Course

Name

 

Electronics

 

الكترونيات

 

Course

Information

Course Code

Course No

Credit Units

 

Contact

Hours

Lec.

Lab.

Tot.

 

CE121

 

0913121

 

4

 

4

 

1.5

 

5.5

Level

2nd  Semester

Prerequisite

0814132

Course Description:

DC Circuits : Circuit Variables (Voltage, Current, Power, and Energy), DC Circuit Elements (Resistors, DC Voltage

Sources), Simple Resistive Circuits(Resistors in Series, Resistors in Parallel, Voltage and Current Dividers) , Circuit Analysis ( Ohms Law, Kirchhoff Laws , Node-Voltage Method, Mesh Current Method, Source Transformation, Thevinin and Norton Equivalent),  Maximum Power Transfer and Superposition. AC Circuits: AC Circuit Components and Simple AC Circuit Analysis . Diodes: Diode Structures, Diode Circuits, Diode Types (Zenner Diode, Varactor Diode, Schottky Diodes), Diode Clippers, Diode Limiters, Diode Clampers, and Diode Rectifications. Transistors: Bipolar Junction Transistors, N-P-N Structures, P-N-P Structures, Modes Of Operations (Active Mode, Reverse Mode and Saturation Mode), CB, CE, CC Connections, Field Effect Transistors (FET), (JFET, MESFET, MISFET, and MOSFET) , Transistor Circuits And Applications, Transistor Switching. Opto Electronics Devices: Photodiodes, LED, Lasers, Semiconductor Lasers. Integrated Circuits: Background, Advantages of Integration, Types of Integration, Monolithic And Hybrid Circuits, Evolution of Integrated Circuits, CMOS ICs, TTL ICs. Operational Amplifiers and applications. Student will be trained on the available software such as: Circuit maker 2000, EWB50a, MultiSim 6.01, CirCAD, DCCAD, and DCCHALING in addition with the products and components of Heathkit educational systems (EWS-3600 analog modules)

 Course Outcomes:

After completion of this course the student will be able to:

1.       Define basic concept of :  Dc Circuits, Ac Circuits, Diodes, transistor, Photodiodes, and Operational Amplifiers and applications 

2.       Design and develop Basic DC, AC circuits, Diode rectifier and Regulator circuits, and basic Amplifiers

3.       Analyze DC and AC circuits, Diodes &  Transistors Applications  and Operational Amplifiers

4.       Solve and Apply Ohm’s Law, Kirchhoff Laws , Node-Voltage Method, Mesh Current Method,

5.      Discuss and classify the Integrated Circuits Background, Advantages of Integration and Types of Integration.

6.      Understand the Source Transformation, Thevinin and Norton Equivalent and  Maximum Power Transfer and Superposition

Grading

Mid-term

20%

Project

 

Quizzes

10%

Final

40%

Lab.

25%

Participation

5%

Textbook:

Thomas L. Floyd, Electronics Fundamentals: Circuits, Devices, and Applications,  Prentice

Hall , 7th edition, 2006, ISBN 0-13-219709-0

Reference Books:

1.    Thomas L. Floyd  ,“Principles of Electric Circuits :  Conventional Current Version”, 7th  Edition, 2002.

2.  Richard Drof,” Introduction to Electric Circuits”, John Wiley, 6th  edition, 2004, ISBN 0471447951.