Gabor C. Temes

What is he best known for?

The fields of study he is best known for:

• Electrical engineering
• Amplifier
• Electronic engineering

His primary scientific interests are in Electronic engineering, Delta-sigma modulation, Electrical engineering, Electronic circuit and CMOS. The study incorporates disciplines such as Switched capacitor, Converters, Operational amplifier and Oversampling in addition to Electronic engineering. Gabor C. Temes combines subjects such as Digital filter, Noise and Wideband with his study of Delta-sigma modulation.

His Capacitor, Integrated circuit and DC bias study, which is part of a larger body of work in Electrical engineering, is frequently linked to Filter theory and Permittivity, bridging the gap between disciplines. His Electronic circuit research integrates issues from Amplifier, Circuit design and Control theory, Sensitivity. His CMOS research is multidisciplinary, incorporating elements of Dynamic range, Mixed-signal integrated circuit, Low-power electronics, Clock rate and Robustness.

His most cited work include:

• Understanding Delta-Sigma Data Converters (1545 citations)
• Circuit techniques for reducing the effects of op-amp imperfections: autozeroing, correlated double sampling, and chopper stabilization (1530 citations)
• Delta-sigma data converters : theory, design, and simulation (1517 citations)

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

His scientific interests lie mostly in Electronic engineering, Delta-sigma modulation, Control theory, Electrical engineering and Capacitor. His Electronic engineering research incorporates elements of Electronic circuit, Converters, Operational amplifier and Oversampling. His Electronic circuit research includes themes of Switched capacitor and Circuit design.

His Operational amplifier study integrates concerns from other disciplines, such as Total harmonic distortion and Correlated double sampling. His Delta-sigma modulation research is multidisciplinary, incorporating perspectives in Quantization, Modulation, Linearity, Noise shaping and Bandwidth. His research investigates the connection with Control theory and areas like Integrator which intersect with concerns in Noise.

He most often published in these fields:

• Electronic engineering (69.34%)
• Delta-sigma modulation (27.19%)
• Control theory (22.99%)

What were the highlights of his more recent work (between 2010-2020)?

• Electronic engineering (69.34%)
• Delta-sigma modulation (27.19%)
• Control theory (22.99%)

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

Electronic engineering, Delta-sigma modulation, Control theory, Integrator and Capacitor are his primary areas of study. His work carried out in the field of Electronic engineering brings together such families of science as Oversampling, Electrical engineering, Successive approximation ADC and Modulation. His study in Delta-sigma modulation is interdisciplinary in nature, drawing from both Adder, Bandwidth and Linearity.

Gabor C. Temes has researched Control theory in several fields, including Signal, Loop and Voltage. The various areas that Gabor C. Temes examines in his Integrator study include Power consumption, Dynamic range, Operational amplifier and Wideband. His Capacitor study incorporates themes from Noise, Electronic circuit, Amplifier and Comparator.

Between 2010 and 2020, his most popular works were:

• A Micro-Power Two-Step Incremental Analog-to-Digital Converter (44 citations)
• A 75-dB SNDR, 5-MHz Bandwidth Stage-Shared 2–2 MASH $\Delta \Sigma$ Modulator Dissipating 16 mW Power (31 citations)
• A 12-bit 7 µW/channel 1 kHz/channel incremental ADC for biosensor interface circuits (25 citations)

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

• Electrical engineering
• Amplifier
• Electronic engineering

Gabor C. Temes focuses on Electronic engineering, Integrator, Delta-sigma modulation, Electrical engineering and Noise shaping. Gabor C. Temes mostly deals with CMOS in his studies of Electronic engineering. Gabor C. Temes has included themes like Total harmonic distortion, Sampling, Control theory, Capacitor and Power consumption in his Integrator study.

His Delta-sigma modulation research focuses on Adder and how it relates to Loop and Dynamic range. His work in Noise shaping covers topics such as Noise which are related to areas like Loop filter, Analogue electronics, Integrated circuit and Distortion. His Oversampling research includes elements of Clock rate, Converters and Bandwidth.

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