Abstract

This paper describes a novel use of thick film techniques to produce a temperature sensor. Ferroelectric materials above their Curie temperature exhibit a dielectric constant which is inversely dependent upon temperature. The measuring range of the sensor can be altered by varying the ratio of the ferroelectric components used (BaTiO₃ and SrTiO₃). By using this ceramic together with a glass frit to form a paste, it is possible to employ standard thick film techniques to produce the sensors. Sensors with a composition (Ba_0.5 Sr_0.5)TiO₃ were subjected to various temperature and ambient conditions to investigate their temperature performance and stability. The sensors were fundamentally stable and exhibited a capacitance change as large as 65% of their initial value over a temperature range of 100℃ and yet the dependence was linear to within 1.5℃.