R.C. Taft scite author profile

A 100-MS/s 8-b CMOS analog-to-digital converter (ADC) designed for very low supply voltage and power dissipation is presented. This single-ended-input ADC is based on the unified two-step subranging architecture, which processes the coarse and fine decisions in identical signal paths to maximize their matching. However, to minimize power and area, the coarse-to-fine overlap correction has been aggressively reduced to only one LSB. The ADC incorporates five established design techniques to maximize performance: bottom-plate sampling, distributed sampling, auto-zeroing, interpolation, and interleaving. Very low voltage operation required for a general purpose ADC was obtained with four additional and new circuit techniques. These are a dual-gain first-stage amplifier, differential T-gate boosting, a supply independent delay generator, and a digital delay-locked-loop controlled output driver. For a clock rate of 100 MS/s, 7.0 (7.3) effective bits for a 50 MHz (10 MHz) input are maintained from 3.8 V down to 2.2 V. At 2.2 V, this 100-MS/s converter dissipates 75 mW plus 9 mW for the reference ladder. For a typical supply of 2.7 V, it consumes just 1 mW per MS/s over the 10-160-MS/s clock frequency range. Differential nonlinearity below 0.5 LSB is maintained from 2.7 V down to 2.2 V, and it degrades only slightly to 0.8 LSB at 3.8-V supply. The converter is implemented in a 0.35-mm CMOS process, with double-poly capacitors and no low-threshold devices.

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An eight-terminal Kelvin-tapped bipolar transistor for extracting parasitic series resistances

Taft

Plummer²

1991

IEEE Trans. Electron Devices

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A 1.8 V 1.0 GS/s 10b Self-Calibrating Unified-Folding-Interpolating ADC With 9.1 ENOB at Nyquist Frequency

Taft¹,

Francese²,

Tursi³

et al. 2009

IEEE J. Solid-State Circuits

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Demonstration of a p-channel BICFET in the Ge/sub x/Si/sub 1-x//Si system

Taft¹,

Plummer²,

Iyer

1989

IEEE Electron Device Lett.

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R.C. Taft

A 1.8-V 1.6-GSample/s 8-b self-calibrating folding ADC with 7.26 ENOB at Nyquist frequency

A 100-MS/s 8-b CMOS subranging ADC with sustained parametric performance from 3.8 V down to 2.2 V

An eight-terminal Kelvin-tapped bipolar transistor for extracting parasitic series resistances

A 1.8 V 1.0 GS/s 10b Self-Calibrating Unified-Folding-Interpolating ADC With 9.1 ENOB at Nyquist Frequency

Demonstration of a p-channel BICFET in the Ge/sub x/Si/sub 1-x//Si system

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