A 12b, 50 MS/s, Fully Differential Zero-Crossing Based Pipelined ADC
Author(s)
Brooks, Lane; Lee, Hae-Seung
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Zero-crossing based switch capacitor circuits have been introduced as alternatives to op-amp based circuits for eased design considerations and improved power efficiency. This work further improves the resolution, power efficiency, and robustness of previous zero-crossing based circuits (ZCBCs) and features a 90 nm CMOS, offset compensated, fully differential, zero-crossing based, 12b, 50 MS/s, pipelined ADC requiring no CMFB. The power consumption is 4.5 mW. The FOM is 88 fJ/step. Fully differential signaling is used to improve power supply rejection and power efficiency. A power efficient chopping offset compensation technique is presented. Reference voltage switching is improved to avoid gate boosted switches. Redundancy is used to reduce output range requirements for increased signal range. Two regenerative latch architectures used for bit decision comparison are analyzed and measured for offset, noise, and speed.
Date issued
2009-12Department
Massachusetts Institute of Technology. Department of Electrical Engineering and Computer ScienceJournal
IEEE Journal of Solid-State Circuits
Publisher
Institute of Electrical and Electronics Engineers
Citation
Brooks, L., and Hae-Seung Lee. “A 12b, 50 MS/s, Fully Differential Zero-Crossing Based Pipelined ADC.” Solid-State Circuits, IEEE Journal of 44.12 (2009): 3329-3343. © 2009 IEEE
Version: Final published version
ISSN
0018-9200
Keywords
zero-crossing based circuits, scaled CMOS, offset compensation, comparator-based switched-capacitor circuits, chopping, chopper stabilization, ZCBC, CHS, CBSC, ADC, A/D