ben's notesEE 16B: Circuits and Devices
EE 16B is the second half of Berkeley’s lower-division EECS sequence, covering linear circuits, linear algebra applied to signals and systems, and an intro to control theory and the discrete Fourier transform.
These notes are math-heavy and aren’t transcribed — each section below embeds the original handwritten PDF directly.
Table of Contents #
- Transistors
- RC Circuits
- Phasors
- Filters and Bode Plots
- Inner Products and Gram-Schmidt
- Adjoint Operators
- Singular Value Decomposition
- Principal Component Analysis
- State Space
- Linearization
- Discrete Time Systems
- Controllability
- System Identification
- Stability
- Controllable Canonical Form
- Discrete Fourier Transform
- Linear Time Invariance and Convolution
- Sampling and Aliasing