Title :
The dynamic response analysis of a pyroelectric thin-film infrared sensor with thermal isolation improvement structure
Author :
Ho, Jyh-Jier ; Fang, Y.K. ; Lee, W.J. ; Chen, F.Y. ; Hsieh, W.T. ; Ting, S.-F. ; Ju, M.S. ; Huang, S.B. ; Wu, Kun-Hsien ; Chen, C.Y.
Author_Institution :
Dept. of Electron. Eng., Fortune Inst. of Technol., Kaohsiung, Taiwan
fDate :
12/1/1999 12:00:00 AM
Abstract :
Both theoretical and experimental studies of the substrate effect on the thermal behavior of a PbTiO3 infrared (IR) sensor have been reported. With active cantilever dimensions of 200×100×5 μm3 formed by etching processes, the pyroelectric micro-electro-mechanical system (pyro/MEMS) structure exhibits a much superior performance to that of a traditional IR-sensing bulk structure under the 800-μW incident optical light with wavelength of 970 nm. Two-order improvement in current responsivity is obtained for the pyro/MEMS structure. This shows the substrate effect on the performance of a pyro/MEMS IR sensor is very significant. A simple model has also been proposed to illustrate the substrate effect more comprehensively
Keywords :
infrared detectors; lead compounds; microsensors; pyroelectric detectors; 800 muW; 970 nm; PbTiO3; cantilever; current responsivity; dynamic response; etching; microelectromechanical system; pyroelectric thin film infrared sensor; substrate effect; thermal isolation; Etching; Infrared sensors; Microelectromechanical systems; Micromechanical devices; Photoconductivity; Pyroelectricity; Substrates; Temperature sensors; Thermal sensors; Thin film sensors;
Journal_Title :
Electron Devices, IEEE Transactions on
