A low-photocurrent CMOS retinal focal-plane sensor with pseudo-BJT smoothing network and adaptive current Schmitt trigger for scanner applications

Abstract

In this paper, a new structure of low-photocurrent CMOS retinal focal-plane sensor with pseudo-BJT smoothing network and adaptive current Schmitt trigger is proposed. The proposed structure is very simple and compact. This new circuit can be easily implemented in CMOS technology with a small chip area. Besides, another innovation of this circuit is that the proposed circuit could be operated for low-induced current level (pA), and the current hysteresis of proposed current Schmitt trigger could be adjusted adaptively according to the value of induced photocurrent. In this paper, the detection of static and moving objects, such as a moving white bar, are proven by projecting a pattern through HSPICE simulation. The proposed retinal focal-plane sensor includes 32 /spl times/ 32 pixel array with a pixel size of 70 /spl times/ 70 /spl mu/m/sup 2/. The fill factor is 75% and the total chip area is 3000 /spl times/ 3030 /spl mu/m/sup 2/. It is with fully functional 32 /spl times/ 32 implementations consuming less than 8.8 /spl mu/W per pixel at 3.3 V. Measurement results present the proposed retinal focal-plane sensor could be successfully used in character recognition, such as pen-scanner or etc.