Level:Undergraduate/Third Ninevah University College of Electronic
Engineering Academic Year: 2016-2017
Lecturer: خليل حسن سيد مرعي. د.أ
Department: Communication Eng. Email:[email protected]
Subject: CE3301 Microwave Engineering
No. of hrs/week:2+1
Course Description: This course will introduce students to the fundamental concepts underlying microwaves and their applications. Main objective of the course is to familiarize the students about the basic physical principles that govern the operation of various microwave devices. It will cover various passive devices, as well as actives ones. The applications of each device are explained. The emphasis is on studying and analyzing fundamental principles and uses of the microwave devices.
Course Objectives (Learning Outcomes): By the end of this course, students should be able to:
Understand the operation of microwave devices where the wavelength is comparable to the size of the device.
understand the basics of passive microwave devices such as; junctions, attenuators, phase shifters, isolators, detectors.
understand the basics of active microwave devices such as; two-cavity and reflex klystrons, magnetrons, TWT, Gunn diodes and transistors.
analyze and evaluate the performance of various microwave devices. understand and analyze the operation of various microwave circuits.
Textbooks: 1-“Microwave Circuits And Devices”, By S. Liao, 3 Rd Ed. 2- “Microwave Engineering”, By D. Pozar. 3-Lecture notes and handouts.
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 Review of Electromagnetic Theory:
Plane wave incidence on boundaries، reflection and
transmission.
Ref. 1;
Chapter 2
2 Oct. 9-15
3 Oct. 16-22 Wave Guides:
Rectangular and circular cross section wave
guides، Cavities.
Ref. 1;
Chapter 4
4 Oct. 23-29
5 Oct. 30-Nov. 5 Microwave Network Analysis Using S-
Parameters.
Ref. 1;
Chapter 4
6 Nov. 6-12 Quiz 1
7 Nov. 13-19 Passive Microwaves Components:
T and Magic T junctions، attenuators، Directional
couplers.
Ref. 1, PP
142-154; Ref.
2,
8 Nov. 20-26
9 Nov. 27-Dec. 3 Ferromagnetic Components:
Isolators، Phase shifters، Circulators.
Ref. 1; PP
156-166, Ref.
2, handouts
10 Dec. 4-10
11 Dec. 11-17 Quiz 2
12 Dec. 18-24 Problems of vacuum tubes at microwave
frequencies
Ref. 1;
pp.335-362
13 Dec. 25-31 Active Microwave Circuits:
Two-cavity Klystrons،
14 Jan. 1-7
15 Jan. 8-12 Review
16 Jan. 15-21
مقررات النظام الفصلي/االمتحانات النهائية مقررات النظام السنوي/االمتحانات نصف السنوية
17 Jan. 22-28
18 Jan. 29-Feb. 2
19 Feb. 5-11
Feb. 12-18 20 العطلة الربيعية
Semester II
Week Date Material Readings Exams 1 Feb. 19-25 Reflex Klystron Ref.1; 373-382
2 Feb. 26-Mar. 4
3 Mar. 5-11 Magnetrons Ref.1; 425-436
4 Mar. 12-18 TWT tubes. Ref.1; 373-392
5 Mar. 19-25 Quiz 3
6 Mar. 26-Apr. 1 Microwave Semiconductor Devices:
Detectors, Gunn diode other diodes,
and Transistors.
Ref. 1; Chapters
5 & 7
7 Apr. 2-8
8 Apr. 9-15 Microstrip and Striplines
Apr. 16- 22 Filters and Microwave Filters.
