Electric&Electronic Department

[:en]

Head of the Department: Mr. Nasarldin Bashir Hassan

The study Plan

First Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBAL1101	Arabic Language Skills I	4	0	4
UBEL1102	English Language Skills I	4	0	4
UBEL1103	English Language Skills II	4	0	4
UBIC1104	Islamic Culture	2	0	2
UBSS1105	Sudanese Studies	2	0	2
UBUS1106	University Skills Studies	2	0	2
Total		18	0	18

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBAL1201	Arabic Language Skills II	2	0	2
UBEL1202	English Language Skills III	2	0	2
ENCR1201	Calculus I	2	0	2
ENCR1202	Basic Mathematics	2	0	2
ENCR1203	Physics I	2	3	3
ENCR1204	Chemistry	2	3	3
ENCR1205	Statics	2	2	3
ENCR1206	Introduction to Computer and Networks	1	3	2
ENCR1207	Introduction to Engineering	2	3	3
ENEE1201	Programming Fundamentals	1	3	2
Total		18	17	24

Second Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBEL2101	English Language Skills IV	2	0	2
ENCR2101	Calculus II	2	0	2
ENCR2102	Linear Algebra & Analytical Geometry	2	0	2
ENCR2103	Physic II	2	3	3
ENCR2104	Dynamics	2	2	3
ENCR2105	Engineering Drawing I (Geometrical Constructions, Tangency Constructions and Orthographic Projection)	1	6	3
ENCR2106	Material Science	2	3	3
ENEE2101	Electric Circuits I (1.Basic Concepts, 2. Basic Laws, 3.Methods Of Analysis, 4.Circuit Theorems, 5.Capacitors And Inductors, 6.Sinusoids And Phasors, 7. Ac Steady State Analysis, 8.Three Phase Circuits).	2	3	3
ENEE2102	Logic Design I (1.Numbers System, 2. Introduction to Boolean Algebra and Boolean theorems, 3. Logic gates, 4. Introduction to Physical Realization of logic gates and logic families, 5. Minimization of Boolean Functions, 6.Combinational Logic Circuits).	2	0	2
ENEE2103	Electrical workshop Technology	1	1	1
Total		18	18	24

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR2201	Function of Several Variables	2	0	2
ENCR2202	Ordinary Differential Equations	2	0	2
ENCR2203	Mechanics of Materials	2	2	3
ENCR2204	Environmental Studies	2	0	2
ENEE2201	Electrical & Electronic Drawing & CAD	1	3	2
ENEE2202	Electric Circuit II (Nodal and mesh network theorems, power and power factor, power factor improvement, Balanced and unbalanced networks .Transient analysis of simple circuits: natural and forced response. Average power, power factor, power measurements, and three phase circuits’ power calculations Magnetically coupled circuits. Two port networks analysis, Introduction to network representation and analysis by computers).	2	3	3
ENEE2203	Logic Design II (1. Sequential Logic circuits, 2. Analysis of clocked Sequential Circuits, 3. Flip flop applications, 4. Shift registers, 5. Counters, 6. Clock-Control and Pulse-Mode Circuits, 7. Asynchronous Sequential Circuits, 8. Memory and Programmable Logic Devices (PLDs), 9. Clock-Control and Pulse-Mode Circuits, 10. Level-Mode Sequential Circuits).	2	3	3
ENEE2204	Electronic Devices	2	3	3
ENEE2205	Object Oriented Programming	1	2	2
Total		16	16	22

Third Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR3101	Mathematical Methods	2	0	2
ENCR3102	Complex Analysis	2	0	2
ENME3107	Thermodynamics and Heat Transfer	2	2	3
ENEE3101	Signal Analysis	2	2	3
ENEE3102	Electromagnetic Fields Theory I (1. Electric Field, 2. Theorem, Static Electric field, 3. Magnetic Field, 4. Maxwell’s Equations)	2	0	2
ENEE3103	Electronic Circuits I (1. Small signal Amplifiers, 2. Multi Stage Amplifiers, 3. Large Signal Amplifiers, 4. Feedback Amplifiers, 5. Oscillators)	2	3	3
ENEE3104	Electri. Measurem.& Instrumentation	2	3	3
ENEE3105	Computer Aided Network Analysis	1	4	2
ENEE3106	Electromechanical Energy Conversion	2	3	3
Total		17	17	23

