Add to ORKGThe purpose of this paper is to demonstrate sensors and structures fabricated using the LTCC technology, which has been addressed and employed increasingly as a smart packaging approach for several applications. The focus will be on inclination and cantilever force sensors and micro-fluidic structures. Motivation for selection of LTCC for these applications in addition to fabrication and structuring of the devices will be explained in details. TGA (thermo-gravimetric analysis), dilatometer analysis, SEM (scanning electron microscopy), electronic equipment for measuring sensor performance will be extensively used for explanation of the results. It will also be shown that, compared to classical thick-film technology on alumina, LTCC allows a ...
Low Temperature Co-fired Ceramic (LTCC) Technology is recentlyaddressed to be a key approach among a...
We have designed and fabricated a low-range (ca. 100 mN) thick-film piezoresistive force sensor with...
Reliable operation in harsh environments such as high temperatures, high pressures, aggressive media...
Abstract. The purpose of this paper is to demonstrate sensors and structures fabricated using the LT...
LTCC (Low Temperature Co fired Ceramic) is a ceramic multilayer technology for the manufacturing of ...
Besides their excellent dielectric and thermo-mechanical characteristics Low Temperature Cofiring Ce...
Abstract: Low Temperature Co-fired Ceramic (LTCC) Technology is recently addressed to be a key appro...
Low-temperature cofired ceramic (LTCC) combines many advantageous features for low-range (force & pr...
Fabrication of a millinewton force sensor, which is based on LTCC technology as an alternative to th...
This study is aimed at outlining the fabrication of a novel piezoresistive force sensor using LTCC t...
This study is aimed at outlining the fabrication of a novel piezoresistive force sensor using LTCC t...
Nowadays low temperature co-fired ceramics (further on: LTCC) are used in sensor technology as senso...
Smart packaging concept has been the driving force for the search of advanced technologies to produc...
This paper deal with the design, manufacturing and measurement of optical pressure sensors produced ...
The miniaturization of analytical instruments and packaging of novel sensors is an area that has att...
Low Temperature Co-fired Ceramic (LTCC) Technology is recentlyaddressed to be a key approach among a...
We have designed and fabricated a low-range (ca. 100 mN) thick-film piezoresistive force sensor with...
Reliable operation in harsh environments such as high temperatures, high pressures, aggressive media...
Abstract. The purpose of this paper is to demonstrate sensors and structures fabricated using the LT...
LTCC (Low Temperature Co fired Ceramic) is a ceramic multilayer technology for the manufacturing of ...
Besides their excellent dielectric and thermo-mechanical characteristics Low Temperature Cofiring Ce...
Abstract: Low Temperature Co-fired Ceramic (LTCC) Technology is recently addressed to be a key appro...
Low-temperature cofired ceramic (LTCC) combines many advantageous features for low-range (force & pr...
Fabrication of a millinewton force sensor, which is based on LTCC technology as an alternative to th...
This study is aimed at outlining the fabrication of a novel piezoresistive force sensor using LTCC t...
This study is aimed at outlining the fabrication of a novel piezoresistive force sensor using LTCC t...
Nowadays low temperature co-fired ceramics (further on: LTCC) are used in sensor technology as senso...
Smart packaging concept has been the driving force for the search of advanced technologies to produc...
This paper deal with the design, manufacturing and measurement of optical pressure sensors produced ...
The miniaturization of analytical instruments and packaging of novel sensors is an area that has att...
Low Temperature Co-fired Ceramic (LTCC) Technology is recentlyaddressed to be a key approach among a...
We have designed and fabricated a low-range (ca. 100 mN) thick-film piezoresistive force sensor with...
Reliable operation in harsh environments such as high temperatures, high pressures, aggressive media...