B.A. Wooley scite author profile

Oversampled analog-to-digital (A D) converter architectures offer a means of exchanging resolution in time for that in amplitude so as to avoid the difficulty of implementing complex precision analog circuits. These architectures thus represent an attractive approach to implementing precision A/D converters in scaled digital VLSI technologies. This paper examines the practical design criteria for implementing oversampled converters based on second-order sigma-delta (ZA) modulation. Behavioral models that include representation of various circuit impairments are established for each of the functional building blocks comprising a second-order 2 A modulator. Extensive simulations based on these models are then used to establish the major design criteria for each of the building blocks. As an example, these criteria are applied to the design of a modulator that has been integrated in a 3-pm CMOS technology. This experimental prototype operates from a single 5-V supply, dissipates 12 mW, occupies an area of 0.77 m d , and achieved a measured dynamic range of 89 dB.

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Experimental results and modeling techniques for substrate noise in mixed-signal integrated circuits

Su¹,

Loinaz²,

Masui

et al. 1993

IEEE J. Solid-State Circuits

516

180

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A Two's Complement Parallel Array Multiplication Algorithm

Baugh¹,

Wooley²

1973

IEEE Trans. Comput.

546

156

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Design techniques for high-speed, high-resolution comparators

Razavi

Wooley²

1992

IEEE J. Solid-State Circuits

425

121

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This paper describes precision techniques for the design of comparators used in high-performance analog-to-digita1 converters employing parallel conversion stages. Following a review of conventional offset cancellation techniques, circuit designs achieving 12-b resolution in both BiCMOS and CMOS 5-V technologies are presented. The BiCMOS comparator consists of a preamplifier followed by two regenerative stages and achieves an offset of 200 pV at a IO-MHz clock rate while dissipating 1.7 mW. In the CMOS comparator offset cancellation is used in both a single-stage preamplifier and a subsequent latch to achieve an offset of less than 300 pV at comparison rates as high as 10 MHz, with a power dissipation of 1.8 mW.

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A 1.8-V digital-audio sigma-delta modulator in 0.8-μm CMOS

Rabii¹,

Wooley²

1997

IEEE J. Solid-State Circuits

217

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B.A. Wooley

The design of sigma-delta modulation analog-to-digital converters

Experimental results and modeling techniques for substrate noise in mixed-signal integrated circuits

A Two's Complement Parallel Array Multiplication Algorithm

Design techniques for high-speed, high-resolution comparators

A 1.8-V digital-audio sigma-delta modulator in 0.8-μm CMOS

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