Field Effect Transistors and Technology Scaling
This course is part of Principle of Semiconductor Devices.
This comprehensive course explores the fundamentals of field effect transistors and semiconductor technology scaling. Through engaging animations, students learn about MOSFET operations, MOS capacitors, and advanced transistor structures. The curriculum covers charge-coupled devices, CMOS sensors, and modern developments like FinFET and 2D transistors. Special focus is placed on Moore's Law, transistor scaling approaches, and practical applications in integrated circuits.
Instructors:
English
English, Chinese
Powered by
What you'll learn
Understand MOS capacitor charge and capacitance characteristics
Master MOSFET current-voltage relationships and operations
Analyze charge-coupled devices and CMOS sensor applications
Comprehend transistor scaling and short channel effects
Explore advanced MOSFET structures and nano-CMOS technology
Apply semiconductor principles to practical device applications
Skills you'll gain
This course includes:
PreRecorded video
Graded assignments, Final Exam
Access on Mobile, Tablet, Desktop
Limited Access access
Shareable certificate
Closed caption
Get a Completion Certificate
Share your certificate with prospective employers and your professional network on LinkedIn.
Provided by
Top companies offer this course to their employees
Top companies provide this course to enhance their employees' skills, ensuring they excel in handling complex projects and drive organizational success.
There are 6 modules in this course
The course provides an in-depth study of field effect transistors and technology scaling. Key topics include MOS capacitor theory, MOSFET operation regions, advanced mobility theories, and modern MOSFET structures. The curriculum covers practical applications in digital cameras, integrated circuits, and emerging semiconductor technologies.
MOS capacitor charges and capacitances
Module 1
Charge coupled device, CMOS active-pixel sensor and MOS capacitor with a source
Module 2
Classical MOSFET I-V characteristics
Module 3
Mobility degradation and carrier velocity saturation
Module 4
CMOS device scaling and short channel MOSFET
Module 5
Non-traditional nano-CMOS transistors
Module 6
Fee Structure
Individual course purchase is not available - to enroll in this course with a certificate, you need to purchase the complete Professional Certificate Course. For enrollment and detailed fee structure, visit the following: Principle of Semiconductor Devices
Instructor
4 Courses
A Distinguished Pioneer in Semiconductor Technology and Education
Mansun Chan serves as the Alex Wong Siu Wah Gigi Wong Fook Chi Professor of Engineering and Chair Professor at the Department of Electronic and Computer Engineering at HKUST, where he has established himself as a leading expert in semiconductor technology and education since 1996. After completing his BS degrees in Electrical Engineering and Computer Sciences from UC San Diego and his PhD from UC Berkeley, he has made significant contributions to semiconductor device modeling, including being a major contributor to the unified BSIM model for SPICE, which became the first industrial standard MOSFET model. His research spans multiple areas including 2-D devices and circuits, nano-CMOS technology, quantum computing, and AI technologies and systems. His excellence in education has been recognized through numerous awards, including being named an IEEE Distinguished Lecturer in 2003 and becoming the youngest-ever recipient of the IEEE Electron Devices Society Education Award in 2017. Beyond his academic work, he has produced groundbreaking educational content, including the first complete animation-based online class on semiconductor devices that attracted over 10,000 students worldwide in just one year. His research achievements include more than 14 U.S. patents, over 600 journal and conference papers, and recognition as an IEEE Fellow in 2013 for his contributions to CMOS device modeling. Chan currently leads HKUST's Emerging Device and System Group while maintaining diverse interests beyond academia, including boardgame design, painting, competitive ballroom dancing, trailrunning, scuba diving, and paragliding.
Testimonials
Testimonials and success stories are a testament to the quality of this program and its impact on your career and learning journey. Be the first to help others make an informed decision by sharing your review of the course.
Frequently asked questions
Below are some of the most commonly asked questions about this course. We aim to provide clear and concise answers to help you better understand the course content, structure, and any other relevant information. If you have any additional questions or if your question is not listed here, please don't hesitate to reach out to our support team for further assistance.