Electronic and electrical engineering course chart
Electronic
Semester 1 
Units 
Semester 2 
Units 
General Mathematics I Physics I Physics II Persian Literature General English Language Training Introduction to Electrical Engineering Others 
3 3 3 3 3 1 2

General Mathematics II Differential Equations Theory of Electrical Circuits I Computer Programming Laboratory – Physics I Laboratory – Physics II General Workshop Sport I Others 
3 3 3 3 1 1 1 1 2 
Total 
18 
Total 
18 
Semester 3 
Units 
Semester 4 
Units 
Theory of Electrical Circuits II Engineering Mathematics Electromagnetics Electronics I Numerical Analysis Laboratory – Electrical Circuits Engineering Drawing Others Others 
2 3 3 2 2 1 1 2 2 
Electronics II Electrical Machines I Signal and Systems Analysis Digital Systems Design I Engineering Probability Electrical Workshop Sport II Others 
2 2 3 3 3 1 1 2 
Total 
18 
Total 
17 
Semester 5 
Units 
Semester 6 
Units 
Linear Control Systems Telecommunication Systems Analysis Analog Electronics Digital Systems Design II Solid State Electronics Laboratory – Electronical Circuits Laboratory – Digital Systems Design I Others 
3 3 3 3 3 1 1 2 
Telecommunicational Circuits Electrical Machines II Microprocessor Systems Desgin Pulse Circuits Laboratory – Linear Control Systems Laboratory – Analog Electronics Optional Others 
3 2 3 3 1 1 3 2 
Total 
19 
Total 
18 
Semester 7 
Units 
Semester 8 
Units 
Power Systems Analysis Laboratory – Digital Systems Design II Laboratory – Telecom Circuits Laboratory – Electrical Machines I Laboratory – Pulse Circuits Electrical Engineering English Language Optional Optional 
3 1 1 1 1 2 3 3

CMOS Integrated Circuits Engineering Economics Industrial Electronics Optional Project 
3 3 3 3 3

Total 
15 
Total 
15 
Control:
Semester 1 
Units 
Semester 2 
Units 
General Mathematics I Physics I Physics II Persian Literature General English Language Training Introduction to Electrical Engineering Others 
3 3 3 3 3 1 2

General Mathematics II Differential Equations Electrical Circuits I Computer Programming Laboratory – Physics I Laboratory – Physics II General Workshop Sport I Others 
3 3 3 3 1 1 1 1 2 
Total 
18 
Total 
18 
Semester 3 
Units 
Semester 4 
Units 
Electrical Circuits II Engineering Mathematics Electromagnetics Electronics I Numerical Analysis Laboratory – Electrical Circuits Engineering Drawing Others Others 
2 3 3 2 2 1 1 2 2 
Electronics II Electrical Machines I Signal and Systems Analysis Digital Systems Design I Engineering Probability Electrical Workshop Sport II Others 
2 2 3 3 3 1 1 2 
Total 
18 
Total 
17 
Semester 5 
Units 
Semester 6 
Units 
Linear control systems Principles of telecommunication systems Industrial Electronics Electrical machines2 Linear Algebra Digital systems1 lab

3 3 3 2 3 1

industrial control Digital systems 2 Digital control systems Modern control systems Industrial Electronics Lab Linear control systems Lab Electrical machines1 Lab

3 3 3 3 1 1 1

Total 
15 
Total 
15 
Semester 7 
Units 
Semester 8 
Units 
Instrumentation Digital systems 2 Lab Digital control systems Lab industrial control Lab Technical language Microprocessor System Design

3 1 1 1 2 3 
Energy Systems Analysis1 Engineering Economics Project

3 3 3 
Total 
11 
Total 
9 
Power
Semester 1 
Units 
Semester 2 
Units 
General Mathematics I Physics I Physics II Persian Literature General English Language Training Introduction to Electrical Engineering Others 
3 3 3 3 3 1 2

