Level: Undergraduate/Third  Nineveh University College of Electronics 

Engineering Academic Year: 2016‐2017 

Lecturer:  Dr Saad Daoud Al‐Shamma

Department: All Departments.  Email: saaddaoud2003@yahoo.com 

Subject: Digital Signal Processing   No. of hrs/week: 2+1  

Prerequisites: SIGNALS AND SYSTEMS AND MATLAB 

Course Description: In this course, a detailed understanding of basic digital signal processing operations including Sampling and Reconstruction of continuous time signals, anti‐aliasing filter ,anti‐image filter Characterization and properties of discrete time signals and systems, Computation of the discrete Fourier transform and its properties, Fast Fourier transform algorithms, The Z‐transform and its properties, Transform analysis of linear time invariant systems, Implementation of structures for discrete time systems, Digital filter design techniques(FIR and IIR) with some  Applications of DSP   

Course Objectives (Learning Outcomes): By the end of this course, students should be able to: 

Understand origins of  sampling theorem  Identity  properties  of  discrete‐time  signals  and  systems  such  as  time‐invariance,  stability, 

causality, and linearity.  Evaluate the discrete Fourier transform (DFT) of a sequence, relate it to the DTFT, and use 

the DFT to compute the linear convolution of two sequences.  Compute the z‐transform of a sequence, identify its region of convergence, and compute the 

inverse z‐transform and evaluate the transfer function of linear time‐invariant systems and to identify the corresponding zeros and poles. 

Design and  implementation of digital filters (FIR and IIR)  How to use of digital signal processing concepts in some selected applications  

Textbook and Software: 

‐ Li Tan and Jean Jiang, “Digital Signal Processing Fundamentals and Applications” ‐ Emmanuel and Barrie “Digital Signal Processing –A practical Approach” 

Evaluation Profile: 

Quizzes/Homework’s/Attendance/Class participation/Assignments/Projects        10 % Semester I Exam                                 ___________________________ _______    15 %      Semester II Exam                                _________________________    ___ ____    15 %                        Final Exam  _____________  ____________________                                60 %                                                         100% 

Attendance: 

As per University’s rules and regulation 

Semester I 

Week  Date  Material  Readings  Exams 1    Reviews of signal and systems

2    Sampling theorem and its effect on the spectrum ,anti-aliasing filter

3    Reconstruction of analog signal ( ideal and ZOH reconstruction ) with effect on frequency response ,anti-image filter

4    discrete signal and systems

5    Digital convolution

6    Discrete time Fourier transform(DTFT),discrete Fourier transform(DFT)

Quiz 1

7    Fast Fourier transform(FFT)

8    z-transform basics and mapping with Laplace transform

9    z-transform and frequency response estimation

10    z-transform and poles-zeros description of digital system

11    Inverse z- transform using inspection and partial fraction methods

Quiz 2

12    Inverse z- transform using long division

13    Inverse z-transform with MATLAB

14    Inverse z-transform and impulse system response

15    Reviews with examples

16   

االمتحانات النهائية/مقررات النظام الفصلي االمتحانات نصف السنوية/مقررات النظام السنوي

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18   

19   

العطلة الربيعية20   

 

 

Semester II 

Week  Date  Material  Readings  Exams 1    Digital filters introduction

and representation

2    FIR filter –key

characteristics

3    Types of linear phase FIR filters

4    FIR design using Fourier transform design

5    FIR design using window method—frequency sampling method

  Quiz 3

6    FIR practical design  

7    IIR filter characteristics  

8    IIR filter design-Bilinear transformation method  

9    IIR filter design-low pass prototype transformation

Quiz 4

10    IIR filter design-using practical analog filters

11    IIR filter design-poles zeros method

12    IIR filter design-using impulse invariant method

13    FIR and IIR filters realization

14    Two dimensions digital signal processing with applications to Digital image processing

15    Reviews with examples

16    (الفصل االول) مقررات النظام الفصلي / االمتحانات النهائية مقررات النظام السنوي /االمتحانات النهائية 17   

18   

19     تصليح الدفاتر االمتحانية واعالن النتائج     العطلة الصيفية

 

 

Level: Undergraduate/Third  Nineveh University College of Electronics 

Engineering Academic Year: 2016‐2017 

Lecturer:  Dr Saad Daoud Al‐Shamma

Department: electronic and system and control. 

