CMOS Analog IC Design – MOSFET, DC BIAS and Transconductance
CMOS Analog IC Design – MOSFET, DC BIAS and Transconductance, available at $39.99, has an average rating of 3.85, with 12 lectures, based on 18 reviews, and has 134 subscribers.
You will learn about Understanding the details of MOSFET characteristics Refresh the typical interview questions in MOSFETs Fundamental topics of analog circuit design Difference and Similarities between NMOS, PMOS and CMOS Transconductance Gm Understand the requirements for an analog IC designer This course is ideal for individuals who are Curious students about the devices and potential nano-engineering students or Aspiring Analog IC designers who need to brush up their knowledge on MOSFETs and their characteristics or Undergraduate students who are beginning to learn Analog IC Design or Post Graduate Students who need a refresher course It is particularly useful for Curious students about the devices and potential nano-engineering students or Aspiring Analog IC designers who need to brush up their knowledge on MOSFETs and their characteristics or Undergraduate students who are beginning to learn Analog IC Design or Post Graduate Students who need a refresher course.
Enroll now: CMOS Analog IC Design – MOSFET, DC BIAS and Transconductance
Summary
Title: CMOS Analog IC Design – MOSFET, DC BIAS and Transconductance
Price: $39.99
Average Rating: 3.85
Number of Lectures: 12
Number of Published Lectures: 12
Number of Curriculum Items: 12
Number of Published Curriculum Objects: 12
Original Price: $24.99
Quality Status: approved
Status: Live
What You Will Learn
- Understanding the details of MOSFET characteristics
- Refresh the typical interview questions in MOSFETs
- Fundamental topics of analog circuit design
- Difference and Similarities between NMOS, PMOS and CMOS
- Transconductance Gm
- Understand the requirements for an analog IC designer
Who Should Attend
- Curious students about the devices and potential nano-engineering students
- Aspiring Analog IC designers who need to brush up their knowledge on MOSFETs and their characteristics
- Undergraduate students who are beginning to learn Analog IC Design
- Post Graduate Students who need a refresher course
Target Audiences
- Curious students about the devices and potential nano-engineering students
- Aspiring Analog IC designers who need to brush up their knowledge on MOSFETs and their characteristics
- Undergraduate students who are beginning to learn Analog IC Design
- Post Graduate Students who need a refresher course
“Analog circuit design is like chess – just because you know how the pieces move doesn’t mean you know how to play the game”.– Patrick Lahey
In this course, you will learn about the fundamentals of MOSFET, the ways to bias the transistors in triode/linear, cut-off and saturation regions. Later in the course, you will learn about transconductance Gm, which is currently being used popularly in sensor read out circuits, broadband circuits and in high speed design. The Constant-Gm circuit is extremely popular in low power circuit designs.
This course is a prerequisite for the course “CMOS Analog Circuit Design – Amplifiers with Solved Examples” and “Circuit Design for High Speed Serial Links“.
Consequently, we’re seeing analog job requisitions in several key areas including Sensor Design and Sensor interfaces, WiFi (wireless LANs and Internet access), ultra wide band technology (UWB) and power management. Demand for designers with expertise in high-speed data conversion seems to be high across a variety of industries.
Course Curriculum
Chapter 1: Introduction
Lecture 1: Introduction
Chapter 2: MOSFET Characteristics
Lecture 1: MOSFET Characteristics – Part 1
Lecture 2: MOSFET Characteristics – Part 2
Lecture 3: NMOS, PMOS and CMOS Devices: Similarities and Differences
Chapter 3: Transconductance and Channel Resistance
Lecture 1: NMOS Device I/V Characteristics
Lecture 2: Transconductance Gm and Channel Resistance Ro
Lecture 3: Channel Length Modulation – Device Resistance and Impact to drain current
Lecture 4: Simulating the Gm Curve – The base of the gm/ID design methodology in modern ICs
Chapter 4: Secondary Effects of Device Operation
Lecture 1: Body Effect
Lecture 2: Subthreshold Conduction
Chapter 5: MOSFET- Amplifier and Small signal analysis
Lecture 1: MOSFET – Switch and Amplifier
Lecture 2: MOSFET – Amplifier design and examples
Instructors
-
Dr G S Javed
Design Thinker and Analog IC Design Manager
Rating Distribution
- 1 stars: 1 votes
- 2 stars: 4 votes
- 3 stars: 3 votes
- 4 stars: 4 votes
- 5 stars: 6 votes
Frequently Asked Questions
How long do I have access to the course materials?
You can view and review the lecture materials indefinitely, like an on-demand channel.
Can I take my courses with me wherever I go?
Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!
- Digital Marketing Foundation Course
- Google Shopping Ads Digital Marketing Course
- Multi Cloud Infrastructure for beginners
- Master Lead Generation: Grow Subscribers & Sales with Popups
- Complete Copywriting System : write to sell with ease
- Product Positioning Masterclass: Unlock Market Traction
- How to Promote Your Webinar and Get More Attendees?
- Digital Marketing Courses
- Create music with Artificial Intelligence in this new market
- Create CONVERTING UGC Content So Brands Will Pay You More
- Podcast: The top 8 ways to monetize by Podcasting
- TikTok Marketing Mastery: Learn to Grow & Go Viral
- Free Digital Marketing Basics Course in Hindi
- MailChimp Free Mailing Lists: MailChimp Email Marketing
- Automate Digital Marketing & Social Media with Generative AI
- Google Ads MasterClass – All Advanced Features
- Online Course Creator: Create & Sell Online Courses Today!
- Introduction to SEO – Basic Principles of SEO
- Affiliate Marketing For Beginners: Go From Novice To Pro
- Effective Website Planning Made Simple
