Concept

Noise shaping

Related lectures (20)

Smart Sensors for the IoT: ADCs Fundamentals

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

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

Noise Reduction Techniques

Explores noise reduction techniques in electrical systems, covering concepts like Fourier transform, impedance matching, and dithering.

Noise Reduction Techniques in Analog Circuits

Explores noise and offset reduction techniques in analog circuits, focusing on Autozero and Chopper Stabilization.

Image Processing I: Quantization and Histogram Analysis

Explores image quantization, histogram analysis, and the trade-off between spatial and grayscale resolution.

Stochastic Modeling of Inertial Sensors

Explores stochastic modeling of inertial sensors for optimal fusion with other devices, emphasizing precise sensor stochastics for improved navigation solutions.

Quantum Computing Fundamentals

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

Oversampled A-D Conversion

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

Pulse Techniques: Noise Reduction

Explores pulse techniques for signal measurements and noise reduction methods like gated integration and boxcar averaging.

Nyquist Criterion Overview

Explores the Nyquist criterion for stability analysis and advanced controller designs.

Noise in Data Acquisition

Explores noise sources in data acquisition, including thermal, shot, and amplifier noise, as well as the effects of ADC noise.

Quantization: Basics and Uniform Input

Explores quantization in digital devices, covering scalar and uniform quantization, mean square error, and signal-to-noise ratio.

Noise in Electronics

Introduces the fundamentals of noise in electronics, covering origins, signal types, power characteristics, and noise sources.

Amplifier Noise Analysis

Explores noise analysis in amplifier circuits, emphasizing perfect matching and the impact of noise sampling.

Electrical Metrology

Explores different types of noise in electrical systems and their impact on electronic devices.

Electrical Metrology: Noise and Signal Analysis

Explores electrical metrology, emphasizing noise and signal analysis, covering topics such as charges, currents, voltages, and various noise sources.

Optical Fiber Systems: Performance Analysis

Covers the performance analysis of optical fiber systems, including power transmission, bandwidth, and system limitations.

Understanding Noise in Electrical Systems

Explores noise sources, Fluctuation-Dissipation Theorem, amplifier noise, interference effects, and quantization error in electrical systems.

Electrical Metrology

Explores electrical metrology, covering random variables, noise sources, and their impact on electronic devices.

Noise Calculation in Circuits

Covers noise analysis in circuits, including small-signal and input-referred noise, with examples of amplifiers and filters.