Lectures related to Analog to Digital Conversion

Quantum and nanocomputing

Explores digital design principles, ADC architectures, FPGA-based ADCs, figures of merit, and lower bounds in digital design.

Smart Sensors for the IoT: ADCs Fundamentals

Explores ADCs fundamentals for IoT smart sensors, covering quantization, non-idealities, and topologies.

Quantum Computing Fundamentals

Covers quantum computing fundamentals, ADC architectures, oversampling advantages, noise shaping, glitch phenomena, and digital integrated circuit noise.

Electrical Metrology: Noise Reduction Techniques

Explores noise reduction techniques in electrical metrology, covering properties of charge, current, voltage, noise sources, and filtering methods.

Analog and Digital Conversion

Explores analog and digital signal processing, A/D and D/A conversion, resolution, settling time, and digital interfaces in electronic circuits.

Electrical Metrology: Noise Reduction Techniques

Explores noise reduction, ADCs, TDCs, and time-resolved imaging in electrical metrology.

A/D and D/A Conversion Fundamentals

Covers the fundamentals of A/D and D/A conversion techniques and their implementation.

Oversampled A-D Conversion

Covers oversampled analog-to-digital conversion and its impact on signal-to-noise ratio.

Analog to Digital Conversion

Explores analog to digital conversion principles, challenges, and different converter scales for high-resolution digital outputs.

Oversampled D-A: Interpolation and Distortion

Explores oversampled D-A conversion, interpolation methods, and in-band distortion compensation.

Analog-to-Digital Conversion: Flash Converter and Weighted Currents

Explores analog-to-digital conversion using flash converters and weighted currents.

Analog-to-Digital Conversion

Explores analog-to-digital conversion principles, covering resolution, sampling rate, and conversion characteristics.

Quantum and Nanocomputing

Explores quantum and nanocomputing, covering feedback amplifiers, ADCs, noise limitations, and ADC architectures.

Sampling and Reconstruction

Covers the concepts of sampling and reconstruction in signal processing, emphasizing the importance of sampling frequency and reconstruction techniques.

Transition to/from Continuous Time Signals and Passband Modulation

Explores the transition between continuous time signals and passband modulation techniques.

Continuous-Time Filters: MOSFET-C Filters

Covers different types of continuous-time filters, focusing on MOSFET-C filters and linearization techniques.

Chopper Stabilization Techniques

Explores Chopper Stabilization (CHS) technique in Analog IC Design, focusing on noise reduction and offset minimization.

Phase-Locked Loops: Basics and Applications

Explores Phase-Locked Loops, Lock-in Amplifiers, and Oscilloscopes in electrical metrology.

LTI Systems: Analysis and Properties

Covers the analysis and properties of Linear Time-Invariant (LTI) systems.

Analog-to-digital and digital-to-analog converters

Explores the practical aspects of analog-to-digital and digital-to-analog conversion using operational amplifiers and various circuit configurations.