Lab Note 0: Succeeding in 16B Labs Lab Note 1: Introduction to S1XT33N Lab Note 2: Analog & Digital Interfaces Lab Note 3: Motion Lab Note 4: Sensing Part 1 Lab Note 5: Sensing Part 2 …

EECS 16B will first walk students through more advanced circuitry; this first module of the class introduces students to the frequency domain, a tool critical in circuitry and analyzing many real …

How to Succeed in 16B own, you will be in good standing to do well on the exams. This course is structured so that the HW feels harder than the exams and should not require extensively …

Equivalently, eUout(jω) = H(jω) eUin(jω). We use an arbitrary definition of a system above, but we will make this more concrete for the specific case of transfer functions of circuits. When …

1.2 Determining Phasors for Sine and Cosine Functions First, we should note a corollary of Euler’s formula.

1 Overview and Motivation An LTI (Linear Time-Invariant) system is a framework used in signal processing and control theory, charac-terized by two main properties: linearity and time …

Up until now, we have considered transistors to be binary – turning off or on at some voltage differ-ential. But in reality, transistors work continuously, and the governing equations are …

EECS 16B Designing Information Systems and Devices II UC Berkeley Spring 2024

prune down the course scope and get all the material standardized into a unified set of notes. For these unified 16B notes, the efforts of 16AB TAs Nikhil Shinde, Aditya Arun, and Rahul

2023 Lecture 3, Slide 8 Vout = 0V ⇒′ ′ Instructors: Prof. Wu/Parekh/Tennant EECS 16B Fall