Abstract
Mathematical models and imaging models that show the relationship between the transition points mismatch of analog-to-digital converters (ADCs) and the bit error rate (BER) in single-bit and multi-bit quanta image sensors (QISs) are established. The mathematical models suggest that when the root-mean-square (r.m.s.) of the read noise in jots is 0.15e−, the standard deviation of the transition points should be less than 0.15e− to ensure that the BER is lower than 1% in the single-bit QIS, and 0.21e− to ensure that the BER is lower than 5% in the multi-bit QIS. Based on the mathematical models, the imaging models prove that the fixed-pattern noise (FPN) increases with a stronger transition point mismatch. The imaging models also compare the imaging quality in the case of different spatial oversampling factors and bit depths. The grayscale similarity index (GSI) is 3.31 LSB and 1.74 LSB when the spatial oversampling factors are 256 and 4096, respectively, in the single-bit QIS. The GSI is 1.93 LSB and 1.13 LSB when the bit depth is 3 and 4, respectively, in the multi-bit QIS. It indicates that a higher bit depth and a larger spatial oversampling factor could reduce the effect of the transition points mismatch of1-bit or n-bit ADCs.
Highlights
As pixel shrink causes a drop in the number of photons detected by each pixel and a smaller full well capacity (FWC) that lead to a reduced signal-to-noise ratio and dynamic range, the quanta image sensor (QIS) has been proposed
In [14], a charge transfer amplifier is reported to have about jot signal, a QIS has a stricter requirement for transition points that result from the pre-amplifier
The imaging model shows that the analog-to-digital converters (ADCs) design process for a QIS
Summary
As pixel shrink causes a drop in the number of photons detected by each pixel and a smaller full well capacity (FWC) that lead to a reduced signal-to-noise ratio and dynamic range, the quanta image sensor (QIS) has been proposed. Signal the relationship between the mismatch of ADC transition and the BER so itneeds is better to implement a pre-amplifier before the ADC no matter whether the QIS is single-bit or to be investigated for further QIS design. In [14], a charge transfer amplifier is reported to have about jot signal, a QIS has a stricter requirement for transition points that result from the pre-amplifier This work exhibits BER as a function of ADC transition points mismatch It would guide the could be flexible according to the spatial and temporal oversampling factors.
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