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR3201	Numerical Analysis	2	0	2
ENCR3202	Probability and Statistics	2	0	2
ENEE3201	Microprocessor and Interfacing	2	4	3
ENEE3202	Electromagnetic Fields Theory II (1. Electromagnetic wave propagation, 2. Scattering, 3. Waves and Transmission Lines, 4. Green’s functions).	2	0	2
ENEE3203	Electronic Circuits II (1. IC Fabrication, 2. Operational Amplifiers, 3. Analog IC Application, 4. Phase Locked Loop and Timer, 5. System Design: Design of Sample and Hold circuits).	2	3	3
ENEE3204	Electric Power	2	2	3
ENEE3205	Introduction to Computer Networks	2	0	2
ENEE3206	Electrical machines	2	2	3
ENEE3207	Principles Telecommunications Systems	2	3	3
Total		18	14	23

Control and Instrumentation Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENEC4101	Sensor, Transducer and Data Acquisition	2	3	3
ENEC4102	Embedded System Design	2	3	3
Total		12	12	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENEC4201	Control system design	3	3	3
ENEC4202	Distributed Control Systems	2	3	3
ENEC4203	Intelligent Control system	2	3	3
ENEC4204	Digital signal Processing	2	3	3
Total		14	17	19

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEC5101	Project	0	0	0
ENEC5102	Advance control Design	2	3	3
ENEC5103	Adaptive control system	2	3	3
ENEC5104	Elective Course I (Depend on the selected course)	2	2	3
Total		6	8	9

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEC5201	Project	0	18	6
ENEC5202	Robotics	2	3	3
ENEC5203	Digital Image Processing	2	3	3
ENEC5204	Pneumatic and Hydraulic System	2	3	2
ENEC5205	Elective course II (Depend on the selected course)	2	2	3
Total		8	29	17

Power Systems and Machines Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENME4102	Fluid Mechanics and Machines	2	2	3
ENEP4101	Power System	2	2	3
Total		12	10	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENEP4201	Power System Analysis	2	3	3
ENEP4202	High Voltage Engineering	2	3	3
ENEP4203	Power System Automation	2	0	2
Total		11	11	15

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEP5101	Project	0	0	0
ENEP5102	Power Distribution and Utilization	2	2	3
ENEP5103	Electrical Machine Design	2	2	3
ENEP5104	Elective Course I (Depend on the selected course)	2	2	3
Total		6	6	9

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEP5201	Project	0	18	6
ENEP5202	Power System Operation and Control	2	2	3
ENEP5203	Renewable Energy	2	2	3
ENEP5204	Power System Protection	2	2	3
ENEP5205	Elective course II (Depend on the selected course)	2	2	3
Total		8	26	18

Telecommunication and Networks Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENET4101	Digital Communications	2	4	3
ENET4102	Fundamentals of Database Systems	2	3	3
Total		12	13	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENET4201	Advanced Computer Networks	2	3	3
ENET4202	Operating Systems	1	3	2
ENET4203	Antennas and Wave Propagations	2	3	3
Total		10	14	15

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENET 5101	Project	0	0	0
ENET 5102	Satellite Communication	2	2	3
ENET 5103	Mobile Communication Systems	2	2	3
ENET 5104	Microwave and Radar Engineering	2	3	3
ENET 5105	Elective course I (Depend on the selected course)	2	2	3
Total		8	9	12

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENET 5201	Project	0	18	6
ENET 5202	Optical Communication and Networking	2	3	3
ENET 5203	Computer Networks Administration	2	3	3
ENET 5204	Elective course II (Depend on the selected course)	2	2	3
Total		6	26	15

[:ar]

رئيس القسم: أ.نصرالدين بشير حسن

The study Plan

First Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBAL1101	Arabic Language Skills I	4	0	4
UBEL1102	English Language Skills I	4	0	4
UBEL1103	English Language Skills II	4	0	4
UBIC1104	Islamic Culture	2	0	2
UBSS1105	Sudanese Studies	2	0	2
UBUS1106	University Skills Studies	2	0	2
Total		18	0	18

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBAL1201	Arabic Language Skills II	2	0	2
UBEL1202	English Language Skills III	2	0	2
ENCR1201	Calculus I	2	0	2
ENCR1202	Basic Mathematics	2	0	2
ENCR1203	Physics I	2	3	3
ENCR1204	Chemistry	2	3	3
ENCR1205	Statics	2	2	3
ENCR1206	Introduction to Computer and Networks	1	3	2
ENCR1207	Introduction to Engineering	2	3	3
ENEE1201	Programming Fundamentals	1	3	2
Total		18	17	24

