Free download скачать Power Electronics - Linear Circuits And Transfer Functions
Published 11/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 823.07 MB | Duration: 2h 55m
Master the methods to derive complex transfer functions very quickly, in a simple, intuitive and meaningful manner
What you'll learn
Basics of Circuit Theory - Divider Circuits, Circuit Theory Jargons, Superposition Theorem, Thevenin's and Norton's Theorem, Order of a System, Degenerate Cases
Fundamentals of Transfer Functions - Definition of Transfer Function, Linear Systems, Necessity of Linearization, Standard Formats of Transfer Functions
Brute-force Analysis, Zeros and Poles in a Transfer Function, Inverted Pole and Inverted Zero Definition, Low and High Entropy Forms of Transfer Functions
First-order Systems - Dr. Middlebrook's Extra Element Theorem, Generalized Transfer Function Method, Methods to Evaluate Zeros, First-order Circuit Examples
Second-order Systems - 2EET, Generalized Transfer Function Method, Methods to Evaluate Zeros in a System, Second-order Circuit Examples
Nth-order Systems - nEET, Generalized Transfer Function Method, Methods to Evaluate Zeros in a System, Third-order Circuit Examples
Requirements
Basic Understanding of Electrical Engineering Principles - Voltage, Current, Power, etc.
Circuit Analysis using KCL, KVL
Basics of Algebra
Genuine Interest in the Subject Matter.
Description
Hello There!Welcome to my course titled "Power Electronics: Linear Circuits and Transfer Functions"In this concise three-hour course, You will learn methods to master the art of deriving complex transfer functions with ease and precision in a simple, intuitive and meaningful manner, demonstrated with numerous circuit examples. You can now say goodbye to the old Brute-force analysis which always involved tedious calculations taking extensive amounts of time, resulting in final equations that are hard to analyze and understand. This course builds from the fundamentals of linear circuits and basics of transfer functions slowly advancing to the methods that help you derive transfer functions very quickly and effectively!Key Learning Objectives:1. Mastering Transfer Functions: Through simple and intuitive methods, students will gain the expertise to derive transfer functions effectively, avoiding common mistakes encountered in traditional brute-force approaches.2. Enhanced System Understanding: Gain a deeper understanding of systems by exploring the system gains, poles, and zeros, enabling a more comprehensive grasp of system behaviors and characteristics.3. Refined Problem-Solving Skill: Equip yourself with the capability to adeptly solve electrical circuits and network-related problems, applying newfound skills and confidence gained from this course.Join us on this learning journey and elevate your expertise in Power Electronics, empowering yourself to navigate and analyze linear circuits with precision and confidence.We look forward to your participation in the course!
Overview
Section 1: Introduction to the Course
Lecture 1 Introduction to the Course
Section 2: Fundamentals of Circuit Theory
Lecture 2 Voltage and Current Divider Circuits
Lecture 3 Circuit Theory Jargons
Lecture 4 Linear and Time Invariant Systems
Lecture 5 The Superposition Theorem
Lecture 6 Thevenin's and Norton's Theorem
Lecture 7 Order of a System and the Degenerate Case
Section 3: Basics of Transfer Functions
Lecture 8 Necessity of Linearization
Lecture 9 Laplace Transforms
Lecture 10 Transfer Functions
Lecture 11 Brute-Force Analysis
Lecture 12 Time Constants
Lecture 13 Poles and Zeros in a Transfer Function
Lecture 14 Transfer Functions Standard Formats
Lecture 15 Low and High Entropy Transfer Functions
Section 4: First Order Systems
Lecture 16 Dr. Middlebrook's Extra Element Theorem
Lecture 17 EET in Action
Lecture 18 LTSpice based Circuit Verification
Lecture 19 Generalized Transfer Function
Lecture 20 GTF in Action
Lecture 21 Methods to Evaluate Zeros
Lecture 22 Practice - Circuit Example 1
Lecture 23 Practice - Circuit Example 2
Section 5: Second Order Systems
Lecture 24 Polynomial Forms of Second-order Transfer Functions
Lecture 25 Low-Q Approximation
Lecture 26 2EET
Lecture 27 2EET in Action
Lecture 28 Generalized Transfer Function
Lecture 29 Methods to Evaluate Zeros
Lecture 30 GTF in Action
Section 6: nth Order Systems
Lecture 31 nEET
Lecture 32 nEET in Action
Lecture 33 Generalized Transfer Function
Lecture 34 GTF in Action
Section 7: Conclusion and References
Lecture 35 Conclusion
Engineering Students Dealing with Control Systems and Network Theory Related Problems,Electronic Designers and Industry Professionals Working on Control of Power Systems or Power Converters, Electrical Circuits,Researchers working on Control Systems, Network Theory Related Problems,All Power Electronics Enthusiasts
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