传感技术学报
傳感技術學報
전감기술학보
Journal of Transduction Technology
2014年
9期
1169-1173
,共5页
任重%蔡婷%谭秋林%李晨%郑庭丽%熊继军
任重%蔡婷%譚鞦林%李晨%鄭庭麗%熊繼軍
임중%채정%담추림%리신%정정려%웅계군
压力传感器%无线无源%高温%零点温漂%谐振频率
壓力傳感器%無線無源%高溫%零點溫漂%諧振頻率
압력전감기%무선무원%고온%영점온표%해진빈솔
pressure sensor%wireless passive%high temperature%zero drift%resonant frequency EEACC:7230
利用高温烧结陶瓷技术制备了一种基于氧化铝陶瓷的LC谐振式无线无源压力传感器,并通过合理地设计圆柱螺旋天线以及隔热结构,实现了该传感器在高温环境中的无线耦合测试。研究了传感器在不同温度下的阻抗频率特性,分析并探讨了传感器的高温性能。测试结果表明,在29℃(室温)至700℃的温度范围内,测试天线端的最高瞬时温度为188.4℃,保证了传感器高温测试的可靠性。谐振频率对温度的平均变化量为1.314 kHz/℃,两次重复性测试的相对变化量为3.81%,重复性较好。该压力传感器可应用于高温恶劣环境下的压力测试,其高温性能的研究为压力信号的准确读取奠定了良好的基础。
利用高溫燒結陶瓷技術製備瞭一種基于氧化鋁陶瓷的LC諧振式無線無源壓力傳感器,併通過閤理地設計圓柱螺鏇天線以及隔熱結構,實現瞭該傳感器在高溫環境中的無線耦閤測試。研究瞭傳感器在不同溫度下的阻抗頻率特性,分析併探討瞭傳感器的高溫性能。測試結果錶明,在29℃(室溫)至700℃的溫度範圍內,測試天線耑的最高瞬時溫度為188.4℃,保證瞭傳感器高溫測試的可靠性。諧振頻率對溫度的平均變化量為1.314 kHz/℃,兩次重複性測試的相對變化量為3.81%,重複性較好。該壓力傳感器可應用于高溫噁劣環境下的壓力測試,其高溫性能的研究為壓力信號的準確讀取奠定瞭良好的基礎。
이용고온소결도자기술제비료일충기우양화려도자적LC해진식무선무원압력전감기,병통과합리지설계원주라선천선이급격열결구,실현료해전감기재고온배경중적무선우합측시。연구료전감기재불동온도하적조항빈솔특성,분석병탐토료전감기적고온성능。측시결과표명,재29℃(실온)지700℃적온도범위내,측시천선단적최고순시온도위188.4℃,보증료전감기고온측시적가고성。해진빈솔대온도적평균변화량위1.314 kHz/℃,량차중복성측시적상대변화량위3.81%,중복성교호。해압력전감기가응용우고온악렬배경하적압력측시,기고온성능적연구위압력신호적준학독취전정료량호적기출。
A wireless passive LC resonant pressure sensor based on alumina ceramic is fabricated by the high tem-perature sintering ceramic process,and cylindrical helical antenna and a structure of insulation material are designed to realize the wireless coupling test for the sensor in high temperature environment. The high temperature perform-ance of the sensor is analyzed and discussed by studying the impedance-frequency characteristics under different temperatures. The results show that the highest instantaneous temperature of the terminal of the test antenna is 188.4℃ when the temperature is ranged from 29℃( room temperature) to 700℃,which ensures the reliability of the test on the sensor under high temperature. The average change of resonant frequency to temperature is 1.314 kHz/℃, and the relative change of the twice tests is 3.81%,with good reproducibility. The pressure sensor can be used to measure the pressure under high temperature and harsh environment,and the study of the high temperature perform-ance of the sensor laid a good basis for accurately reading the pressure signal.