Allen Waters scite author profile

Allen Waters

5Publications

63Citation Statements Received

40Citation Statements Given

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Affiliations

Intel (United States), Oregon State University, University of Washington

Publications

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A 10-b Ternary SAR ADC With Quantization Time Information Utilization

Guerber

Venkatram

Gande

et al. 2012

IEEE J. Solid-State Circuits

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The design of a ternary successive approximation (TSAR) analog-to-digital converter (ADC) with quantization time information utilization is proposed. The TSAR examines the transient information of a typical dynamic SAR voltage comparator to provide accuracy, speed, and power benefits. Full half-bit redundancy is shown, allowing for residue shaping which provides an additional 6 dB of signal-to-quantization-noise ratio (SQNR). Synchronous quantizer speed enhancements allow for a shorter worst case conversion time. An increased monotonicity switching algorithm, stage skipping due to reference grouping, and SAR logic modifications minimize overall dynamic energy. The architecture has been shown to reduce capacitor array switching power consumption and digital-to-analog converter (DAC) driver power by about 60% in a mismatch limited SAR, reduce comparator activity by about 20%, and require only 8.03 average comparisons and 6.53 average DAC movements for a 10-b ADC output word. A prototype is fabricated in 0.13-m CMOS employing on-chip statistical time reference calibration, supply variability from 0.8 to 1.2 V, and small input signal power scaling. The chip consumes 84 W at 8 MHz with an effective number of bits of 9.3 for a figure of merit of 16.9 fJ/C-S for the 10-b prototype and 10.0 fJ/C-S for a 12-b enhanced prototype chip.Index Terms-Residue shaping, successive approximation analog-to-digital converter (SAR ADC), SAR ADC redundancy, SAR switching, ternary SAR (TSAR), time quantization.

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LSB-first SAR ADC with bit-repeating for reduced energy consumption

Waters

Leung

Moon

2014

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A fully automated verilog-to-layout synthesized ADC demonstrating 56dB-SNDR with 2MHz-BW

Waters

Moon

2015

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A 10b Ternary SAR ADC with decision time quantization based redundancy

Guerber

Gande

Venkatram

et al. 2011

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Analysis of metastability errors in asynchronous SAR ADCs

Waters

Muhlestein

Moon

2015

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Allen Waters

A 10-b Ternary SAR ADC With Quantization Time Information Utilization

LSB-first SAR ADC with bit-repeating for reduced energy consumption

A fully automated verilog-to-layout synthesized ADC demonstrating 56dB-SNDR with 2MHz-BW

A 10b Ternary SAR ADC with decision time quantization based redundancy

Analysis of metastability errors in asynchronous SAR ADCs

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