The continuous trend toward sophist

The continuous trend toward sophisticated thick film hybrid circuits increases the need of simple means of temperature
compensation. The recent rapid progress in applying microcomputers to consumer products, automobiles and control equipment requires large number of low cost, interchangeable, and highly reliable temperature sensors. Thick film thermo resistive sensor or thermistor is expected to meet these increasing demands due to its high reproducibility, high flexibility, and attainment of high reliability and high accuracy by trimming. Also, thick film thermistor provides the design flexibility to obtain the optimum characteristics, attainment of high accuracy that provides a sensor with inter-changeability and ability to hybridize with the other thick film elements and ICs. Normally, thick film thermistors are prepared on alumina substrate by screen printing of the functional thick thermal properties. Within these compounds, thermistors based on manganese oxide along with the other oxides such as Co, Ni, Cu, Mg and Al added either as single doping or in combination to modify the electrical properties of the thermistor have been studied in detail[1,2]. This has led to the successful use of manganese oxide based thermistors in various applications such as temperature sensors, infrared radiation detection and thermal imaging [3–5]. Infrared detectors using thin film technology on silicon [6–11] and quartz[12,13] substrates have been reported. Thick film Infrared detector on alumina substrate was reported only by Vittal [14]. Umadevi and Nagendra [15,16] has also reported the bolometer infrared detectors based on transition metal oxide micro-thermistors and V2O5
thick film thermistors. Normally, lead based glass frits are beingused in thick film thermistors which is highly hazardous/toxic and banned its use in electronic components. Therefore, worldwide R&D efforts are going on to eliminate the hazardous or toxic elements such as lead and cadmium from the electronic components. It may be however noted here that as on date no ‘green’ (i.e. lead or cadmium free) NTC thick film thermistor materials are commercially available in the electronic market leading to lack of literature/reports on property such as infrared detection of lead free thermo sensors. Considering the present scenario, it is worth to develop lead free NTC thermo sensor for IR detection. IR radiation
is basically electromagnetic in nature and its interaction with matter results in heating leading to rise in temperature of the material. In general, thermistor, due to its high temperature coefficient of resistance, is found to show good responsively to IR radiation. film pastes; thick film thermistor pastes/materials are composed of spinel type semiconducting oxide, the glass frit as a permanent binder and an organic solvent as screening agent. Transition metals having partially filled ‘d’ orbital’s, such as Mn, Fe, Co, Ni, Cu are the preferred spinel semiconducting oxides among the various thermistor materials due to very good properties such as high TCR value, extreme ruggedness and easy to modify the electrical as well as the