Minimum Tudent

The University of Jordan School of Engineering & Technology Department of Electrical Engineering 2nd Semester – A.Y. 2016/2017

Course: Electrical Engineering Laboratory (EE 0903204) (1 Cr. – Core Course)

Instructor: Dr. Ghazi Al-Sukkar . EE dep. 3rd floor.. [email protected]

Course Website: http://engineering.ju.edu.jo/Departments/Deptlabs.aspx?DeptName=Electrical% 20Engineering

Catalog Data: Introduction to DC/AC circuits and basic electronic with applications to measurements in simple electrical networks .

Course: Electrical Engineering (EE 0903203) (pre requested)

Students are assumed to have a background of the following topics: By Topic:  Calculus skills.  Solution of ordinary differential equations.  Physics 101&102

Textbook: Laboratory Manual,Principles and Applications of Elictrical Engineering,Rizzoni,4th edition.

References:  Engineering Circuits Analysis by Kemmerly Hayt and Durbin. 7th Edition. McGraw-Hill.  Shaum's outline of Electrical Circuits, Research & Education Association, 1st Edition, 1998.  Electric Circuits Problem Solver (Problem Solved Solution Guides), by Nilsson Riedel, McGraw-Hill, 5th Edition, 2011.

Schedule & 16 Weeks, 16 Meeting Time, 180 minutes each (including exams). Duration:

Laboratory Manual, class handouts, scientific calculator, and an access to a personal computer. Material:

Electrical Engineering lab with complete instruments and equipments, whiteboard, library, and computational facilities. Facilities:

Course To develop competence in analysis, design, testing and troubleshooting of simple electrical circuits Objectives:

Course Learning Outcomes and Relation to ABET Student Outcomes: Upon successful completion of this course, a student should: 1. Measure electrical circuit parameters using multi-meters . [b,d,g,k] 2. Construct various types of electrical circuits to verify the applications of Thevenin and Norton [b,d,g,k] equivalents . 3. Verify the applications of Kirchhoff's current and voltage laws and Ohm's law to circuit problems [b,d,g,k] by collecting and evaluating experimental data 4. Analyze experimental data to verify various laws and theorems of electrical circuits. [b,d,g,k] 5. Use Oscilloscopes and others instruments to monitor and collect experimental data. [b,d,g,k]

6. Measure characteristics of some semiconductor devices (i.e., Diode, Rectifier,Bipolar [b,d,g,k] transistor,Operational amplifier) Ground Rules: Attendance is required and highly encouraged. To that end, attendance will be taken every lecture. All exams (including the final exam) should be considered cumulative. Exams are closed book.

Assessments: Exams, Quizzes, Reports, Projects, and Assignments.

Grading policy: Reports 15 % Quizzes 15 % Midterm Exam 30% Final Exam 40 % Total 100 %

Last Updated: March 2017