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University of Jordan College of Engineering & Technology Department of Electrical Engineering Summer Term – A.Y. 2010-2011 Course: Electrical circuits (2) – 0903212 (3 Cr. – Core Course) Catalog Data: Average power and rms values. Polyphase circuits. Three phase Y and connections. Complex frequency. The damped sinusoidal forcing function. Frequency response. Parallel and series resonance. Magnetically coupled circuits. General two port networks: Impedance, admittance, hybrid, and transmission parameters. Principles of basic filtering. Basic passive filters. Prerequisites by Course: Prerequisites by topic: Textbook: Electrical circuits (1) – 0903211, students should have a background of: circuit components and analysis techniques. Free and forced response of R/L/C circuits, using dc sources. Sinusoidal steady state analysis of R/L/C circuits Engineering Circuits Analysis 7th Edition. Hayt, Kemmerly, and Durbin. McGraw-Hill. References: Fundamentals of Electric Circuits (2002) C.K. Alexander and M. Sadiku McGraw-Hill Electrical Circuits J. W. Nilsson, and S. A. Riedel Addison Wesley Schedule & Duration: Minimum Student Material: Minimum College Facilities: 16 weeks, 48 (32) lectures, 50 (75) minutes each (including exams.). Textbook, class handouts, scientific calculator, and an access to personal computer. Classroom with blackboard and projection display facilities, library, and computational facilities. Course Objectives: The overall objective of this course is to provide the student with the knowledge and proficiency to analyse 1-ph, 3-phase, and mutually coupled circuits. In addition the student is introduced to the concepts of complex frequency, frequency response and two port networks. Course Outcomes and Relation to ABET Program Outcomes: Upon successful completion of this course, the student should be able to: 1. Understand the relation between instantaneous and average power and to identify and measure the complex power and power factor. 2. Analyze Y and connected 3-phase circuits. 3. Understand mutual and self inductance and analyse circuits containing linear and ideal transformers. Page 1 of 2 4. Understand complex frequency and circuit analysis in the s-domain in addition to identifying poles and zeros and creating plots in the s-domain as a function of damping coefficient and frequency or both. 5. Determine resonant frequency, quality factor and bandwidth of a network, in addition to drawing bode plots and apply scaling techniques. 6. Characterize networks by admittance, impedance, hybrid and transmission parameters and to transform between, and analyse circuits using these parameters. 7. Design simple filter circuits. Course Topics: Contact Hours Topic Description T.1. AC Power Circuit Analysis : Instantaneous power, average power, effective values of current and voltage, apparent power and power factor, complex power. 9 Polyphase Circuits: Polyphase systems, 3-phase Y connection. measurement in 3-phase system. connection, power 6 Magnetically Coupled Circuits: Mutual inductance, energy considerations, the linear transformer, the ideal transformer. 8 Complex Frequency and Circuit analysis in the S-domain: Complex frequency, the damped sinusoidal forcing function, Z(s) and Y(s), circuit analysis in the s-domain, poles, zeros and transfer functions, the complex frequency plane, natural response and the s-plane. 8 Frequency Response: Parallel and series resonance, other resonant forms, scaling, bode diagrams, basic filters. 9 T.2. T.3. T.4. T.5. T.6. The Two-Port Networks: Admittance, impedance, hybrid, and transmission parameters. 5 Computer Usage: Course work including assignments using MATLAB and SPICE. Attendance: Class attendance will be taken and the University policy on absence will be followed. Exams, quizzes and assignments Assessments: Grading policy: First Exam Midterm Exam Final Exam 20 % 30 % 50 % Total 100% Instructor: Instructor Name Prof. Mohammed Zeki Khedher Office Ext. E-mail [email protected] Website: fetweb.ju.edu.jo/staff/ee/khedher Eng. Hasan Frahneh Last Updated: June 26, 2011. Page 2 of 2