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普通NTC热敏电阻器的阻-温特性呈指数变化,用于测温、控温和温度补偿很不方便,而NTC线性网络又相当复杂。借鉴普通NTC热敏电阻器线性化的机理,能够使宏观上的热敏电阻器与普通电阻器的串并联,在微观上得以实现以Mn-CO2O4和CoMn1.5Ni0.5O4为热敏相,适当的RuO2为导电相,硼硅玻璃为玻璃相,用厚膜陶瓷工艺制成了厚膜线性NTC热敏电阻器。
The resistance-temperature characteristics of an ordinary NTC thermistor vary exponentially, and are inconvenient for temperature measurement, temperature control, and temperature compensation, and the NTC linear network is quite complex. Draw lessons from the general NTC thermistor linearization mechanism, can make the macroscopic thermistor and ordinary resistor string in parallel, can be realized in the microscopic Mn-CO2O4 and CoMn1.5Ni0.5O4 as the thermal phase, appropriate RuO2 as conductive phase, borosilicate glass as glass phase and thick-film linear NTC thermistor made of thick-film ceramic process.