ELEN 3321 Electronics I(Required)Catalog Description: Design and analysis of circuits using diodes, transistors, and linear and digitalintegrated circuits.Prerequisites:By course: ELEN 2311 Circuits I with grade of C or better.By topic: KCL, KVL, basic circuit analysis including DC, AC, and transient analysis.Courses that require this as a prerequisite: ELEN 3322Credits: 3Offered: Fall AnnuallyInstructors:Primary: Selahattin SayilSecondary: Wendell BeanTextbook: Electronic Circuit Analysis & Design, Donald A. Neaman, McGraw Hill Publishers, SecondEdition, 2001, ISBN 0-07-245194-7.References: Schematic Capture with Electronics Workbench Multisim, Marc E. Herniter, Prentice Hall,2004, ISBN 0-13-049614-6.Microelectronic Circuit, Adel S. Sedra and Kenneth C. Smith, Oxford <strong>University</strong> Press, Fifth Edition,2004, ISBN 0-19-514251-9.Objectives (with corresponding ABET Criteria/outcomes):Ensure students:• Are familiar with current and future applications of electronics with an emphasis onmicroelectronics. (Criterion 3(h),(i))• Understand basic physics and operation of diodes, BJTs, MOSFETs and JFETs. (Criterion 3(a))• Understand the concepts of DC and small-signal analysis. (Criterion 3(a))• Understand the analysis and design of basic amplifier configurations. (Criterion 3(a),(c))• Are able to use the circuit simulator SPICE for analysis of electronic circuits. (Criterion3(a),(b),(k))• Understand the ideal op-amp and various op-amp applications. (Criterion 3(a),(c))Topics (approximate number of lecture hours):• Introduction to semiconductors and diode physics. (3 hours)• Diodes: physics, DC and small-signal model, applications. (5 hours)• BJTs: physics, biasing, small-signal model. (6 hours)• BJT single-stage amplifiers: analysis and design. (6 hours)• MOSFETs, JFETs: physics, DC analysis, small-signal model. (8 hours)• MOSFET single-stage amplifiers: analysis and design. (6 hours)• The Ideal Operational amplifier. (4 hours)• Digital electronics (3 hours)EE Program Self-Study Report-2006 59
Structure: Two 75-minute lectures per week. No labs. Three 75-minute exams and a two hour final.Frequent homework assignments, some involving SPICE usage.Policy: Homework is due next week same day after it has been assigned. Late homework, if accepted, issubject to 20% Penalty. No homework accepted after solution is posted. You are encouraged to worktogether on homework; however it should be your work that is submitted. It is your responsibility toknow all exam dates and arrival times for the exam. No make-up exams will be given in this class exceptfor written medical excuse and no extra time will be given for late students. No exam is given if you are30 minutes late. Even if you are late in the exam, you must turn in at the due time. Punctual attendance isexpected of all students. A roll will be taken at each class meeting. This consists of signing your nameon the attendance record for that date. Unexcused absences will result in the assessment of a penaltyaffecting the student's grade. Exam Rules: There will be no borrowing of any items during exam.Contribution to professional component:Math and basic science 0.0 (units)<strong>Engineering</strong> Topics 3.0 (units)Does this course contain significant design experience?YesPrepared by: Dr. Selahattin Sayil May 2006EE Program Self-Study Report-2006 60