期刊文献+

DESIGN,FABRICATION,TESTING AND MECHANICAL ANALYSIS OF BULK-MICROMACHINED FLOWMETERS

DESIGN,FABRICATION,TESTING AND MECHANICAL ANALYSIS OF BULK-MICROMACHINED FLOWMETERS
下载PDF
导出
摘要 Micromachined piezoresistive flowmeters with four different types of sensing struc- tures have been designed,fabricated and tested.Piezoresistors were defined at the end of the sensors through p-diffusion,and their values were about 3.5kΩ.Wheatstone bridge was configured with the piezoresistors in order to measure the output response.The output voltage increases with increasing flow rate of air,obeying determined relationships.The testing results show that the sensors that are designed for measuring 10L/M in full operational range have desired sensitivities.The sensor chip is manufactured with bulk-micromachining technologies,requiring a set of seven masks. Micromachined piezoresistive flowmeters with four different types of sensing struc- tures have been designed,fabricated and tested.Piezoresistors were defined at the end of the sensors through p-diffusion,and their values were about 3.5kΩ.Wheatstone bridge was configured with the piezoresistors in order to measure the output response.The output voltage increases with increasing flow rate of air,obeying determined relationships.The testing results show that the sensors that are designed for measuring 10L/M in full operational range have desired sensitivities.The sensor chip is manufactured with bulk-micromachining technologies,requiring a set of seven masks.
出处 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2004年第2期152-158,共7页 力学学报(英文版)
基金 The project supported by the National "973" Project (TG1999033108) the National Natural Science Foundation of China (19928205,50131160739 and 10072068)
关键词 micromachined flowmeters bulk-micromachining PIEZORESISTIVITY Wheatstone bridge micromachined flowmeters bulk-micromachining piezoresistivity Wheatstone bridge
  • 相关文献

参考文献21

  • 1Peterson KE. Silicon as a mechanical material. Proceedings of the IEEE, 1982, 70(5): 420~457.
  • 2Qian J, Zhao YP. Materials selection in mechanical design for microsensors and microactuators. Materials & Design, 2002, 23(7): 619~625.
  • 3Shoji S, Esashi M. Microflow devices and systems. J Micromech Microeng, 1994, 4:157~171.
  • 4Nguyen NT. Micromachined flow sensors-a review. Flow Meas lnstrum, 1997, 8(1): 7~16.
  • 5Van Putten AFP, Middelhoek S. Integrated silicon anemometer. Electronic Letters, 1974, 10:425~426.
  • 6Johnson RG, Egashi RE. A high sensitive silicon chip microtransducer for air flow and differential pressure sensing applications. Sensors & Actuators A, 1987, 11:63~67.
  • 7Tai YC, Muller RS. Lightly-doped polysilicon bridge as a flow meter. Sensors & Actuators A, 1988, 15:63~75.
  • 8Henderson HT, Hsieh W. A miniature anemometer for ultrafast response. Sensors, 1989, 6:22~26.
  • 9Van Oudheusden BW. Silicon thermal flow sensors.Sensors: Actuators & Actuators, 1992, 30:5~26.
  • 10Nguyen NT, Kiehnscherf R. Low-cost silicon sensors for mass flow measurement of liquids and gases. Sensors & Actuators A, 1995, 49:17~20.

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部