Title :
Investigations on an Ultra-Thin Bendable Monolithic Si CMOS Image Sensor
Author :
Dogiamis, G.C. ; Hosticka, B.J. ; Grabmaier, A.
Author_Institution :
Univ. of Duisburg-Essen, Duisburg, Germany
Abstract :
In this paper, theoretical as well as experimental results of the investigations on a bendable ultrathin Si monolithic CMOS image sensor are presented. The electro-optical behavior of a thinned flexible CMOS active pixel sensor for the application of uniaxial mechanical stress is theoretically and experimentally analyzed. The necessity of a correlated double sampling readout scheme to achieve a stress-independent operation is underlined. Optical as well as electrical characteristics of standard photodiodes on ultrathin silicon chips embedded into a polyimide foil under several bending configurations are discussed and experimental data are presented. Moreover, design rules for the stress-independent operation of a flexible ultrathin image sensor are given and the thinning and the encapsulation processes are shortly presented.
Keywords :
CMOS image sensors; bending; electric sensing devices; electro-optical devices; electro-optical effects; elemental semiconductors; encapsulation; integrated circuit design; integrated circuit packaging; monolithic integrated circuits; optical sensors; photodetectors; photodiodes; polymer films; readout electronics; silicon; stress analysis; thin film sensors; Si; correlated double sampling readout scheme; electrooptical behavior; encapsulation process; flexible ultrathin bendable monolithic CMOS image sensor; photo- diodes; polyimide foil; stress-independent operation; thinned flexible CMOS active pixel sensor; ultrathin silicon chip; uniaxial mechanical stress; Image sensors; MOSFET; Optical sensors; Photodiodes; Silicon; Stress; Flexible CMOS image sensor; mechanical stress; photodiodes;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2254474
