Abstract
Current mode active pixel sensors convert light intensity into an analog output current. A current mode image sensor enables simple implementation of focal plane algebraic functions but suffers from poor linearity and large fixed-patten noise. This paper analyzes the causes of the non-linearity of a current-mode image sensor including a theoretical derivation and numerical simulation. Previously reported linearity improvement methods are reviewed, while an architecture of a current mode image sensor with a voltage feedback loop between pixel output and the current conveyor for linearity enhancement is proposed. An image sensor array of 100 $\times$ 200 current mode pixels is fabricated in a 0.5 $\mu{\rm m}$ 2P3M standard CMOS processing technology. Experimental results illustrate a 45% improvement of the linearity of the proposed imager. Fixed pattern noise is reduced by 57.6% for the maximum readout current, which can be further reduced by another 51.5% after gain calibration. A signal to noise ratio of 49.6 dB is achieved.
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