Detailed description of the major courses

3- Practical applications

o Engineering circuit diagram with a simple

overview of how to make a back-layout for it to be ready for printing on copper plate.

o DC Circuit Analysis.

o AC Circuit Analysis.

o Applications on Diode circuits analysis o Basic Digital Circuit.

o Applications on the transistor circuits o (Transistor circuits analysis)

o Applications on 555 Integrated Circuit o (555 Timer.)

o Operations Blaster Applications o (Operational Amplifier Application.)

o Introduction to Programmable Integrated Circuits (EPROM, MICROCONTROLLER.)

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance

Subject

references 1-Multisim CD and user's manual.

Subject references

 Multisim CD and user's manual.

 Circuit maker CD and user's manual

 Trax maker CD and user's manual

 Eagle CD and user's manual

Page 49 of 84 Course

Name Electronics Devices Course

Code ELCC 121

Prerequisite ELCC 111

Training semester 1 2 3 4 5

Credit hours 3

Collaborative training Contact hours

(Hour/ week)

Lecture 2

Practical 2

Training 0

Course Description

In this course, the trainee learns about the various electronic components. It also learns the properties of each element with its applications in electronic circuits

The general objective of the course:

This course aims to provide the trainee with the basic skills to identify the components of a semiconductor and a transistor (BJT, FET) in addition to their theory of work, their properties and applications, and an introduction to the technique of surface elements.

The detailed objectives of the course:

By the end of this course, the trainee will be able to:

1. Learn about the composition, properties, and properties of semiconductor components.

2. Determines the bias type for the diode and its equivalent circuit.

3. Diode is used in various standardization circuits.

4. Recognize smoothing circuits using capacitors

5. Traces the shape of waves until the end of the smoothing stage 6. Learn about the properties and uses of zener diode

7. Learn about the structure, symbol, properties, and theory of operation of a two-link transistor 8. Learn about FET and MOSFET transistor junction installation and its operating theory.

9. Learn about the various SMD surface electronic elements and their properties, read their values, and use the Data Sheet Object Book.

10. Determines the technical specifications of the diode and the transistor from the data sheet.

11. It examines these elements and determines their ends and suitability 12. It examines the electronic circuits made up of these elements.

13. Tracks the stages of operating electronic circuits

Page 50 of 84

Units (theoretical and practical) Training hours Theoretical practical

Dual semiconductor 4 4

Units and smoothing circuits 4 4

Zener binary 4 4

Bipolar transistor 4 4

Transistor applications 4 4

Transistor fittings 4 4

Field effect transistor characteristics 4 4

Surface electronics technology 4 4

Total 32 32

64

Procedures of Safety Requirements:

1. Wearing appropriate clothes.

2. Set the devices firmly and properly.

3. Connect devices properly and correctly

The detailed approach (theoretical and practical)

hours Content Assessment tools

8

Dual semiconductor

o Dual semiconductor installation o Semiconductor diode properties o Front and back alignment o Static and dynamic resistance

o The difference between dysilicon Si and germanium Ge

o Semiconductor dual operators o Dual semiconductor applications

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

Page 51 of 84 8

Units and smoothing circuits o Unification circles

o Standardization of half wave o Full wave consolidation o Simple filter circuits

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

Zener binary

o Characteristics of a zener diode o Temperature effect

o Time wasted

o Voltage regulation circuits

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

Bipolar transistor

o NPN and PNP transistor installation and code o Turn on the NPN transistor

o NPN transistor characteristics

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

Transistor applications.

o Turn on an electronic key transistor o Turn on a transistor amplifier

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance

Page 52 of 84 Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

Transistor fittings o Common rule o Common emitter o Common complex o Transistor siding circuits

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

JFET field effect transistor characteristics o JFET field effect transistor coupling installed o Use the transistor as a key

o Metal-oxide-semiconductor installation of a transistor

o MOSFET effect o CMOS technology

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

8

8 - SMT technology:

o Surface electronic elements SMD

o Types (ineffective elements, diodes, transistors, integrated circuits). Transistors and diodes, Integrated circuits, Passive SMDs.

Oral exams Short tests Classroom exercises

homework Written exams

Simulation Practical performance Subject

references

1-Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

2-.Electronic Components Selection and Application Guidelines ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

Subject references

 Thomas L.Floyed, Electronic Devices,6 th edition, Prentice Hall,2004.

 Electronic Components Selection and Application Guidelines

 ~Victor Meeldijk John Wiley & Sons Inc Paperback - 18 July, 1997

Page 53 of 84 Course

Name Programmable Logic Controller Course

Code ELCC 111

Prerequisite ELCC 232

Training semester 1 2 3 4 5

Credit hours 2

Collaborative training Contact hours

(Hour/ week)

Lecture 0

Practical 4

Training 0

Course Description

In this course, Controller and their applications in the industry are studied. Training will also be conducted on writing control programs for industrial processes.

