Abstract
The temporal read noise on the signal path of a complementary metal-oxide semiconductor image sensor is analyzed to investigate the effectiveness of high-gain column amplifiers in enhancing sensor sensitivity. The signal path examined includes a pixel source follower, a switched-capacitor, noise-cancelling, high-gain amplifier, and a sample-and-hold circuit in each column. It is revealed that the total random readout noise consists of a component due to noise charge sampled and held at the charge summation node of the amplifier and transferred to the output, and a direct noise component sampled at the sample-and-hold stage at the output of the column amplifier. The analysis suggests that the direct noise components can be greatly reduced by increasing the column amplifier gain, indicating that an extremely low-noise readout circuit may be achievable through the development of a double-stage noise-cancelling architecture.
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