Abstract
Purpose - The paper aims to highlight a wireless pressure-sensitive micro-device with high pressure sensitivity and accuracy. It is based on the partially stabilized Zirconia ceramic (PSZ) material which is capable of excellent elasticity and robustness.Design/methodology/approach - The paper begins with a general introduction to the wireless interrogating method and then the fabrication processes of the device using high temperature co-fired ceramic (HTCC) technology are described in detail. Findings - A passive wireless micro-device made from a novel material-partially stabilized Zirconia ceramic (PSZ) on pressure monitoring is fabricated and tested and we proved that the device possesses an advantages over some proposed wireless sensors on interrogating distance. The pressure sensitivity of the device is 336kHz/bar at readout distance 2.5cm and that is an excellent property.Originality/value - The paper shows a new design scheme for wireless pressure measurement. The future application of the wireless device indicates the problem on external packaging and wire connection could be avoided. The allowable interrogation distance between the device and readout circuit reaches 2.5cm which is mentioned for the first time so far. The distance is long enough to insert a thermal insulation material which can protect the vulnerable readout circuit from harsh environment, so the research finding is meaningful for the modern measurement technology.
Purpose - The paper aims to highlight a wireless pressure-sensitive micro-device with high pressure sensitivity and accuracy. It is based on the partially stabilized Zirconia ceramic (PSZ) material which is capable of excellent elasticity and robustness.Design/methodology/approach - The paper begins with a general introduction to the wireless interrogating method and then the fabrication processes of the device using high temperature co-fired ceramic (HTCC) technology are described in detail. Findings - A passive wireless micro-device made from a novel material-partially stabilized Zirconia ceramic (PSZ) on pressure monitoring is fabricated and tested and we proved that the device possesses an advantages over some proposed wireless sensors on interrogating distance. The pressure sensitivity of the device is 336kHz/bar at readout distance 2.5cm and that is an excellent property.Originality/value - The paper shows a new design scheme for wireless pressure measurement. The future application of the wireless device indicates the problem on external packaging and wire connection could be avoided. The allowable interrogation distance between the device and readout circuit reaches 2.5cm which is mentioned for the first time so far. The distance is long enough to insert a thermal insulation material which can protect the vulnerable readout circuit from harsh environment, so the research finding is meaningful for the modern measurement technology.