A Speed-Enhancing Dual-Trial Instantaneous Switching Architecture for SAR ADCs
IEEE Trans. on Circuits and Systems(2015)
摘要
A single-channel asynchronous successive approximation register analog-to-digital converter with a dual-trial instantaneous switching scheme is presented in this brief. The proposed architecture uses two capacitive digital-to-analog converter (DAC) arrays to generate two possible outputs while the comparator is in the regeneration process. Two comparators are assigned to each DAC to alternately switch between the compare phase and the reset phase. Such an approach allows the overlapping of the DAC settling, the comparator reset, and the comparator regeneration, which significantly improves the conversion speed. Furthermore, the random nature of the internal channel selection converts the mismatches between both channels into wideband noise, which improves the spurious-free dynamic range.
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关键词
speed-enhancing dual-trial instantaneous switching architecture,dac arrays,offset mismatch,capacitive digital-to-analog converter,analogue-digital conversion,analog-to-digital conversion,internal channel selection,single-channel asynchronous successive approximation register,high-speed,high speed,sar adc,successive approximation,time interleaved (ti),gain mismatch,comparator reset,successive approximation register (sar) adc,comparator regeneration,analog-to-digital conversion (adc),comparators (circuits),analog-to-digital converter,time-interleaved,asynchronous,wideband noise,digital-analogue conversion,registers,switches,diffusion tensor imaging,noise
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