Microelectronic solutions for digital photography
Offered By: The Open University via OpenLearn
Course Description
Overview
This course covers the learning outcomes and goals of understanding microelectronic solutions for digital photography. Students will learn about photocapacitors, MOS structures, sensitivity, and specifications for image capture. The course teaches about charge-coupled device (CCD) detectors, including read-out, shutter, micro lenses, and their practical applications. The teaching method involves theoretical explanations and practical examples. This course is intended for individuals interested in digital photography, image processing, or microelectronics.
Syllabus
- Introduction
- Learning outcomes
- 1 Photocapacitors
- 1 Photocapacitors
- 1.1 Conductor–insulator–semiconductor structures
- 1.2 MOS structures
- 1.3 The capacity of an MOS structure to store charge
- 1.4 Sensitivity
- 1.5 Photocapacitors as pixels
- 2 Specifications for image capture
- 2 Specifications for image capture
- 3 Microelectronic solutions for digital photgraphy
- 3 Microelectronic solutions for digital photgraphy
- 3.1 Charge-coupled device (CCD) detectors
- 3.1.1 Read-out
- 3.1.2 Shutter
- 3.1.3 Micro lenses
- 3.1.4 The CCD in practice
- 3.1.5 Digital media for medical X-rays
- 3.2 CMOS detectors
- Conclusion
- Acknowledgements
Tags
Related Courses
Introduction to Artificial IntelligenceStanford University via Udacity Computer Vision: The Fundamentals
University of California, Berkeley via Coursera Computational Photography
Georgia Institute of Technology via Coursera Digital Signal Processing
École Polytechnique Fédérale de Lausanne via Coursera Creative, Serious and Playful Science of Android Apps
University of Illinois at Urbana-Champaign via Coursera