### Instructor

Prof. Robert C. Maher

 Office: 529 Cobleigh Hall (southwest corner of 5th floor) Phone: Office:  994-7759Home:  587-5925 (but please do not call me at home) Email: [email protected] Class Page: /rmaher/ee101 Office hours: Tuesdays, 2-4PM.(Drop-in questions are always OK if my office door is open)

### Textbook

Dick White and Roger Doering, Electrical Engineering Uncovered, 2nd Edition, Prentice Hall, 2001. Class ObjectivesStudents have an opportunity to explore a wide variety of devices, applications, and innovations in the exciting field of electrical and computer engineering. During lab, students learn how to use signal generators, test equipment, and measurement equipment to investigate electrical circuits. Basic concepts of voltage and current relationships for circuit components are introduced. Both analog and digital circuits are explored. Class Outline (subject to change)

• Course introduction: Expectations, lab resources, protocol.
• Introduction to electronic circuits: Basic circuit analysis, build circuit on prototype board, use signal generator and measuring equipment, series and parallel circuits, resistors and capacitors, diodes and transistors, DC and AC signals.
• Computer methods: Create graphs, import data sets, apply titles and labels, extract graph for import into word processor, understand Matlab fundamentals.
• Assembly methods:  Printed circuit boards, soldering, assembly, verification of proper operation, performance testing
• Sound activated switch: Construct prototype board circuit to respond to sound, layout methods, planning for success, verification, performance testing.
• Digital electronics:  Logic gates, combinational logic, construct logic circuits and verify desired operation.
• Explore additional EE and CpE circuits:  as time permits.

### Calendar Summary (subject to change)

 January 21-22 First class meeting and introduction January 28-29February 4-5February 11-12February 18-19February 25-26 Lab #1:  Series and parallel resistorsLab #2:  Voltage and current in simple circuitsLab #3:  Capacitors and frequency responseLab #4:  Frequency, period, and phaseLab #5:  Electric shock and safety; Diode circuits March 4-5 Mid-Term Exam (during lab time) March 11-12 SPRING BREAK (no labs this week) March 18-19March 25-26April 1-2April 8-9April 15-16April 22-23 Lab #6:  MATLABLab #7:  Op AmpsLab #8:  Two-Stage AmplifierLab #9:  Project kit assembly startLab #10:  Project kit assembly completionLab #11:  Digital Logic Gates April 29-30 Final Exam (during lab time)

 Homework: 5% → Homework will be required periodically Lab Reports: 70% → Lab assignments (about 11 total) are normally due at the end of each lab session Mid-Term Exam: 10% → One written/practical exam will be given during the semester Final Exam: 15% → A final written/practical exam will be given during the last week of classes 100%
Grade guarantee:  course letter grades may be higher (but will not be lower) than indicated by the following scale:
A- = 90%
B- = 80%
C- = 70%
D = 60%
F = 59%    A grade of F will also be given if the final exam is not taken.

### Policies

• All students must have an electronic mail address listed with the MSU My Info system.  Announcements and reminders for EE101 will be sent occasionally via email.  Students will also need to get an MSU computer access account and printing privileges for the ECE Department computer lab (additional instructions will be given in class).
• You are expected to keep a clean lab area and return items to their proper place. Equipment is expensive and is provided for your learning experience. Please conduct yourselves appropriately.
• You are responsible for all material covered in class and in the textbook reading assignments.
• You will work with a lab partner during the lab period, but your lab report must be prepared individually.  Homework and exams also must be prepared individually. Submitting the work of others without clear attribution is dishonest and grounds for dismissal from the course.