Date: Thursday, February 25 2022
Location: Chip
Time: 10:45 - 12:30
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Physics and modeling of linear, time-invariant, dynamic systems
Presentation
The presentation “Physics and modeling of linear time-invariant dynamic systems” briefly discusses the physical meaning of poles and zeros and the modeling of lumped linear time-invariant dynamic systems.
Pesentation in parts
Physics and modeling of linear time-invariant dynamic systems (parts)
Videos
Study
Chapter 18
Nodal Analysis
Presentation
The presentation “Topics from network theory: Nodal Analysis” briefly summarizes the nodal analysis method.
Presentation in parts
Video
Nodal Analysis and Modified Nodal Analysis
Study
Chapter 18
Modified Nodal Analysis
Presentation
The presentation “Topics from network theory: Modified Nodal Analysis” briefly summarizes the modified nodal analysis method.
Presentation in parts
Modified Nodal Analysis (parts)
Video
EE3C11 lecture 6 Nodal Analysis and Modified Nodal Analysis
Study
Chapter 18
Poles and zeros of an electrical network
The poles of a network can be found as the eigenvalues of the time-constant matrix. This matrix can be derived from the MNA matrix, or simply be found from network inspection.
Presentation
The presentation “Estimation of poles and zeros of networks without feedback” Shows the way in which poles and zeros of electrical networks can be estimated with the aid of the time-constant matrix.
Presentation in parts
Estimation of poles and zeros of networks without feedback (parts)
Videos
Estimation of poles and zeros of networks without feedback, Resistance Matrix (2:27)
Estimation of poles and zeros of networks without feedback (9:02)
Poster
SLiCAP
Study
Chapter 18
The presentations are summarized on the poster: “Poles and Zeros”
3Blue1Brown: Eigen values and eigen vectors