JP2578890B2 - Thermistor - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermistor having a large negative temperature coefficient of resistance that can be used as a highly responsive and highly accurate temperature sensor.

2. Description of the Related Art Conventionally, as an oxide semiconductor combining cobalt oxide and lithium, an example of valence control theory generally described as one of the conduction mechanisms of an oxide semiconductor material has been used for a long time.
Featured by Verwey et al. [Philips Research
Report 5173 (1950)].

However, the study by Verwey et al. Was only at the academic stage, and the solid solution amount of lithium was less than 1 wt%, which was before the development of a thermistor.

In Japan, there has been a report by Futaki [Hitachi, Ltd., Central Research Laboratory, 20th anniversary commemorative proceedings, pp. 30-46, 1962], but as the thermistor characteristics, both resistivity and B constant are low. Is not suitable as a thermistor, but according to this.

On the other hand, as a result of re-examination by the present inventors, an excellent thermistor material having a low specific resistance and a high B constant was obtained when a combination of cobalt oxide and lithium and a specific crystal structure were used. Was found to be. Further, they have found that a material to which copper and silicon are added also has excellent thermistor characteristics.

Problems to be Solved by the Invention The thermistor material exhibited the most excellent characteristics in a composition region containing 0.3 to 24.0 atom% of lithium with respect to cobalt, copper and silicon. That is, even when the disk thermistor is left at a high temperature of 150 ° C., a very stable result is obtained as compared with a conventional spinel crystal thermistor of a transition metal oxide containing cobalt, manganese, copper, and nickel as main components. It was something that could be done. However, in DC load tests, especially DC load tests in moisture,
Another step was that the conventional thermistor was inferior to conventional thermistors. As a result of analyzing the cause of this defect, it was found that lithium, which was considered to be dissolved in cobalt oxide, was segregated at the grain boundary or the junction of the crystals, and lithium ions were moved by a DC load.

The present invention solves such a problem, and an object of the present invention is to provide a thermistor having excellent reliability as a sensor.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention has been subjected to various improvement studies, and as a result, has been made of a sintered mixture of metal oxides, and has a constituent metal element of cobalt (Co). , Copper (C
u), lithium (Li) and silicon (Si)
It is characterized by containing at least 80 atomic% and at least 80 atomic% or more of the lithium content is dissolved in the crystal grains of the NaCl-type cobalt oxide.

Operation By satisfying this ceramic microstructure, even in DC load tests and wet and medium load tests, it will exhibit better stability than conventional thermistors.

Example Hereinafter, an example of the present invention will be described.

First, using commercially available cobalt nitrate, copper nitrate, lithium carbonate and silicon dioxide as starting materials, Co: Cu: Li: Si = 75.
After dissolving at a ratio of 5: 5.0: 18.5: 1.0 atomic%, and evaporating it to dryness, it was calcined at a temperature of 600 ° C., and the calcined product was wet-pulverized with a ball mill. After drying the slurry, add and mix polyvinyl alcohol as a binder, take a required amount and press mold it into a disc to produce a large number of molded products, and bake them at 1200-1300 ° C for 2 hours in a nitrogen gas flow. did. Ag on both surfaces of the disc-shaped sintered body thus obtained.
Was provided as an electrode to prepare a sample. In the above process, several kinds of samples were prepared by changing the slurry drying method, conditions and firing conditions, and were subjected to a wet load (2000 hours) with a load power of 0.4 W in 60 ° C., 90 to 95% RH, and 150 A test of high-temperature storage at 2000C (2000 hours) was performed. Further, elemental analysis of the device was performed by atomic absorption spectroscopy separately for the device component and the eluted component. The results are summarized in the following table.

Further, as a result of confirming the crystal structure of these samples by X-ray diffraction, NaCl-type cobalt oxide (CoO) was identified.

In this table, of the lithium content, the value shown in the term within the grain is a value obtained by subtracting the elution amount from the total amount, and the value shown in the term of the grain boundary and other (grain boundary and joint) is the amount of the eluting component It is. Here, as the product specifications of the thermistor, since the rate of change of the resistance value in the moisture resistance load test is within ± 5%,
Nos. A, B and C are satisfied. That is, Na
A lithium content of 80 in the grains of Cl-type cobalt oxide
If at least atomic% is dissolved, the specification can be sufficiently satisfied.

The specific resistance and B constant (based on the resistance value at 25 ° C. and 50 ° C.) of these samples were 845 Ω · cm ± 20%, B constant = 5
350 (k) ± 3%.

Here, cobalt is 68.0-99.2 atomic%, and copper is 0.2-5.5
Atomic%, lithium is 0.3-24.0 atomic%, silicon is 0.0-2.
A composition range of 5 atomic% (but not including 0.0 atomic%) is preferable for satisfying a low specific resistance and a high B constant, and can further satisfy the electrical characteristics required by the device as a sensor. This is as disclosed by the present inventors in Japanese Patent Application No. 62-120428.

Effect of the Invention As described above, the present invention provides a thermistor having a low specific resistance, a high B constant, a negative temperature coefficient of resistance, and excellent reliability in a high-temperature storage test and a moisture resistance load test. However, as a sensor, high accuracy, high responsiveness and high reliability with respect to temperature can be achieved, and further new applications can be expected.

Claims (1)

(57) [Claims] 1. It comprises a sintered mixture of metal oxides and contains, as constituent metal elements, four kinds of cobalt (Co), copper (Cu), lithium (Li) and silicon (Si) in total of 100 atomic%. , And at least 80 atomic% or more of the lithium content
A thermistor characterized by being dissolved in the crystal grains of NaCl-type cobalt oxide.