Email: saaddaoud2003@yahoo.com 

Subject: PLC  No. of hrs./week: 2+1  

Prerequisites: 

Microprocessor and microcontroller with basic programming language  

Course Description: In this course, a detailed understanding of basic PLC  including PLC architecture ,input output connection(discrete  and  analog ) ,standard PLC  programming  language with  emphases  on  ladder  and sequential flowchart(SFC),PLC timers  and  counters, PLC  program execution control, standard industrial communication  protocols (Modbus ) with  many  practical  examples and  projects    

Course Objectives (Learning Outcomes): By the end of this course, students should be able to: 

Identify and explain the purpose of the parts of a programmable logic controller 

Use basic PLC software to write, debug and troubleshoot ladder logic programs And sequential flow chart  

Develop and demonstrate programs showing how the timer and counter functions Are integrated to a PLC 

Properly use program control instructions 

Properly use math and data manipulation instructions 

Describe and use immediate input and output instructions 

Interface digital and analog devices to PLCs 

Explain the need and process for troubleshooting PLC controlled systems 

Prepare students for challenging industrial jobs in the engineering technology 

Textbook and Software: ‐ John and Frederic “Programmable Logic Controllers: Program Methods and Application “. ‐ L.A. Bryan and E. A. Bryan “Programmable  Controllers  : Theory and  Implementation “ ‐ PLC  Manuals  

 

Evaluation Profile: 

Quizzes/Homework’s/Attendance/Class participation/Assignments/Projects        40 %                               Final Exam  _____________  ____________________                                  60 %                                                            100% 

Attendance: As per University’s rules and regulation 

 

Week  Date  Material  Readings  Exams 1    Introduction to PLC Hardware

2    PLC program execution

3    Discrete input and output PLC connection

4    Analog input and output PLC connection

5    Sensors and actuators

6    PLC programming Languages(IEC 1131) Examine 1

7    PLC Ladder Programming

8    PLC timers with examples and applications

9    PLC counters with examples and applications

10    PLC program execution control ( interrupt and subroutine)

11    PLC Data manipulation Examine 2

12    PLC arithmetic instructions

13    Sequential flow chart programming (SFC)

14    PLC industrial communication protocol ( Modbus)

15    Reviews and project

16   

 االمتحانات النهائية17   

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Level: Undergraduate/ Second and third year Ninevah University

College of Electronics Engineering

Academic Year: 2016-2017

Lecturer: Ahmed Abdulbari Jasim

Departments: Communication (2nd),

Comp. & info. (2nd), Electronics (3rd) & Sys. & Cont. (3rd)

Email: ahmed.comm86@gmail.com

Subject: CE2301: Communication

Principles No. of hrs/week: 2+1

Prerequisites: CE1201: Basics Of Electrical Engineering, CE1203: Mathematics and CE1202:

Physical Electronics.

Course Description: The objective of this course is to introduce fundamental concepts of

communication principles. It is designed to broaden the knowledge and to understand the foundation of transmission lines as well as analog communications. This course gives an introduction on the main parts of a communication system, which are: transmitter, receiver and communication channel. Furthermore, it provides an overview of communication systems types, such as satellite, RADAR and mobile communication. This course covers transmission lines subject including: types of transmission line, graphical solution of line equations and transmissions lines applications. Additionally, it focuses on Amplitude modulation and Angle modulation theory and circuits. Finally, performance of communication system in the presence of noise is also considered.

Course Objectives (Learning Outcomes): Upon completing this course, students will be able to:

Describe and examine basic principles of Communication Engineering.

Understand and evaluate the effect of low and high frequencies on transmission lines.

Identify and analyze analog communication systems.

Produce and compare amplitude modulated signals and angle modulated signals.

Understand the impact of noise on communication systems, and on amplitude and frequency modulation.

Textbook and Software: أساسيات االتصاالت د.سامي عبد الموجود د.خليل حسن سيد مرعي د.بايز السليفاني

"Introduction to Communication System" By Stremler

"Introduction to Analog & Digital Communication System" By Haykin

MATLAB software.

Evaluation Profile:

Quizzes/Homeworks/Attendance/Class participation/Assignments/Projects 10 % Semester I Exam ___________________________ _______ 15 % Semester II Exam _________________________ ___ ____ 15 % Final Exam _____________ ____________________ 60 % 100%

Attendance:

As per University’s rules and regulation

Semester I

Week Date Material Readings Exams 1 Oct. 2-8 Introduction to communication

systems.

2 Oct. 9-15 Transmissions lines equations.

3 Oct. 16-22 Pulses on lines، space- time diagrams.

4 Oct. 23-29 Sinusoidal waves on transmissions

line.

5 Oct. 30-Nov. 5 Graphical Solution of line

equations; Crank diagram; Smith

Chart.

6 Nov. 6-12 Lossless and lossy lines.

7 Nov. 13-19 Transmissions lines applications;

impedance matching، λ/4.

