D-Index & Metrics Best Publications
Paul J. Hurst

Paul J. Hurst

University of California, Davis
United States

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 33 Citations 4,796 149 World Ranking 4186 National Ranking 1576

Overview

What is he best known for?

The fields of study he is best known for:

  • Electrical engineering
  • Amplifier
  • Signal

Electronic engineering, CMOS, Converters, Analog-to-digital converter and Finite impulse response are his primary areas of study. His work deals with themes such as Operational amplifier and Integral nonlinearity, which intersect with Electronic engineering. As a part of the same scientific family, Paul J. Hurst mostly works in the field of Integral nonlinearity, focusing on Differential nonlinearity and, on occasion, Gain measurement and Chopper.

His CMOS study incorporates themes from Total harmonic distortion, Sampling and Compensation, Control theory. Nonlinear system, Time constant, Signal statistics and Sample and hold is closely connected to Amplifier in his research, which is encompassed under the umbrella topic of Converters. His work carried out in the field of Finite impulse response brings together such families of science as Low-pass filter, Electronic circuit, Electronic filter and Linear filter.

His most cited work include:

  • A digital background calibration technique for time-interleaved analog-to-digital converters (308 citations)
  • A 10b 120MSample/s time-interleaved analog-to-digital converter with digital background calibration (300 citations)
  • Calibration of sample-time error in a two-channel time-interleaved analog-to-digital converter (169 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Electronic engineering, CMOS, Control theory, Switched capacitor and Electrical engineering. Specifically, his work in Electronic engineering is concerned with the study of Finite impulse response. His Spurious-free dynamic range study, which is part of a larger body of work in CMOS, is frequently linked to Dissipation, bridging the gap between disciplines.

His Spurious-free dynamic range research also works with subjects such as

  • 12-bit that connect with fields like Integral nonlinearity,
  • Analog-to-digital converter together with Time interleaved. His research integrates issues of Differential amplifier, Bandwidth and Network analysis in his study of Control theory. His Switched capacitor study combines topics from a wide range of disciplines, such as Low-pass filter, Active filter, Filter, Noise shaping and Clock generator.

He most often published in these fields:

  • Electronic engineering (67.31%)
  • CMOS (36.54%)
  • Control theory (22.44%)

What were the highlights of his more recent work (between 2006-2020)?

  • Electronic engineering (67.31%)
  • CMOS (36.54%)
  • Electrical engineering (16.03%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Electronic engineering, CMOS, Electrical engineering, Spurious-free dynamic range and Capacitor. His Finite impulse response study in the realm of Electronic engineering connects with subjects such as Calibration. His research in Finite impulse response intersects with topics in Time interleaved and Adaptive filter.

His CMOS research includes elements of Integrator, Dynamic range and Operational amplifier. The study incorporates disciplines such as Total harmonic distortion and Sampling in addition to Spurious-free dynamic range. His Capacitor research is multidisciplinary, relying on both Open-loop gain and Loop gain.

Between 2006 and 2020, his most popular works were:

  • A Four-Channel Time-Interleaved ADC With Digital Calibration of Interchannel Timing and Memory Errors (83 citations)
  • Adaptive Semiblind Calibration of Bandwidth Mismatch for Two-Channel Time-Interleaved ADCs (57 citations)
  • A Level-Crossing Analog-to-Digital Converter With Triangular Dither (50 citations)

In his most recent research, the most cited papers focused on:

  • Electrical engineering
  • Amplifier
  • Signal

Paul J. Hurst mainly focuses on Electronic engineering, CMOS, Electrical engineering, Voltage and Calibration. His work on Finite impulse response as part of general Electronic engineering study is frequently linked to Calibration, therefore connecting diverse disciplines of science. His CMOS research is multidisciplinary, incorporating perspectives in Sampling and Dynamic range.

The various areas that Paul J. Hurst examines in his Voltage study include Power management, Power management system and Operational amplifier. His work in Signal processing covers topics such as Baseband which are related to areas like Analog-to-digital converter and Digital signal processing. His Spurious-free dynamic range research is multidisciplinary, incorporating elements of 12-bit, Sample and hold, Integral nonlinearity, Error detection and correction and Differentiator.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

A digital background calibration technique for time-interleaved analog-to-digital converters

Daihong Fu;K.C. Dyer;S.H. Lewis;P.J. Hurst.
IEEE Journal of Solid-state Circuits (1998)

479 Citations

A 10b 120MSample/s time-interleaved analog-to-digital converter with digital background calibration

S.M. Jamal;Daihong Fu;P.J. Hurst;S.H. Lewis.
international solid-state circuits conference (2002)

463 Citations

Calibration of sample-time error in a two-channel time-interleaved analog-to-digital converter

S.M. Jamal;Daihong Fu;M.P. Singh;P.J. Hurst.
IEEE Transactions on Circuits and Systems I-regular Papers (2004)

252 Citations

A 12-bit 20-Msample/s pipelined analog-to-digital converter with nested digital background calibration

Xiaoyue Wang;P.J. Hurst;S.H. Lewis.
IEEE Journal of Solid-state Circuits (2004)

189 Citations

Background interstage gain calibration technique for pipelined ADCs

J.P. Keane;P.J. Hurst;S.H. Lewis.
IEEE Transactions on Circuits and Systems I-regular Papers (2005)

186 Citations

A 12 b digital-background-calibrated algorithmic ADC with -90 dB THD

O.E. Erdogan;P.J. Hurst;S.H. Lewis.
international solid-state circuits conference (1999)

180 Citations

A 12-bit 80-MSample/s pipelined ADC with bootstrapped digital calibration

C.R. Grace;P.J. Hurst;S.H. Lewis.
international solid-state circuits conference (2004)

163 Citations

Reconstruction of band-limited periodic nonuniformly sampled signals through multirate filter banks

R.S. Prendergast;B.C. Levy;P.J. Hurst.
IEEE Transactions on Circuits and Systems I-regular Papers (2004)

150 Citations

Miller compensation using current buffers in fully differential CMOS two-stage operational amplifiers

P.J. Hurst;S.H. Lewis;J.P. Keane;F. Aram.
IEEE Transactions on Circuits and Systems I-regular Papers (2004)

140 Citations

A Four-Channel Time-Interleaved ADC With Digital Calibration of Interchannel Timing and Memory Errors

Chi Ho Law;P J Hurst;S H Lewis.
IEEE Journal of Solid-state Circuits (2010)

130 Citations

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Frequent Co-Authors

Stephen H. Lewis

Stephen H. Lewis

University of California, Davis

Bernard C. Levy

Bernard C. Levy

University of California, Davis

Anil K. Jain

Anil K. Jain

Michigan State University

David A. Horsley

David A. Horsley

University of California, Davis

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