Current progress on pixel level packaging for uncooled IRFPA

Vacuum packaging is definitely a major cost driver for uncooled IRFPA and a technological breakthrough is still expected to comply with the very low cost infrared camera market. To address this key issue, CEA-LETI is developing a Pixel Level Packaging (PLP) technology which basically consists in capping each pixel under vacuum in the direct continuation of the wafer level bolometer process. Previous CEA-LETI works have yet shown the feasibility of PLP based microbolometers that exhibit the required thermal insulation and vacuum achievement. CEA-LETI is still pushing the technology which has been now applied for the first time on a CMOS readout circuit. The paper will report on the recent progress obtained on PLP technology with particular emphasis on the optical efficiency of the PLP arrangement compared to the traditional microbolometer packaging. Results including optical performances, aging studies and compatibility with CMOS readout circuit are extensively presented.

[1]  Paul W. Kruse,et al.  Uncooled Thermal Imaging Arrays, Systems, and Applications , 2001 .

[2]  Jean-Jacques Yon,et al.  Advanced packaging development for very low cost uncooled IRFPA , 2004, SPIE Defense + Commercial Sensing.

[3]  G. Dumont,et al.  Pixel level packaging for uncooled IRFPA , 2011, Defense + Commercial Sensing.

[4]  Jean-Jacques Yon,et al.  Latest amorphous silicon microbolometer developments at LETI-LIR , 2008, SPIE Defense + Commercial Sensing.

[5]  Jean-Jacques Yon,et al.  Innovative on-chip packaging applied to uncooled IRFPA , 2008, SPIE Defense + Commercial Sensing.

[6]  A. Crastes,et al.  Uncooled amorphous silicon XGA IRFPA with 17μm pixel-pitch for high end applications , 2008, SPIE Defense + Commercial Sensing.