8 Nov. 20-26 Transformers، stub matching. Quiz 1

9 Nov. 27-Dec. 3 Introduction to amplitude

modulation. Modulation Index.

10 Dec. 4-10 Application in MATLAB. (LAB)

11 Dec. 11-17 Spectrum of AM signal.

12 Dec. 18-24 DSB، DSB/ SC. SSB and VSB signals.

13 Dec. 25-31 Amplitude Modulators، Balanced

modulator.

Quiz 2

14 Jan. 1-7 Switching modulator SSB

generation.

15 Jan. 8-12 Application in MATLAB. (LAB)

16 Jan. 15-21

)الفصل االول( االمتحانات النهائية/مقررات النظام الفصلي االمتحانات نصف السنوية/مقررات النظام السنوي

17 Jan. 22-28

18 Jan. 29-Feb. 2

19 Feb. 5-11

العطلة الربيعية20 Feb. 12-18

Semester II

Week Date Material Readings Exams 1 Feb. 19-25 Detection of AM signals;

Envelope detectors،

synchronous detectors.

2 Feb. 26-Mar. 4 Introduction to frequency

modulation.

3 Mar. 5-11 Modulation Index، Spectrum of FM signals.

4 Mar. 12-18 NBFM and WBFM.

5 Mar. 19-25 Phase Modulation.

6 Mar. 26-Apr. 1 Relation between FM and

PM signals power in FM

signals.

7 Apr. 2-8 Frequency modulators.

8 Apr. 9-15 Direct and indirect

methods frequency

demodulators.

Quiz 3

9 Apr. 16- 22 Application in MATLAB.

(LAB).

10 Apr. 23-29 Energy and power signals.

Energy and power spectral

densities.

11 Apr. 30-May 6 Representation of thermal

noise.

12 May 7-13 Noise figure. correlation،

13 May 14-20 Noise in AM and FM

system.

Quiz 4

14 May 21-27 Pre emphasis and de

emphasis، Probability.

15 May 28-Jun. 1 Application in MATLAB.

(LAB).

16 Jun. 4- 10 (ثانيالفصل ال) مقررات النظام الفصلي / االمتحانات النهائية مقررات النظام السنوي /االمتحانات النهائية 17 Jun. 11-17

18 Jun. 18-24

19 Jun. 25-30 تصليح الدفاتر االمتحانية واعالن النتائج July 1-Aug. 31 العطلة الصيفية

Level: Undergraduate/Third  Nineveh University College of Electronics 

Engineering Academic Year: 2016‐2017 

Lecturer:  Dr Saad Daoud Al‐Shamma

Department: electronic and system and control. 

Email: saaddaoud2003@yahoo.com 

Subject: VHDL  No. of hrs./week: 2+1  

Prerequisites: 

Digital circuit design  

Course Description: In this course the basic constructs of VHDL (Very High Speed Integrated Circuit Hardware Description Language), such as Entity declarations, Architectures, Configurations, and Packages, are introduced and their relationship described. The basic concepts of modeling using Behavioral, Dataflow, and Structural models are also quickly introduced. . Identifiers and the data objects of constants, variables, and signals and their declarations are discussed. Next data types and subtypes along with the scalar types of enumeration, integer, floating point, and physical are discussed. The concept of the VHDL operators and finally the concepts of using functions, procedure   

 

Course Objectives (Learning Outcomes): By the end of this course, students should be able to: 

Understand how to describe a digital system using a Hardware Description Language.  

Model complex combinational logic in VHDL. 

Model complex sequential logic in VHDL including state machines and counters.  

Incorporate pre‐existing logic cores into your VHDL design.  

Understand the VHDL design flow including synthesis and place/route and its effect on timing. 

Perform logic simulations on your digital designs (pre and post synthesis)  

Prototype digital systems on an FPGA. 

Textbook and Software:  Volnei A. Pedroni “Circuit Design with VHDL” 

Xilinx ISE  Software   

Evaluation Profile: 

Quizzes/Homework’s/Attendance/Class participation/Assignments/Projects        40 %                               Final Exam  _____________  ____________________                                  60 %           

                                              100% 

Attendance: As per University’s rules and regulation 

 

Week  Date  Material  Readings  Exams 1    Introduction to VHDL

2    VHDL fundamental units (library ,entity and architecture )

3    VHDL Coding examples

4    VHDL Coding examples

5    VHDL data types

6    VHDL Operators and Attributes Examine 1

7    VHDL Concurrent code

8    VHDL sequential code

9    VHDL Signals and Variables

10    VHDL Packages and Components

11    VHDL functions and procedures Examine 2

12    VHDL RTL design

13    Behavioral and Structural Modeling

14    VHDL code simulation

15    Reviews and project

16   

 االمتحانات النهائية17   

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Level: Undergraduate/ Third Ninevah University College of Electronics

