A 0.9-V 12-mW 5-MSPS algorithmic ADC with 77-dB SFDR | Zendy

Jipeng Li | Zendy; Gil-Cho Ahn | Zendy; Dong-Young Chang | Zendy; Un-Ku Moon | Zendy

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A 0.9-V 12-mW 5-MSPS algorithmic ADC with 77-dB SFDR

Author(s) -

Jipeng Li,

Gil-Cho Ahn,

Dong-Young Chang,

Un-Ku Moon

Publication year - 2005

Publication title -

ieee journal of solid-state circuits

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.571

H-Index - 215

eISSN - 1558-173X

pISSN - 0018-9200

DOI - 10.1109/jssc.2004.842866

Subject(s) - components, circuits, devices and systems , engineered materials, dielectrics and plasmas , computing and processing

An ultra-low-voltage CMOS two-stage algorithm ADC featuring high SFDR and efficient background calibration is presented. The adopted low-voltage circuit technique achieves high-accuracy high-speed clocking without the use of clock boosting or bootstrapping. A resistor-based input sampling branch demonstrates high linearity and inherent low-voltage operation. The proposed background calibration accounts for capacitor mismatches and finite opamp gain error in the MDAC stages via a novel digital correlation scheme involving a two-channel ADC architecture. The prototype ADC, fabricated in a 0.18 /spl mu/m CMOS process, achieves 77-dB SFDR at 0.9 V and 5MSPS (30 MHz clocking) after calibration. The measured SNR, SNDR, DNL, and INL at 80 kHz input are 50 dB, 50 dB, 0.6 LSB, and 1.4 LSB, respectively. The total power consumption is 12 mW, and the active die area is 1.4 mm/sup 2/.

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