Journal
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-REGULAR PAPERS
Volume 70, Issue 6, Pages 2306-2316Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCSI.2023.3256860
Keywords
~Correlated double sampling; low noise; cryogenic
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The MIDNA ASIC is a skipper-CCD readout chip capable of working at cryogenic temperatures. It integrates four front-end channels that process the CCD signal and performs differential averaging. Each channel consumes 4.5 mW power, has an input referred noise of 2.7 mu V-rms, and achieves sub-electron noise when coupled with a skipper-CCD.
The MIDNA application specific integrated circuit (ASIC) is a skipper-CCD readout chip fabricated in a 65 nm LP-CMOS process that is capable of working at cryogenic temperatures. The chip integrates four front-end channels that process the skipper-CCD signal and performs differential aver-aging using a dual slope integration (DSI) circuit. Each readout channel contains a pre-amplifier, a DC restorer, and a dual-slope integrator with chopping capability. The integrator chopping is a key system design element in order to mitigate the effect of low-frequency noise produced by the integrator itself, and it is not often required with standard CCDs. Each channel consumes 4.5 mW of power, occupies 0.156 mm(2) area and has an input referred noise of 2.7 mu V-rms. It is demonstrated experimentally to achieve sub-electron noise when coupled with a skipper-CCD by means of averaging samples of each pixel. Sub-electron noise is shown in three different acquisition approaches. The signal range is 6000 electrons. The readout system achieves 0.2 e(-) RMS by averaging 1000 samples with MIDNA both at room temperature and at 180 Kelvin.
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