Low-noise high-speed CMOS CID readout IC
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This paper presents a design technique of low-noise and high-speed CMOS readout IC for large-area charge integrating detectors. In conventional structures, the readout speed is inevitably reduced to improve the noise rejection performance due to an RC low-pass filter at output. To alleviate the trade-off relationship between the speed and SNR, the response approximation scheme is proposed in this paper. It employs a multi-sampling technique for accurate extraction of RC delay response. The readout circuit is designed for a 0.18-μm CMOS technology, and achieves an input-referred noise of 561 e− rms and 1-row readout time of 21 μs. The reconstructed output response has an accuracy of 14-bit by utilizing only 1-τ sampling time.
[1] R. J. Kansy,et al. Response of a correlated double sampling circuit to 1/f noise , 1980 .
[2] H. Wey,et al. Noise transfer characteristics of a correlated double sampling circuit , 1986 .
[3] Veljko Radeka,et al. Front-end electronics for imaging detectors , 2000 .
[4] A high performance, low-noise 128-channel readout integrated circuit for instrumentation and X-ray applications , 2004, IEEE Symposium Conference Record Nuclear Science 2004..