An asynchronous sub-two-step quantizer for continuous-time sigma-delta modulators
ISCAS(2014)
摘要
This paper presents an asynchronous sub-two-step circuit architecture to reduce the complexity and power consumption of internal analog-to-digital converter (quantizer) for Continuous-Time Sigma-Delta Modulator (CTSDM). By using the proposed new circuit topology, only 1/3 of comparators for a 5-bit quantizer design are needed when compared with the conventional flash based counterpart. The proposed quantizer has been implemented and fabricated in a UMC 65-nm CMOS process. The measured results have shown that the quantizer consumes 0.59 mW at an operating frequency of 250 MS/s in a 1.2 V supply and achieves 28.82 dB SNDR (4.5 ENOB) from the output spectrum.
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关键词
CMOS process,sigma-delta modulation,asynchronous sub-two-step circuit architecture,power consumption,continuous-time sigma-delta modulators,voltage 1.2 V,size 65 nm,comparators,asynchronous sub-two-step quantizer,continuous time systems,circuit topology,word length 5 bit,comparators (circuits),CMOS digital integrated circuits,power 0.59 mW,internal analog-to-digital converter,asynchronous circuits,CTSDM
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