T. R. Viswanathan

T. R. Viswanathan's AcademicInfluence.com Rankings

T. R. Viswanathan

Engineering

#9016

World Rank

#10670

Historical Rank

Electrical Engineering

#2839

World Rank

#2985

Historical Rank

Applied Physics

#3431

World Rank

#3529

Historical Rank

engineering Degrees

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Engineering

T. R. Viswanathan's Degrees

PhD Electrical Engineering Stanford University
Masters Electrical Engineering Stanford University
Bachelors Electrical Engineering Stanford University

Why Is T. R. Viswanathan Influential?

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According to Wikipedia, T. R. Viswanathan is an American engineer, who is currently the Silicon Laboratories Endowed Chair in Electrical Engineering at the Cockrell School of Engineering, University of Texas at Austin. He is formerly the Dean of the Indian Institute of Technology. https://www.ece.utexas.edu/people/faculty/emeritus

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T. R. Viswanathan's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

A 10-b 20-Msample/s analog-to-digital converter (1992) (516)
A level-crossing sampling scheme for A/D conversion (1996) (263)
A CMOS bandgap reference without resistors (2000) (166)
Switched-capacitor circuits with reduced sensitivity to amplifier gain (1987) (135)
A 1.4 V Supply CMOS Fractional Bandgap Reference (2006) (112)
Switched-capacitor integrator with reduced sensitivity to amplifier gain (1986) (96)
Integrated circuit testing for quality assurance in manufacturing: history, current status, and future trends (1997) (94)
A Low-Supply-Voltage CMOS Sub-Bandgap Reference (2008) (63)
Reduction of finite-gain effect in switched-capacitor filters (1985) (56)
Switched-capacitor frequency control loop [digital transducer] (1982) (50)
A Dual-Mode 700-Msamples/s 6-bit 200-Msamples/s 7-bit A/D Converter in a 0.25- m Digital CMOS Process (2000) (46)
The CMOS negative impedance converter (1988) (39)
A hybrid SAR-VCO ΔΣ ADC with first-order noise shaping (2014) (35)
A Two-Stage ADC Architecture With VCO-Based Second Stage (2011) (32)
Self-Biased Unity-Gain Buffers With Low Gain Error (2009) (29)
Efficient 6-bit A/D converter using a 1-bit folding front end (1999) (24)
Harmonic Rejection Mixing Techniques Using Clock-Gating (2013) (21)
SWITCHED-CAPACITOR CIRCUITS WITH REDUCED SENSITIVITY TO FINITE AMPLIFIER GAIN. (1986) (19)
A novel high gain MOS magnetic field sensor (1986) (19)
A pipelined 9-stage video-rate analog-to-digital converter (1991) (19)
A new signal acquisition technique (1992) (18)
A minimal multibit digital noise shaping architecture (1996) (18)
A non-uniform sampling technique for A/D conversion (1993) (17)
An uncalibrated 2MHz, 6mW, 63.5dB SNDR discrete-time input VCO-based ΔΣ ADC (2012) (15)
A 700M Sample/s 6 b read channel A/D converter with 7 b servo mode (2000) (13)
SWITCHED-CAPACITOR TRANSCONDUCTANCE AND RELATED BUILDING BLOCKS. (1980) (13)
A Discrete-Time Input $\Delta\Sigma$ ADC Architecture Using a Dual-VCO-Based Integrator (2010) (13)
NQR Spectrometer Using Field Effect Transistors (1968) (11)
Switched-capacitor transconductance elements and gyrators (1979) (11)
Improved integrated unity gain current-controlled sources (1974) (9)
Application of switched-capacitor resistors in rc oscillators (1978) (8)
CS-CMOS: A Low-Noise Logic Family for Mixed Signal SoCs (2011) (8)
A highly precise monolithic current-controlled current source (1974) (8)
Power-Supply Noise Reduction Using Active Inductors in Mixed-Signal Systems (2011) (8)
BROAD-BAND PRECISION RECTIFIER. (1987) (7)
Switched-capacitor inductors and their use in LC filter simulation (1981) (7)
CIRCUIT DESIGN FOR A CMOS MAGNETIC FIELD SENSOR. (1986) (7)
A Study of Marginal Oscillator Behavior (1975) (6)
