Mitsuo Ai scite author profile

Thick film circuits were developed for temperature compensating of semiconductor strain gauges and for connecting the gauges to amplifiers in electronic pressure and differential pressure transmitters. In each circuit, ten Au pads for Al wire bonding and thirteen Ag/Pd pads for soldering must be fabricated on a small substrate. The results of the research are shown below.(1) The resistance values and the thermistor constants required for the thermistors are 0.9 ± 0.09 kilo-ohm and 2500 ± 40 Kelvin, respectively. Those characteristics are realized by developing a paste composition composed of a new spinel type oxide (Mn1.6Co0.8Ni0.35Ru0.25O4) RuO2and glass.(2) Accelerated life tests of the thick film thermistors reveal that the resistance drift rates of the thermistors are less than ±0.02 %/year at 120°C.(3) Life tests clarify that the wire bonding pads fabricated by using ESL 8882 Au paste keep more than 4 grams in pull strength, and that the soldering pads fabricated by using Sumitomo CLP 495A Ag/Pd paste are more than 1 kilo-gram in pull strength.(4) The temperature dependence of zero shift and span shift in the pressure transmitter are suppresed within ±0.2% between –40°C and 120°C by using the thick film circuit developed.

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Elastic Alloys with Low Thermal Expansion Coefficient for Measuring Instruments

Tsuchiya

Sakamoto

1981

T. SICE

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Displacement Sensor Using Diffused Type Semiconductor Strain Gages

Shimazoe

Nishihara

et al. 1981

T. SICE

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Mitsuo Ai

Cantilever-type displacement sensor using diffused silicon strain gauges

Future of imaging technology

Thick Film Temperature Compensating Circuit for Semiconductor StrainGauges

Elastic Alloys with Low Thermal Expansion Coefficient for Measuring Instruments

Displacement Sensor Using Diffused Type Semiconductor Strain Gages

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