The general objective of the course:

The course aims to introduce the trainee to the components of programmable Controller, the basics of their operation and their uses in various industrial applications.

The detailed objectives of the course:

By the end of this course, the trainee will be able to:

1. Learn about the programmable parts of controller.

2. Connects the programmable Controller with external devices and systems.

3. Programmable Controller programming 4. Operates the programmable Controller 5. Learn how to control industrial applications

Units (theoretical and practical) Training hours Theoretical practical

Programmable Governance Parts 0 8

Programmable Controller with external devices and systems. 0 8

Programmable Controller 0 8

Programmable Controller operation 0 8

How to control industrial applications. 0 8

Programmable Controller parts. 0 8

Types of Controller used in modern industry 0 8

Boolean functions 0 8

Total 0 64

64

Page 54 of 84 Procedures of Safety Requirements:

1. Wearing appropriate clothes.

2. Set the devices firmly and properly.

3. Connect devices properly and correctly

The detailed approach (theoretical and practical)

hours Content Assessment tools

8

Programmable components of Controller and the basics of their operation.

o Programmable components of Controller description

o Connecting programmable Controller with the computer.

Oral exams Written exams Practical performance

Subject references

1-Introduction to Programmable Logic Controllers.

2-~Gary Dunning Delmar Paperback - September 2001

3-Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

8

Basic functions o Logic gates

o AND, OR, NOT, NOR, NAND

Oral exams Written exams Practical performance Subject

references

1-Introduction to Programmable Logic Controllers.

2-~Gary Dunning Delmar Paperback - September 2001

3-Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

8

Programmable Controller o The Ladder Plan (LAD)

o Control System Flow Map (FBD) o Action List (STL)

Oral exams Written exams Practical performance Subject

references

1-Introduction to Programmable Logic Controllers.

2-~Gary Dunning Delmar Paperback - September 2001

3-Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

Page 55 of 84 8

Advanced functions o Chronicles o Counters o Flip-flops o Offset recorders o Comparisons o Jump function o Code table

Oral exams Written exams Practical performance

Subject references

1-Introduction to Programmable Logic Controllers.

2-~Gary Dunning Delmar Paperback - September 2001

3-Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

8

Practical applications

o Running a drive from one or two different locations o Control the conduction of the conveyor with changing

the direction of movement with or without stopping by sensors.

o Control the tunnel ventilation, such as the tunnels of Makkah Al-Mukarramah.

o Control the alarm system.

o Traffic light control

o Control the car wash station o Elevator control

o Control the robot

Practical performance

Subject references

1-Introduction to Programmable Logic Controllers.

2-~Gary Dunning Delmar Paperback - September 2001

3-Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

Subject references

 Introduction to Programmable Logic Controllers

 ~Gary Dunning Delmar Paperback - September 2001

 Programmable Logic Controllers ~Bill Bolton Newnes Paperback - 14 February, 2000

 Activities Manual for Programmable Logic Controllers ~Frank D Petruzella McGraw- Hill Education Paperback - 1 January, 1997

 Introduction to Programmable Logic Controllers ~John E. Ridley Butterworth- Heinemann Paperback - 24 December, 199

 Activities Manual for Programmable Logic Controllers ~Frank D Petruzella McGraw- Hill Education Paperback - 1 January, 1997

 Introduction to Programmable Logic Controllers ~John E. Ridley Butterworth- Heinemann Paperback - 24 December, 199

 Activities Manual for Programmable Logic Controllers ~Frank D Petruzella McGraw- Hill Education Paperback - 1 January, 1997

Page 56 of 84 Course

Name Industrial Safety Course

Code ELCC 101 Prerequisite

Training semester 1 2 3 4 5

Credit hours 1

Collaborative training Contact hours

(Hour/ week)

Lecture 0

Practical 2 Training 0 Course Description

This course gives the trainee the basic knowledge to prevent risks in general, and the dangers of electricity in particular, as well as the trainee learns about safety methods and how to help the injured The general objective of the course:

The course aims to familiarize the trainee with industrial safety methods and prevent risks of work injuries and first aid.

The detailed objectives of the course:

By the end of this course, the trainee will be able to:

1. Learn about the types of injuries that a person can be exposed to when an electric current passes through him.

2. Learn how to treat an electric shock victim 3. Determines the components of fire alarm systems 4. Learn the locations of alarms in buildings

5. Familiarity with occupational safety guidelines

Units (theoretical and practical) Training hours Theoretical practical Kinds of injuries that a person can be exposed to when an

electric current is passed 0 4

Ambulance victim 0 8

Fire alarm system components 0 8

Places of alarms in buildings 0 4

Occupational Safety Instructions 0 8

Total 0 32

32

Page 57 of 84 Procedures of Safety Requirements:

1. Adhere to safety instructions according to training material

The detailed approach (theoretical and practical)

hours Content Assessment tools

4

Electrical danger to the human body, and types of injuries and relief from them

o Causes of electric current

o The electrical current in the human body o What are the effects?

