Lecture

RIN, Shot Noise, Circuit Noise - Examples

Related lectures (32)

Noise and beam steering

Explores laser fundamentals, noise sources, and beam steering technologies using optical fibers and ultrafast lasers.

Noise in Microelectronics

Explores the impact of noise in microelectronics on various circuit stages and devices.

Electrical Metrology

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

Amplified Spontaneous Emission Noise in Fiber Amplifiers

Explores amplitude and phase modulation, noise figures, and detector noise in fiber amplifiers.

Laser Fundamentals and Applications

Explores laser fundamentals, systems, beam quality, and noise characteristics in lasers, including relaxation oscillations and shot noise.

Physical Noise Analysis: High-Speed Photodetectors

Covers the physical noise analysis in high-speed photodetectors, focusing on signal-to-noise ratios and various noise sources affecting performance.

Noise Sources in Optical Detectors: Analysis and Implications

Discusses various noise sources in optical detectors, including shot noise, thermal noise, and their implications on detection performance.

Shot Noise and Detectors

Explores shot noise, Johnson noise, and detectors in laser fundamentals and applications.

Noise in Electronics: Fundamentals and Applications

Explores noise in electronics, covering average power, signal-to-noise ratio, deterministic and random signals, and noise amplification.

CCD Cameras: Signal-to-Noise Analysis

Covers the signal-to-noise ratio in CCD cameras and techniques to optimize image capture quality.

Laser Systems: Theory and Applications

Covers modules on laser systems, including basic operation, noise characteristics, and modern applications.

Noise in Devices and Circuits

Explores different types of noise in devices and circuits, including interference noise, inherent noise, and random signals.

Laser Fundamentals: Coherence and Noise

Explores laser fundamentals, including coherence and noise characteristics, such as relaxation oscillations and shot noise.

Coherent Detection: Signal and Local Oscillator Interference

Explores coherent detection in optical systems, highlighting the interference between the signal and local oscillator.

Understanding Noise in Electrical Systems

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

Laser Diodes: Relaxation Oscillations

Explores laser diodes' relaxation oscillations and their role in laser modulation, including random intensity noise effects and practical examples.

Noise in CCD Cameras: Reset and Readout Mechanisms

Covers noise sources in CCD cameras, focusing on reset noise, readout noise, and methods for noise suppression like correlated double sampling.

Electrical Metrology: Noise Reduction Techniques

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

CMOS Cameras: Shutter Mechanisms and Noise Sources

Covers the rolling shutter effect and noise sources in CMOS cameras, highlighting solutions for image deformation and the advantages of pinned photodiodes.

Noise Analysis in Optical Detectors: Key Examples

Covers examples of noise in optical detectors, including avalanche photodiodes and fluorescence correlation spectroscopy.