Skip to main content
Graph
Search
fr
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Electron Bombarded CCD: Principles and Applications
Graph Chatbot
Related lectures (32)
CMOS Cameras: Detection and Electronics Overview
Provides an overview of CMOS camera technology, focusing on detection, electronics, and the advantages of four-transistor active pixel sensors.
Photoemissive Detectors: Principles and Applications
Discusses the principles and applications of photoemissive detectors, including micro-channel PMTs and image intensifiers for night vision.
Correlated Double Sampling: In-Pixel Solutions
Covers the integration of correlated double sampling within pixel structures of CMOS image sensors.
Photovoltaic Sensors: Logarithmic Pixel Technology
Covers the design and functionality of photovoltaic cameras using logarithmic sensors and their integration in imaging technology.
CCD Cameras: Anti-Blooming Design Principles
Covers the principles of blooming and anti-blooming in CCD cameras, focusing on design strategies to manage excess light and prevent image distortion.
CCD Cameras: Electronics and Charge Conversion
Discusses the electronics of CCD cameras, focusing on output amplifiers and charge conversion processes.
Optical Image Sensors: Introduction and Architecture
Explores the history, architecture, and specifications of optical image sensors, including noise suppression techniques and measurement methods.
Single Photon Detection: Principles and Applications
Discusses the principles and applications of single photon detection using Single Photon Avalanche Diodes (SPAD).
CMOS Digital Pixel Sensors: Technical Aspects and Applications
Covers the technical aspects and applications of CMOS digital pixel sensors, focusing on high dynamic range imaging and camera miniaturization.
Photoemissive Detectors: Applications and Technologies
Covers applications of photoemissive detectors, focusing on intensified cameras and their role in capturing high-speed phenomena.
Passive Remote Sensing: Historical and Technical Insights
Provides an overview of passive remote sensing, covering historical imaging techniques and the transition to digital methods.
Facet Vision: Advanced Imaging Techniques
Covers Facet Vision technology, which uses multiple cameras for advanced image reconstruction and numerical refocusing techniques.
Previous
Page 2 of 2
Next
