Title :
An integrated SAW sensor with direct write antenna
Author :
Gallagher, M.W. ; Smith, W.C. ; Malocha, Donald C.
Author_Institution :
Electr. Eng. & Comput. Sci. Dept., Univ. of Central Florida, Orlando, FL, USA
Abstract :
This paper presents a wafer-level integrated SAW sensor that uses conventional thin-film fabrication for the SAW, and the direct write of a thicker dissimilar metal for the antenna. An automated thermal spray process deposits the antenna conductor onto the SAW substrate, providing ease of fabrication, optimal film thickness, superior adhesion, and application specific materials. Results will highlight the direct printing of thick copper traces onto whole LiNbO3 wafers. The design of a 915 MHz meandered dipole antenna with low mismatch loss and maximized radiation efficiency over a 7% SAW fractional bandwidth is demonstrated. Experimental performance results of antennas fabricated on standard FR4 and on-wafer by the direct write process are contrasted. Temperature sensors are fabricated on YZ-LiNbO3 and their wireless performance is evaluated.
Keywords :
dipole antennas; lithium compounds; surface acoustic wave sensors; thermal spraying; LiNbO3; antenna conductor; automated thermal spray; direct printing; direct write antenna; frequency 915 MHz; integrated SAW sensor; meandered dipole antenna; thick copper traces; thin-film fabrication; Antenna measurements; Copper; Dipole antennas; Lithium niobate; Substrates; Surface acoustic waves;
Conference_Titel :
European Frequency and Time Forum & International Frequency Control Symposium (EFTF/IFC), 2013 Joint
Conference_Location :
Prague
DOI :
10.1109/EFTF-IFC.2013.6702092