General Mathematics II Differential Equations Electrical Circuits I Computer Programming Laboratory – Physics I Laboratory – Physics II General Workshop Sport I Others 
3 3 3 3 1 1 1 1 2 
Total 
18 
Total 
18 
Semester 3 
Units 
Semester 4 
Units 
Electrical Circuits II Engineering Mathematics Electromagnetics Electronics I Numerical Analysis Laboratory – Electrical Circuits Engineering Drawing Others Others 
2 3 3 2 2 1 1 2 2 
Electronics II Electrical Machines I Signal and Systems Analysis Digital Systems Design I Engineering Probability Electrical Workshop Sport II Others 
2 2 3 3 3 1 1 2 
Total 
18 
Total 
18 
Semester 5 
Units 
Semester 6 
Units 
Linear control systems Electrical machines3 Energy Systems Analysis 1 Electronic2 Digital systems1 Lab Electrical machines1 Lab Electronic Lab

3 3 3 2 1 1 1

Energy Systems Analysis2 Industrial Electronics Digital systems2 Insulators and strong pressure Electrical Installations Linear control systems Lab Electrical machines2 Lab

3 3 3 3 3 1 1

Total 
14 
Total 
17 
Semester 7 
Units 
Semester 8 
Units 
Principles of telecommunication systems Electric power generation Digital systems2 Lab Industrial Electronics Lab Power System Analysis Lab Technical language

3 3 1 1 1 2

Protection and relay Engineering Economics Project

3 3 3 
Total 
11 
Total 
9

Telecommunication
Semester 1 
Units 
Semester 2 
Units 
General Mathematics I Physics I Physics II Persian Literature General English Language Training Introduction to Electrical Engineering Others 
3 3 3 3 3 1 2

General Mathematics II Differential Equations Electrical Circuits I Computer Programming Laboratory – Physics I Laboratory – Physics II General Workshop Sport I Others 
3 3 3 3 1 1 1 1 2 
Total 
18 
Total 
18 
Semester 3 
Units 
Semester 4 
Units 
Electrical Circuits II Engineering Mathematics Electromagnetics Electronics I Numerical Analysis Laboratory – Electrical Circuits Engineering Drawing Others Others 
2 3 3 2 2 1 1 2 2 
Electronics II Electrical Machines I Signal and Systems Analysis Digital Systems Design I Engineering Probability Electrical Workshop Sport II Others 
2 2 3 3 3 1 1 2 
Total 
18 
Total 
18 
Semester 5 
Units 
Semester 6 
Units 
Linear control systems Principles of telecommunication systems Square and waves Digital systems2 Digital systems1 Lab 
3 3 3 3 1

communication circuits Electrical machines2 Microwave and Antenna Digital contacts Linear control systems Lab Technical language 
3 2 3 3 1 2

Total 
13 
Total 
17 
Semester 7 
Units 
Semester 8 
Units 
Energy Systems Analysis1 Digital systems2 Lab communication circuits Lab Digital contacts Lab Digital signal processing Telecommunication networks Electrical machines1 Lab

