PH302 : Electronics

Department

Department of

Academic Program

Bachelor in Physics

Type

Compulsory

Credits

Prerequisite

PH202 PH205

Overview

Introduce students to the basic theories of electronics and their application. Clarify the theory of energy band, and interpret the basic concepts of semiconductor electronics. Enable students to clarify the theory of energy bands and classify electrical conductors. Develop students’ abilities in identifying the binary junction P-N. Develop students’ skills in distinguishing a bipolar transistor P-N-P and a field effect transistor. Provide students with information about the logic circuits and their applications.

Intended learning outcomes

At the end of the course the student should be able to:

1. Explain the electronic structure of the atom according to Pauli theory.

2. Compare the types of semiconductors and methods of doping them with impurities.

3. Explain the idea of diode work.

4. Distinguish between a positive and negative crystal.

5. Distinguish between a bipolar transistor and a field effect transistor.

6. Understand the digital circuits and logic gates.

7. Merge with others to work in a team.

8. Solve problems and exercises related to the course.

9. Development of written and oral communication capabilities.

Teaching and learning methods

· Lectures.

· Discussion and dialogue.

· Tutorials and exercises.

Methods of assessments

The methods of evaluating students in this course are distributed as follows:

o Semester work (40 marks) is divided as follows:

· First written exam (objective questions and problem) (15 marks).

· Second written exam (objective questions and problem) (15 marks).

· Scientific activities (e.g. weekly tests, reports discussion) (10 marks).

o Final: written exam (60 marks).

Course Contents

Week	Scientific topic
1-2	Electronic structure of atoms: Material classification based on energy band theory; recombination of free electrons and holes in semiconductors.
3-4	Intrinsic and Extrinsic Semiconductors: charge carrier density; type N semiconductor; type P semiconductor.
5	First exam
5-7	PN junction diode, properties and applications; Zener diode.
8-9	Bipolar transistors: ( structure, operation, circuits, biasing circuits)
	Second exam
10-11	Field effect transistor (types, characteristics, bias circuits)
13-14	DIGITAL ELECTRONICS: ( Digital logic “AND, OR, NOT, NAND, NOR”; Applications of digital logic circuits)
15	Final Exam

References

Place	Publisher	Version	Author	Titel
lecturer	-	-	lecturer	Rapporteur notes
Internet	مكتبة المجتمع العربي للنشر	-	ياسينالشبول	الالكترونيات المعاصرة

General Chemistry I (.CH101)
Fundamentals of Education (EPSY101)
General Mathematics 1 (MM111)
General Psychology (EPSY 100)
Introduction to Mechanics (PH101)
Heat and properties of matter (PH102)
Arabic language 1 (AR103)
Quranic Studies 1 (AR101)
Lab. Physics 1 (Mechanics, Heat and Properties of Matter) (PH106L)
Sound & Light (PH104)
General Electrical (PH103)
Arabic language 2 (AR104)
General Mathematics 2 (MM112)
General Teaching Methods (EPSY 201)
(EPSY 203)
Electricity and magnetism (PH205)
Mechanics I (PH203)
Mathematical Physics I (PH201)
Lab. Physics 2 (Electricity, Sound and Light) (PH207L)
Principles of statistics (ST100)
General English1 (EN100)
HOSTINGARABIC3 (AR105)
(EPSY 200)
Basics Of Curriculums (EPSY 202)
Research Methods (EPSY301)
Measurements and Evaluation (EPSY 302)
General English2 (EN101)
Computer 1 (CS100)
General chemistry II (CH102.)
Mathematical Physics Il (PH202)
Mechanics II (PH206)
Thermodynamics (PH204)
Electromagnetic theory (PH303)
Moderen (Atomic) Physics (PH307)
Electronics (PH302)
Quranic studies2 (AR102)
Lab. Physics 3 (AC circuits) (PH305L)
HOSTINGARABIC4 (AR106)
General chemistry II practical (CH102P.)
Computer 2 (CS101)
Teaching learning Aids (EPSY 303)
ٍSolid state physics I (PH405)
Nuclear Physics I (PH403)
Psychological Health (EPSY 401)
Advanced Lab (Electrons) (PH306L)
Physical Optics (PH304)
Mechanics III (PH301)
Advanced Lab. (Optics and Moderen Physics) (PH308L)
Quantum Mechanics (PH401)
Statistical Physics (PH402)
Advanced Lab. (Nuclear Physics) (PH404L)
Advanced Lab. (Solid-State Physics) (PH406L)
Teaching Practice (EPSY 402)
Solar Energy (PH409E)
Laser and Applications (PH410E)
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