Ref. 2
10 Apr. 23-29
11 Apr. 30-May 6 Quiz 4
12 May 7-13 Microwave Amplifiers. Ref. 2
13 May 14-20 Microwave Oscillators. Ref. 2
14 May 21-27 Microwave Integrated Circuits. Ref. 2
15 May 28-Jun. 1 Review
16 Jun. 4- 10 (الفصل االول)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: All Departments. Email: [email protected]
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
17
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/ Ninevah University College of Electronics
Engineering Academic Year: 2016-2017
Lecturer: د. يونس محمود عبوش Department: Communication Email:[email protected] Subject: Digital Communication No. of hrs/week: 2+1
Prerequisites: Communication Principles Course Description: This course will introduce students to the fundamental concepts of digital communication and information. Main objective of the course is to familiarize students about different methods of digital modulation including the modern multi level techniques, the advantages and disadvantages of each method, and how to decrease the errors. Also this course is to familiarize the students about idea of information, how to measure it, and how to choose the coding method for best efficiency. Course Objectives (Learning Outcomes): By the end of this course, students should be able to:
• understand the basics of analog to digital conversion • understand how to detect errors in digital transmission and correct the errors • understand different digital modulation methods • estimate the error in different digital modulation method • understand basics of information and how to measure it • choose suitable coding method for best efficiency
Textbook and Software: 1:"Introduction to Communication Systems" 1992ByF.Stremler " 2: "Digital and analog communication" 2001ByL.W.Couch ( sixth edition )
Evaluation Profile:
UQuizzes/Homeworks/Attendance/Class participation/Assignments/Projects 10 % USemester I Exam ___________________________ ______15_ % USemester II Exam ____________________________ ___15_ % UFinal Exam _____________ ___________________60_% U 100%
Attendance:
As per University’s rules and regulation
Semester I
Week Date Material Readings Exams 1 Oct. 2-8 Introduction : Sampling Theory
2 Oct. 9-15 Pulse Modulation : PAM، PWM، PPM، TDM
3 Oct. 16-22 Pulse Modulation : PAM، PWM، PPM، TDM
4 Oct. 23-29 Error detection and error correction
5 Oct. 30-Nov. 5 Pulse Code Modulation (PCM)
6 Nov. 6-12 Delta Modulation ،
7 Nov. 13-19 compression and expansion techniques
8 Nov. 20-26 Error correction and detection
9 Nov. 27-Dec. 3 PCM- TDM
10 Dec. 4-10 Power Spectral Density of the Base Band Signal
11 Dec. 11-17 Power Spectral Density of the Base Band Signal
12 Dec. 18-24 Matched Filters
13 Dec. 25-31 Matched Filters
14 Jan. 1-7 Digital Modulation Techniques : Generation and detection circuits ، bandwidth calculation of the :ASK، FSK
15 Jan. 8-12 PSK، QPSK
16 Jan. 15-21
(الفصل االول)االمتحانات النهائية/مقررات النظام الفصلي Jan. 22-28 17 االمتحانات نصف السنوية/مقررات النظام السنوي
18 Jan. 29-Feb. 2 19 Feb. 5-11
Feb. 12-18 20 العطلة الربيعية
Semester II
Week Date Material Readings Exams 1 Feb. 19-25 ، DPSK ، DQPSK ، MSK ، GMSK ،
M-ASK ، M-FSK ،APK
2 Feb. 26-Mar. 4 Probability Of Error and channel efficiency of ASK
3 Mar. 5-11 FSK ، PSK
4 Mar. 12-18 DPSK ، QPSK
5 Mar. 19-25 DQPSK ، MSK
6 Mar. 26-Apr. 1 ، GMSK ، APK
7 Apr. 2-8 Comparison Between the Digital Modulation Techniques
8 Apr. 9-15 Comparison Between the Digital Modulation Techniques
9 Apr. 16- 22 Information Theory:
10 Apr. 23-29 Discrete probability theory: (random variable, probability mass function, joint probability mass function, conditional probability mass function, statistically independence,
11 Apr. 30-May 6 expected value (mean), variance, sample mean and Bay's rule)
12 May 7-13 Shannon's Information Measure: (information, mutual information, entropy, conditional entropy, chain rule for entropy and binary entropy function
13 May 14-20 Shannon's Information Measure: (information, mutual information, entropy, conditional entropy, chain rule for entropy and binary entropy function
14 May 21-27 Source coding:
15 May 28-Jun. 1 Source coding:
16 Jun. 4- 10 ثانياالمتحانات النهائية/مقررات النظام الفصلي (الفصل ال( Jun. 11-17 17 االمتحانات النهائية /مقررات النظام السنوي
18 Jun. 18-24 19 Jun. 25-30 تصليح الدفاتر االمتحانية واعالن النتائج
July 1-Aug. 31 العطلة الصيفية
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: [email protected]
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
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