o The human body’s electrical resistance

o The duration of the electrician passing through the human body

o Effect of current duration

o The effect of the voltage duration o Current frequency effect

o The way the current passes through the human body

o Types of electrical injuries o Electric shock

o Electrical burns o Burning o Arc burn o Mixed burning o Electrical scars o Skin mineralization o Electrical burns o Arc burn o Mixed burning

o Relief of the electric current o Rid the casualty

o Artificial respiration o Manual method o Blowing method o Treatment of burns

Oral exams Written exams Practical performance

Subject references

1-Industrial security Occupational safety and health in industrial enterprises - 2005

2-The Industrial Environment: Its Improvement and Ways to Protect it - 2010

Page 58 of 84 8

Effects caused by the passage of electric current to the ground

o Situations in which people are harmed by the electric current

o Touching two phases together are current carriers o Touching one phase conductor of the current

o Touching a material that does not carry a current, but is under voltage, is wrong

o Impact of contact voltage and step voltage

Oral exams Written exams Practical performance

Subject references

1-Industrial security Occupational safety and health in industrial enterprises - 2005

2-The Industrial Environment: Its Improvement and Ways to Protect it - 2010

8

Fire alarm systems and components of the fire alarm system

o Control unit o Fire detectors o Heat detectors o Smoke detectors o The bells and trumpets

o Buildings that must be equipped with a fire alarm system

o Manual operation units o Audible alarms

o Fire alarm systems circuits extensions

Oral exams Written exams Practical performance

Subject references

1-Industrial security Occupational safety and health in industrial enterprises - 2005

2-The Industrial Environment: Its Improvement and Ways to Protect it - 2010

8

Instructions on occupational health and safety o Reducing non-security behavior and practices o Reasons related to business risks

o air pollution o the noise

o Protective equipment o Lighting

o Ventilation

o Personal protective equipment o Eye protection

o Hearing protection

o Personal protective clothing

Oral exams Written exams Practical performance

Subject references

1-Industrial security Occupational safety and health in industrial enterprises - 2005

2-The Industrial Environment: Its Improvement and Ways to Protect it - 2010

Subject references

 Industrial security Occupational safety and health in industrial enterprises - 2005

 The Industrial Environment: Its Improvement and Ways to Protect it - 2010

Page 59 of 84 Course

Name Engineering analysis Course

Code ELCC 101

Prerequisite ELCC 102

Training semester 1 2 3 4 5

Credit hours 2

Collaborative training Contact hours

(Hour/ week)

Lecture 2

Practical 0

Training 0

Course Description

This course includes the topics that the trainee needs in the field of specialization, such as trigonometric functions, first and second differential equations, in addition to Laplace transforms and Fourier analysis.

The general objective of the course:

This course aims to provide the trainee with the basic skills for a number of topics that qualify him to understand specialized courses.

The detailed objectives of the course:

By the end of this course, the trainee will be able to:

1. The detailed objectives of the course:

2. Familiarity with the concept of trigonometric functions 3. Familiarity with and dealing with trigonometric waves 4. Familiarity with the concept of trigonometric equations

5. Familiarity with the concept of first-order differential equations

6. Learn about the first-order systems, their applications, and their calculation methods 7. Familiarity with the concept of second-order linear differential equations

8. Learn about linear second order systems, their applications and methods of calculating them 9. Familiarity with the concept of Laplace transforms

10. Gain the ability to use the Laplace Transfers table

Page 60 of 84

Units (theoretical and practical) Training hours Theoretical practical

Trigonometric functions 6 0

First order differential equations 6 0

Linear second order differential equations 8 0

Laplace transforms 8 0

Fourier analysis 4 0

Total 32 0

32 Procedures of Safety Requirements:

1. Adhere to safety instructions according to training material

The detailed approach (theoretical and practical)

hours Content Assessment tools

6

The first unit: trigonometric functions

o Introduction to trigonometry and methods of calculating it

o Trigonometric waves and their types o Cartesian and polar coordinates o Trigonometric equations

Simulation Written exams

Self-test Subject

references 1-Engineering Mathematics- section3 (page 185)

6

The second unit: differential first order equations o The concept of differential equations

o Initial value calculations o Elor method

o First order systems

o Linear differential equations of the first order

Simulation Written exams

Self-test Subject

references

1-Advanced Engineering Mathematics - part A (page 2) 2 -Engineering Mathematics – section11 (page 555)

8

The third unit: Linear differential equations of the second order

o The concept of second order linear differential equations

o Initial value calculations

o Symmetrical Linear Differential Equations o Asymmetric linear differential equations

Simulation Written exams

Self-test

Page 61 of 84 6 o Second level systems

Simulation Written exams

Self-test Subject

references

1-Advanced Engineering Mathematics- part A (page 47) 2.Engineering Mathematics – section11 (page 555)

8