ECE 2100 Circuit AnalysisFall 2017version 27 November 2017The online version of this syllabus at http://homepages.wmich.edu/~miller/ECE2100.html provides hyperlinks and will be updated as needed. In case ofconflict, information in this syllabus supersedes all other course documents. InstructorDr. Damon A. Miller, Associate Professor of Electrical and Computer Engineering, Western Michigan University, College of Engineering and AppliedSciences, Parkview Campus, Room A-240, 269.276.3158, 269.276.3151 (fax), [email protected], www.homepages.wmich.edu/~miller/.Office HoursGuaranteed office hours are posted on Dr. Miller’s door and at http://homepages.wmich.edu/~miller/. Please respect instructor office hours. Other times areavailable by appointment.Laboratory InstructorsLaboratory sessions are held in the Electrical Circuit[s] Laboratory, Room B-215, CEAS. Laboratory instructors will provide office hours in lab.M 6:30PM-9:00PM Mr. Villanueva [email protected] 8:30AM-11:00AM Mr. Khani [email protected] 2:30PM-5:30PM Mr. Villanueva [email protected] 6:30PM-9:00PM Mr. AlAnssari [email protected] 6:30PM-9:00PM Mr. Al Gailani [email protected] 8:30AM-11:00AM Mr. Khani [email protected] 6:30PM-9:00PM Mr. AlAnssari [email protected] TutorsIn addition to Dr. Miller’s office hours, you can get help from any of the lab instructors during their office hours.FREE TUTORING: Visit the webpage Student Success Center.STEP Tutor: Mr. Sallmen [email protected], B-122, Floyd HallCatalog DescriptionECE 2100 Circuit Analysis (3-3), 4 hrs. Analysis of linear electric circuits using methods based on Kirchhoff's laws and network theorems. RL, RC, and RLCtransients. Sinusoidal steady state analysis. Prerequisites: PHYS 2070 (or taken concurrently) and MATH 1230 or 1710; with a grade of “C” or better in allprerequisites. Acknowledgements Parts adapted/adopted from syllabi by J. Gesink and J. Kelemen. Some course material is verbatim from an ECE 2100 Laboratory Manual developed byformer and current ECE faculty. Some lecture material may be directly from the course text or references. ECE 2100 Course Learning Outcomes This course develops1. an understanding of electric charge, current, voltage, energy, and power;2. an ability to analyze linear DC circuits using Ohm's law, Kirchhoff's voltage law (mesh analysis), and Kirchhoff's current law (nodal analysis);3. an ability to utilize network analysis techniques including superposition, source transformations, and Thevenin and Norton's theorems;4. an ability to design simple DC voltmeters and ammeters using d'Arsonval movement meters;5. an ability to analyze and design electronic circuits that utilize operational amplifiers;6. an understanding of the terminal characteristics of capacitors and inductors;7. an ability to analyze steady state linear AC circuits containing dependent and independent sources, resistors, capacitors, and inductors;8. an ability to perform DC and AC power calculations including power factor correction;9. an ability to represent the total system response as a sum of a transient and steady state response and a natural and forced response;10. an ability to determine the step response of first and second order linear circuits;11. an ability to analyze, simulate, and experimentally validate DC and AC circuits;12. an ability to use electronic test instrumentation such as voltmeters, ammeters, ohmmeters, signal generators, and oscilloscopes;13. an ability to prepare effective written technical communications for engineering analysis work;14. an ability to thoroughly and accurately document laboratory work using a laboratory notebook;15. an ability to function as an effective engineering team member; and16. a recognition of the need for life-long learning. Textbook and Materials (lecture)Required:You need the text and access to the online McGraw-Hill Education homework system connect®.conve rte d by W e b2P DFConve rt.com1. Text:C. K. Alexander and M. N. O. Sadiku, Fundamentals of Electric Circuits, McGraw-Hill Education, 6th edition.2. On-Line Homework Student Registration Information:Course: ECE 2100 Circuit Analysis with LearnSmart®Instructor: Damon MillerSection: Fall 2017 MWF 9:30AM-10:20AMOnline Registration Instructions:https://connect.mheducation.com/class/d-miller-fall-2017-mwf-930am-1020am Note that your homework assignments are stored on a non-WMU server. Do not provide confidential information such as your WINnumber. If you wish to keep your homework scores anonymous on that server, as far as the instructor is concerned, you do not have to use yourwmich.edu email address as your ID; in that case, you may use an alternative ID, but you must notify the course instructor.You have several options for obtaining these materials:1. ISBN-13: 9781260250596Loose leaf Alexander and Sadiku text with connect® extended (720 day) access card, access card can be used in ECE 2500 within that time window,available in bookstore. 2. ISBN-12: 9781260238372Stand-alone connect® extended (720 day) access card, can be used in ECE 2500 within that time window, provides access to electronic version oftext, available in bookstore, or via this link:https://connect.mheducation.com/class/d-miller-fall-2017-mwf-930am-1020am 3. ISBN-13: 9780078028229Alexander and Sadiku text, hardcopy, available online and in bookstore[you will need to purchase connect® access separately]References (also see course schedule):1. J. W. Nilsson and S. A. Riedel, Electric Circuits, 10th ed., Pearson, Boston, 2015.2. NASA, John F. Kennedy Space Center, Engineering Development Directorate, Graphic Symbols for Drawings (Part 1) Standard for Facilities,KSC-STD-152-1C, https://standards.nasa.gov/documents/viewdoc/3314962/33149623. R. Nave, HyperPhysics, http://hyperphysics.phy-astr.gsu.edu/hbase/hph.html4. http://www.electronics-radio.com/articles/test-methods/meters/analogue-multimeter.php5. J. A. Cadzow and H. F. Van Landingham, Signals, Systems, and Transforms, Prentice-Hall, Inc., New Jersey, 1985.6. M. E. Van Valkenburg, Network Analysis, 3rd ed., Prentice-Hall, Englewood Cliffs, NJ, 1974.7. Weisstein, Eric W. "Fourier Series--Square Wave." From MathWorld--A Wolfram Web Resource.http://mathworld.wolfram.com/FourierSeriesSquareWave.html8. C. Wohleber, “The Work of the World,”