Switched-capacitor biquads based on switched-capacitor transconductance (1980) (6)
Active filters for intermediate frequencies using low-gain transducers (1974) (6)
A 3 MHz NQR Spectrometer (1970) (6)
Linear current-controlled oscillator for analog to digital conversion (2014) (5)
A highly linear CMOS current-controlled oscillator using a novel frequency detector (2008) (5)
Design of front-end RF circuits (1999) (5)
Operational current to frequency converter (2013) (5)
A Unity-Gain Buffer with Reduced Offset and Gain Error (2006) (5)
Increasing the clock frequency of switched-capacitor filters (1980) (4)
FDNR switched-capacitor filters insensitive to parasitic capacitances (1982) (4)
A digital bandgap reference (2013) (4)
Low frequency CMOS sinusoidal oscillator for impedance spectroscopy (2014) (4)
Low-power short-channel single-ended current-steered CMOS logic-gate for mixed-signal systems (2008) (3)
Design of differential-voltage-controlled current source (1976) (3)
Active inductor for power-supply decoupling in mixed signal systems (2008) (3)
New bipolar analogue multiplier (1972) (3)
Level-Crossing Detection based Low-Power Sigma-Delta ADC for Sensor Applications (2020) (2)
CMOS Latch Using Quad for High-Speed Comparators (2007) (2)
M.O.S. switched-capacitor amplifiers (1979) (2)
A 1.1mW, 63.7dB-SNDR, 10MHz-BW hybrid voltage -time domain ADC (2014) (2)
Analog signal processing in deep submicron CMOS technologies using inverters (2014) (2)
with 7b Servo Mode (2000) (2)
Simple negative-impedance convertor (1971) (2)
On the Convergence of Block Relaxation Methods for Circuit Simulation (1989) (2)
A silicon diode analogue multiplier (1967) (2)
SWITCHED-CAPACITOR BUILDING BLOCKS FOR THE SYNTHESIS OF ACTIVE NETWORKS. (1979) (1)
Use of dependent current sources in circuit design (1971) (1)
Clock-gated harmonic rejection mixers (2012) (1)
CMOS inverter-based voltage and current references in short channel technologies (2014) (1)
Exponential pulse generator for a time domain reflectometer (2015) (1)
Circuit arrangement having a gegenwirkleitwertelement (1983) (0)
Digital Q measurement of audio-frequency inductors (1981) (0)
A VT generator (1986) (0)
A Novel Low-Power Single-step Subranging Open-loop Sigma-Delta ADC (2021) (0)
MICROPROCESSOR BASED SYSTEM FOR TESTING AND CONTROLLING INDUCTION MOTORS. (1979) (0)
NEW APPROACH TO THE DESIGN OF CMOS CONTINUOUS-TIME FILTERS. (1986) (0)
A Simple Sub-1V Voltage Reference APPROVED BY SUPERVISING COMMITTEE: (2017) (0)
Circuit comprising a transconductance variable element (1983) (0)
TECHNIQUES FOR REDUCING THE FINITE GAIN EFFECT IN SWITCHED-CAPACITOR CIRCUITS. (1985) (0)
Analog Circuits Using Double-Gate Multilayer MoS2 Field-Effect Transistor for Sensor Applications (2022) (0)
A Dual Mode 700 MSamples/s 6-bit, 200MSamples/s 7-bit A/D Converter in 0.25 Micron Digital CMOS (2000) (0)
SWITCHED CAPACITOR IMPLEMENTATION OF A HILBERT TRANSFORMER. (1985) (0)
Erratum: Simple negative-impedance convertor (1971) (0)
High speed tunnel diode counter (1965) (0)
A linearized CMOS Quad using selective even feedback (2008) (0)
A Study ofMarginalOscillator Behavior (1975) (0)
Method and device for digitally shaping the quantization noise of an N-bit digital signal such as digital-analog conversion for (1994) (0)
Sinusoidal current-controlled oscillator (1976) (0)
Organic and graphene based chemically sensitive neuromorphic circuit (2021) (0)
Simple 4-quadrant analogue multiplier (1970) (0)

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T. R. Viswanathan's Academic­Influence.com Rankings

T. R. Viswanathan's Degrees

Why Is T. R. Viswanathan Influential?

T. R. Viswanathan's Published Works

Published Works

Other Resources About T. R. Viswanathan

What Schools Are Affiliated With T. R. Viswanathan?

T. R. Viswanathan's AcademicInfluence.com Rankings