110
Main Authors: Jing, Shuai, Gao, Na, Tang, Zongyuan, Wu, Keming, Sun, Jingjing, Cai, Minglei, Zhao, Tongzhou, Yang, Changyong, Xing, Hongyu, Ye, Wenjiang
Format: Article
Language:English
Subjects:
Capacitance
capacitance-voltage curve
Capacitive-type liquid crystal temperature sensor
Electric potential
Industrial applications
Liquid crystals
low power consumption
Power consumption
Response time
sensitivity
Sensitivity analysis
Sensors
Temperature
temperature measuring medium
Temperature sensors
Voltage
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Summary:Temperature monitoring plays an increasingly important role in research and industrial applications. Based on the influence of liquid crystal material thermal sensitivity on the capacitance of liquid crystal cell, the sensing performance of the capacitive-type liquid crystal temperature sensor were studied. By testing the capacitance under the voltage from 0 V to 20 V at different temperatures, the capacitance-voltage curve is drawn, and then the relationship between the capacitance change rate and the temperature at different voltages was obtained, so as to analyse its sensitivity. The results show that the capacitance of the liquid crystal material (RDP-09 T-100) is linearly related to the temperature in the temperature range of 20-110°C, even when the applied voltage is 0.1 V, which proves its feasibility as a temperature measuring medium for the temperature sensor and shows that the sensor has the advantage of low power consumption. When the applied voltage is 15 V, the sensitivity of the capacitive-type liquid crystal temperature sensor can reach 0.94 pF/°C and its response time is 0.115 s/(pF.°C). This research further expands the application scope of liquid crystal and has certain guiding significance for the development of new temperature sensor.
ISSN:0267-8292
1366-5855
DOI:10.1080/02678292.2020.1846093