Second Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
UBEL2101	English Language Skills IV	2	0	2
ENCR2101	Calculus II	2	0	2
ENCR2102	Linear Algebra & Analytical Geometry	2	0	2
ENCR2103	Physic II	2	3	3
ENCR2104	Dynamics	2	2	3
ENCR2105	Engineering Drawing I (Geometrical Constructions, Tangency Constructions and Orthographic Projection)	1	6	3
ENCR2106	Material Science	2	3	3
ENEE2101	Electric Circuits I (1.Basic Concepts, 2. Basic Laws, 3.Methods Of Analysis, 4.Circuit Theorems, 5.Capacitors And Inductors, 6.Sinusoids And Phasors, 7. Ac Steady State Analysis, 8.Three Phase Circuits).	2	3	3
ENEE2102	Logic Design I (1.Numbers System, 2. Introduction to Boolean Algebra and Boolean theorems, 3. Logic gates, 4. Introduction to Physical Realization of logic gates and logic families, 5. Minimization of Boolean Functions, 6.Combinational Logic Circuits).	2	0	2
ENEE2103	Electrical workshop Technology	1	1	1
Total		18	18	24

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR2201	Function of Several Variables	2	0	2
ENCR2202	Ordinary Differential Equations	2	0	2
ENCR2203	Mechanics of Materials	2	2	3
ENCR2204	Environmental Studies	2	0	2
ENEE2201	Electrical & Electronic Drawing & CAD	1	3	2
ENEE2202	Electric Circuit II (Nodal and mesh network theorems, power and power factor, power factor improvement, Balanced and unbalanced networks .Transient analysis of simple circuits: natural and forced response. Average power, power factor, power measurements, and three phase circuits’ power calculations Magnetically coupled circuits. Two port networks analysis, Introduction to network representation and analysis by computers).	2	3	3
ENEE2203	Logic Design II (1. Sequential Logic circuits, 2. Analysis of clocked Sequential Circuits, 3. Flip flop applications, 4. Shift registers, 5. Counters, 6. Clock-Control and Pulse-Mode Circuits, 7. Asynchronous Sequential Circuits, 8. Memory and Programmable Logic Devices (PLDs), 9. Clock-Control and Pulse-Mode Circuits, 10. Level-Mode Sequential Circuits).	2	3	3
ENEE2204	Electronic Devices	2	3	3
ENEE2205	Object Oriented Programming	1	2	2
Total		16	16	22

Third Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR3101	Mathematical Methods	2	0	2
ENCR3102	Complex Analysis	2	0	2
ENME3107	Thermodynamics and Heat Transfer	2	2	3
ENEE3101	Signal Analysis	2	2	3
ENEE3102	Electromagnetic Fields Theory I (1. Electric Field, 2. Theorem, Static Electric field, 3. Magnetic Field, 4. Maxwell’s Equations)	2	0	2
ENEE3103	Electronic Circuits I (1. Small signal Amplifiers, 2. Multi Stage Amplifiers, 3. Large Signal Amplifiers, 4. Feedback Amplifiers, 5. Oscillators)	2	3	3
ENEE3104	Electri. Measurem.& Instrumentation	2	3	3
ENEE3105	Computer Aided Network Analysis	1	4	2
ENEE3106	Electromechanical Energy Conversion	2	3	3
Total		17	17	23

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR3201	Numerical Analysis	2	0	2
ENCR3202	Probability and Statistics	2	0	2
ENEE3201	Microprocessor and Interfacing	2	4	3
ENEE3202	Electromagnetic Fields Theory II (1. Electromagnetic wave propagation, 2. Scattering, 3. Waves and Transmission Lines, 4. Green’s functions).	2	0	2
ENEE3203	Electronic Circuits II (1. IC Fabrication, 2. Operational Amplifiers, 3. Analog IC Application, 4. Phase Locked Loop and Timer, 5. System Design: Design of Sample and Hold circuits).	2	3	3
ENEE3204	Electric Power	2	2	3
ENEE3205	Introduction to Computer Networks	2	0	2
ENEE3206	Electrical machines	2	2	3
ENEE3207	Principles Telecommunications Systems	2	3	3
Total		18	14	23

