CMPE 330 Electric Circuit Theory II

Syllabus

Faculty

Dr. Doering
Office Hours: MW 4:00-4:50pm in office or on Zoom T 10:00-10:50am lab or zoom
TTH 12:30-1:20pm lab or zoom
on Zoom
Zoom office hour Link
or by appointment.

Office Phone: (510) 885-4192 Lab: 885-7229
E-mail: Roger.Doering@csuEastBay.edu
web: http://cox.csueastbay.edu/~rdoering/

Class

For Spring 2025, meets T 8:00am-9:40am and Th Lab 8:00am-10:30am In Person in Sc N237.

If you are not well, you may attend synchronously on Zoom.

Description

Continued analog electronics, digital topics, transistor behavior, modeling and design, SPICE, and Logic families like CMOS, TTL, etc. Prerequisite: ENGR 230. Co-requisite: CS 321. 

Learning Objectives

To be able to analyze and design simple circuits and calculate their behavior using Mathcad and Pspice tools

Required Materials

Nilsson and Riedel, Electric Circuits, 12th ed. Prentice Hall. with Mastering Engineering ISBN-13: 9780137648375

https://www.pearsonmylabandmastering.com/northamerica/students/get-registered/index.html

If you did not take ENGR 230 in the immediately preceding semester, you will need to register online for Mastering Engineering using course id doering28926  ; your exact net id  (i.e. xy1234); your horizon e-mail account; and an access code, credit card, or PayPal. This purchase includes an E-text.

Mathcad software version 14 or 15. (Runs only on Windows) it is available both in the lab and on BayCloud.

LTspice software from Analog Devices.Download Link
A Windows computer equipped with a webcam and microphone that needs to be enabled for Zoom sessions.
I recommend using at least a second monitor to allow you to run Mathcad while zooming.

Grading

10% attendance, 30% homework, 20% midterm exam, 40% final exam.
All homework assignments and exams are to be submitted on Canvas using either Mathcad or Pspice.
All homework is due at midnight on the due date.
Late homework will be discounted at the rate of 1% per whole hour late.
Exams are due at the end of the exam period. All exams must be completed in the classroom or in the academic accommodations facilities.
Exams will not be accepted late.

Subjects

Natural and Step Responses of RLC Circuits

Sinusoidal Steady-State Analysis (Phasors)

Sinusoidal Steady_State Power Connections

Balanced Three-phase Circuits

Laplace Transform

Frequency Selective Circuits

Active Filter Circuits

Fourier Series

Fourier Transforms

Syllabus inclusions:

Common Syllabus Items, Intellectual property, and Academic Honesty Policies of the University are hereby included in this syllabus.