Engineering Academic Year: 2016-2017

Lecturer: زهراء صديق يحيى

Department: Electronic, Communication, Systems and Control Engineering Department

Email: z_alsaegh@yahoo.com

Subject: Electronic Instrumentation

No. of hrs/week: 2+1

Prerequisites: CE1201 Basics of Electrical Engineering, CE2302 Electronics

Course Description: This course will introduce students to the fundamental concepts of

measurements and various modern measuring instruments. Main objective of the course is to familiarize students about electrical devices and Measurement methods.

Course Objectives (Learning Outcomes): By the end of this course, students should be able to:

understand the basics of measuring instruments

analyze and evaluate the readings of measuring instruments

Textbook and Software: 1: “Electronic Instrumentation and Measurement Techniques” ByWillliam David Cooper and

Albert D. Helfrick. 2: Principles of Measurement systems By John P. Bentley 3: Electrical and Electronic Measurement by Ahmed A.Montaser and Karam A. sharshar 4: Electrical Measurement ،signal processing and display By J.Webster

Evaluation Profile:

Quizzes/Homeworks/Attendance/Class participation/Assignments/Projects 10 % Semester I Exam ___________________________ _______ 15 % Semester II Exam _________________________ ___ ____ 15 % Final Exam _____________ ____________________ 60 % 100%

Attendance:

As per University’s rules and regulation

Semester I

Week Date Material Readings Exams 1 Oct. 2-8 Introduction to Electronic

Instrumentation measurements

2 Oct. 9-15 Instrumentation Errors, Noise HW 1

3 Oct. 16-22 Transducers: Resistive, Capacitive

4 Oct. 23-29 Inductive. Active Transducers.

5 Oct. 30-Nov. 5 SIGNAL CONDITIONING:

Input signal modification, scaling of

measuring variables

6 Nov. 6-12 delay lines, noise Quiz 1

7 Nov. 13-19 signal averaging, interference,

8 Nov. 20-26 grounding, shielding, signal filtering,

9 Nov. 27-Dec. 3 signal correlation, current-mode

amplifier

HW 2

10 Dec. 4-10 SIGNAL CONVERSION:

Conversion by transducer bridge

11 Dec. 11-17 electronic multipliers

12 Dec. 18-24 signal generator, a.c to d.c signal

conversion

Quiz 2

13 Dec. 25-31 logic elements

14 Jan. 1-7 sample & hold, A/D and D/A signal

conversion

HW 3

15 Jan. 8-12 Isolation amplifier.

16 Jan. 15-21

)الفصل االول( النهائية/مقررات النظام الفصلي االمتحانات االمتحانات نصف السنوية/مقررات النظام السنوي

17 Jan. 22-28

18 Jan. 29-Feb. 2

91 Feb. 5-11

العطلة الربيعية20 Feb. 12-18

Semester II

Week Date Material Readings Exams 1 Feb. 19-25 INSTRUMENTATION AMPLIFIER:

Circuit design,

characteristics, CMMR.

2 Feb. 26-Mar. 4 ANALOG ELECTRONIC

INSTRUMENTS:

Analog voltmeter

HW 4

3 Mar. 5-11 multi-meter

4 Mar. 12-18 vector impedance meter

5 Mar. 19-25 frequency meter

6 Mar. 26-Apr. 1 distortion analyzer

7 Apr. 2-8 spectrum analyzer. Quiz 3

8 Apr. 9-15 DIGITAL INSTRUMENTS:

Digital indicator, voltmeter

(dual slop, multi-slop)

9 Apr. 16- 22 successive approximation, and

voltage to frequency

converter

HW 5

10 Apr. 23-29 ammeters, ohmmeters

11 Apr. 30-May 6 multi-meters

12 May 7-13 counters(frequency، frequency

ratio meter، time-interval

meter، energy meter)

Quiz 4

13 May 14-20 digital multiplexers,

microprocessor-based meters

14 May 21-27 INTERFACE BUSES: Parallel port

15 May 28-Jun. 1 RS-232, GPIB

16 Jun. 4- 10 (ثانيالفصل ال) مقررات النظام الفصلي / االمتحانات النهائية مقررات النظام السنوي /االمتحانات النهائية 17 Jun. 11-17

18 Jun. 18-24

19 Jun. 25-30 تصليح الدفاتر االمتحانية واعالن النتائج July 1-Aug. 31 العطلة الصيفية