Control and Instrumentation Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENEC4101	Sensor, Transducer and Data Acquisition	2	3	3
ENEC4102	Embedded System Design	2	3	3
Total		12	12	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENEC4201	Control system design	3	3	3
ENEC4202	Distributed Control Systems	2	3	3
ENEC4203	Intelligent Control system	2	3	3
ENEC4204	Digital signal Processing	2	3	3
Total		14	17	19

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEC5101	Project	0	0	0
ENEC5102	Advance control Design	2	3	3
ENEC5103	Adaptive control system	2	3	3
ENEC5104	Elective Course I (Depend on the selected course)	2	2	3
Total		6	8	9

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEC5201	Project	0	18	6
ENEC5202	Robotics	2	3	3
ENEC5203	Digital Image Processing	2	3	3
ENEC5204	Pneumatic and Hydraulic System	2	3	2
ENEC5205	Elective course II (Depend on the selected course)	2	2	3
Total		8	29	17

Power Systems and Machines Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENME4102	Fluid Mechanics and Machines	2	2	3
ENEP4101	Power System	2	2	3
Total		12	10	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENEP4201	Power System Analysis	2	3	3
ENEP4202	High Voltage Engineering	2	3	3
ENEP4203	Power System Automation	2	0	2
Total		11	11	15

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEP5101	Project	0	0	0
ENEP5102	Power Distribution and Utilization	2	2	3
ENEP5103	Electrical Machine Design	2	2	3
ENEP5104	Elective Course I (Depend on the selected course)	2	2	3
Total		6	6	9

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENEP5201	Project	0	18	6
ENEP5202	Power System Operation and Control	2	2	3
ENEP5203	Renewable Energy	2	2	3
ENEP5204	Power System Protection	2	2	3
ENEP5205	Elective course II (Depend on the selected course)	2	2	3
Total		8	26	18

Telecommunication and Networks Specialization

Fourth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4101	Engineering Economics	2	0	2
ENEE4101	Power Electronics	2	3	3
ENEE4102	Automatic Control Systems I (Definition and properties of Fourier series. Fourier integral theorem, Fourier sine, cosi and Basic control theory, open and close loop systems, transfer function and mathematical representation model and design of systems. The time response and its transient and steady state analysis. Bode and root locus analysis. NYQUIST diagram, system stability analysis and block diagram study of zero input response. The study of the total system response and all simplification methods. The last is signal flow diagram).	2	3	3
ENEE4103	Presentation and Communication Skills	2	0	2
ENET4101	Digital Communications	2	4	3
ENET4102	Fundamentals of Database Systems	2	3	3
Total		12	13	16

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENCR4201	Engineering Management	2	2	3
ENEE4201	Research Methodology	1	0	1
ENEE4202	Automatic Control Systems II (The State-space method: state equations, flow graphs, stability. Compensation techniques. Sampled-data systems: z-transform, stability. Sampled data systems, discrete signals and sampling, discrete transfer functions, digital to analog conversion. Discrete equivalents for continuous controller discrete models for Sampled data systems, pulse transfer functions for feedback systems, stability of digital control systems, direct digital design by transform methods).	2	3	3
ENET4201	Advanced Computer Networks	2	3	3
ENET4202	Operating Systems	1	3	2
ENET4203	Antennas and Wave Propagations	2	3	3
Total		10	14	15

Fifth Year

Semester 1

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENET 5101	Project	0	0	0
ENET 5102	Satellite Communication	2	2	3
ENET 5103	Mobile Communication Systems	2	2	3
ENET 5104	Microwave and Radar Engineering	2	3	3
ENET 5105	Elective course I (Depend on the selected course)	2	2	3
Total		8	9	12

Semester 2

Course Code	Course Name	Contact Hours		Credit Hours
Course Code	Course Name	Theory	Practical	Credit Hours
ENET 5201	Project	0	18	6
ENET 5202	Optical Communication and Networking	2	3	3
ENET 5203	Computer Networks Administration	2	3	3
ENET 5204	Elective course II (Depend on the selected course)	2	2	3
Total		6	26	15

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The Senate

Vice-Chancellor’s Message

Vice-chancellor CV

Vice-chancellor Office

The vice-chancellor

The deputy vice-chancellor

The principal

Secretary of Scientific Affairs

Academic Affairs