- Degree Bachelor
- Code: EC238
- Credit hrs: 3
- Prequisites: EE231
a-Knowledge and Understandingrn rn•Students will be able to examine basic knowledge, concepts of mathematics and sciences and engineering principles to solid state devices with accuracy 80%.rn•The student must be able to know the concept of different semiconductor types using 5 assignments and 2 written exams.rn•The student must be able to describe the concept of semi conductor diodes by submitting 2 assignments.rn•The student must be able to describe the concept of diffusion between current and voltage by submitting 1 assignment.rn•The student must be able to describe the concept of P-n junction diode by submitting 3 assignments.rn•The student must be able to describe the concept of P-n junction diode by submitting 3 assignments.rn•Student will be able to examine the knowledge, analyze and design special diodes using 2 assignments.rn•The student must be able to examine the performance of a BJT.rn•The student must be able to define the performance of BJT using 3 assignments and 2 written exams.rn•The student must be able to define the performance of BJT using 3 assignments and 2 written exams.rn•The student must be able to quote with the solution of BJT.rn•The student must be able to describe the concept of FET using written exam.rn•The student must be able to show the concept of solving FET problems using 3 assignments.rn•The student must be able to describe the performance of FET using 4 assignments and 1 written exam.rn•The student must be able to examine the performance of FET using a single assignment and a written exam.rnrnrn b- Intellectual Skills rnrn•The student must be able to apply the knowledge of conductivity in semiconductors using 1 assignment.rn•Students will be able to demonstrate appropriate knowledge and methods of P-n Junction diode using a student seminar.rn•Students will be able to adapt computer programs using Pspise.rn•Students will be able to solve, examine and explain data using a written exam and an essay.rnrnc- Professional Skills rnrn•Students will be able to explain appropriate analysis 1 report.rn•Students will be able to perform a diode circuit using 1 assignment.rn•Students will be able to experiment with special diodes and test a system using 2 assignmentss.rn•The students will be able compare BJT performances.rn•Students will be able to manipulate appropriate mathematical methods to solve FET problems.rnrnd- General Skills rnrn•The students will able to practice experience and facility in systematic approaches to solve problems using professional skills. rn•The student will be able to comply with the applications of BJT concepts using a written group project.rn•The students will be able to communicate effectively using an oral group project.rn•The student must be able to practice solving BJT problems using 3 assignments.rn•The student must be able to practice solving FET problems using 3 assignments.rn•The student must be able to comply the learning how to deal with FET problems using professional discussions. rn
Bachelor Degree in Mechanical Engineering (Mechatronics Engineering)
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content serial | Description |
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1 | Types of solids: conductor, insulator, semiconductor. |
2 | Conduction and valence bands, energy gap, covalent bond ? Semiconductor types ? Doping of semiconductors. |
3 | Mobility and conductivity in semiconductors (intrinsic and extrinsic) ? Hole and electron concentration - Drift current. |
4 | Diffusion and drift currents ? Built-in voltage in a p-n junction ? Depletion layer in a p-n junction. |
5 | p-n junction diode - Forward and reverse bias - Diode as a circuit element. |
6 | Half wave and full wave rectifier - Smoothing circuits - Clipping circuits - Clamping circuits. |
7 | Special diodes: Zener diodes - Light emitting diodes (LEDs) ? Photodiodes - Varactor diodes - Solar cells + 7th Week Exam |
8 | Bipolar Junction Transistor (BJT): construction ? types ? symbol - energy band diagram ? operation - DC equivalent circuit. |
9 | BJT: dc solution and biasing circuits - bias stability. |
10 | BJT: I-V Characteristics of BJT - Load line - Operating point ? h-parameters. |
11 | BJT: Small signal analysis ? AC equivalent circuit ? Transistor amplifier - Voltage and current gains. |
12 | Field Effect Transistor (FET): (1) Junction FET (JFET): construction ? symbol ? operation ? I-V characteristics - JFET biasing circuits +12th Week Exam |
13 | (2) Metal oxide semiconductor FET: MOSFET: construction ? symbol ? operation. |
14 | I-V Characteristics of MOSFET, Enhancement and depletion modes, E-MOSFET: construction, operation and I-V characteristics - ac solution of all FET types. |
15 | Complementary MOSFET (CMOS): symbol - operation - Logic gates using CMOS. |
16 | Final Examination |
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