3 1 1 1 3 3 1

Wireless communication Engineering Economics Digital signal processing Lab Project 
3 3 1 3 
Total 
13 
Total 
10 
Undergraduate Course Descriptions:
Course Title: Electrical Circuits I
Credits/Hours: 48 / 3
Course Outline: Network graphKirchhoff's lawsLinear and nonlinear componentsDependent and independent sourcesnodal and mesh analysisAnalysis of resistor circuitsNorton's and Thevenin's theorems Equivalent resistanceSuperposition theoremOperational amplifierCapacitor and inductor RC, RL and RLC circuits Step responseImpulse responseTransient and steadystate responsesLinear timeinvariant circuitsConvolution integralSinusoidal steadystate analysisFrequency responseThreePhase circuits.
Prerequisite: Differential Equations, General Physics II
Course Title: Electrical Circuits II
Credits/Hours: 48 / 3
Course Outline: Coupling components and coupled circuits, nodal and mesh analysis, loop and cutset analysis, natural frequencies, system function and frequency response of LIT Networks, state equations Analysis, network analysis in frequency domain, network theorems (Reciprocity, Thevenin, Norton, substitution, superposition, Telegan), two port networks (Impedance, AdmiHance, Hybrid and Transmission Matrixes), Graph theory in network analysis, Laplace transform and its application in LIT networks.
Prerequisite: Electric Circuits I
Course Title: Industrial Electronics
Credits/Hours: 48 / 3
Course Outline: Introduction to power electronics, Power semiconductor devices : Diode, BJT, SCR, MOSFET, IGBT, DIAC, TRIAC, GTO, …, Rectifiers : Single phase, Three phase, Six phase, Controlled, Uncontrolled, Resistive load, Inductive load, Source inductance considerations, DCDC switching converters : Linear regulators, Basic converters Buck, Boost, BuckBoost, Cuk, Isolated Buck type converters: Forward, Dual switch forward, PushPull, Half bridge, Full bridge, Flyback converter, Snubber circuits : Turn on snubber, Turn off snubber, Inverters : Half bridge and Full bridge inverters with inductive and resistive loads, Three phase, inverters (120 degrees conduction, 180 degrees conduction), ACAC converters : Cycloconverters ACDCAC ,AC voltage controllers, Power electronics applications.
Prerequisite: Electronics II, Electric Machines I
Course Title: Electronics I
Credits/Hours: 48 / 3
Course Outline: N and P type semiconductors, current and voltage equations, diode equivalent circuit, diode circuit, halfwave and fullwave rectifiers, clipping circuits, clamping circuits, multipliers, transistors and their biasing, operating points for various transistor circuit configurations, low frequency and small signal equivalent circuits of transistors, single stage transistor amplifier, transistors in switching circuits, Multi – stage amplifiers.
Prerequisite: Electric Circuits I
Course Title: Electronics I Laboratory
Credits/Hours: 32 / 1
Course Outline: Familiarization with diodes and their voltampere characteristics, diode applications in rectifiers, diode applications as clipper ,clamper and limiter, voltage multipliers, familiarization with transistors, such as their types, measurement of leakage currents (ICBO,ICEO,ICES)and, input/output characteristics curves of transistors (such as PNP and NPN), determination of h parameters by transistor characteristics, investigation of active states of transistors (cutoff, saturation, operating point), transistor amplification in configurations of commonemitter, commoncollector and commonbase, Darlington amplifiers, two – stage amplifier, simple power supplies using Zener diode and transistors.
Prerequisite: Electronics I, Electric Circuits I Lab
Course Title: Electronics II
Credits/Hours: 48 / 3
Course Outline: Physics of FET transistor, FET bias and amplification circuits, power amplifiers, current sources, feedback in amplifiers, DC amplifiers, differential amplifiers, operational amplifiers, offset in OP Amps and its compensation, various linear and nonlinear applications of OP Amps , regulated power supplies.
Prerequisite: Electronics I
Course Title: Electric Machines I
Credits/Hours: 48 / 3
Course Outline: Magnetic circuits, magnetic field energy, force and torque in electromagnetic system, DC machines: machine construction, review and determination of electromotive force (emf), armature winding, armature reaction, compensating windings, types of machine excitations, load characteristics of motor and generators.Control of DC motors, loss and efficiency, parallel connection of DC generators, various applications of DC machines.
Prerequisite: Electromagnetic, Electric Circuits I
Course Title: Power System Analysis I
Credits/Hours: 48 / 3
Course Outline: Transmission line parameters (resistance, inductance, capacitance), transmission line models (distributed and simple model), per unit calculations, voltage  current relations in transmission lines, control of power flow on transmission line, distribution network and its calculations, an introduction to switching and lightning transients per unit calculations, systems modeling , load flow study using Gauss – Seidel method.
Prerequisite: Electric Machines II
Course Title: Electric Machines II
Credits/Hours: 48 / 3
Course Outline: Threephase transformers: transformer connection, transformer groups, study of noload and onload conditions, transformer performance in unsymmetrical systems, parallel operation of transformers, special transformers. Synchronous machines: construction and principles of operation, synchronous machines with flat and salient poles, types of windings and winding factors, vector diagram and operation of synchronous machines, two axis theory, saturation effects in machines with flat and salient poles, continuous and sudden short circuits, parallel operation of synchronous generators, power equation in terms of power angle, synchronous motors, Transient of synchronous machines performance.
Prerequisite: Electric Machines I
Course Title: Electric Machines III
Credits/Hours: 48 / 3
Course Outline: Threephase transformers: transformer connection, transformer groups, study of noload and onload conditions, transformer performance in unsymmetrical systems, parallel operation of transformers, special transformers. Synchronous machines: construction and principles of operation, synchronous machines with flat and salient poles, types of windings and winding factors, vector diagram and operation of synchronous machines, two axis theory, saturation effects in machines with flat and salient poles, continuous and sudden short circuits, parallel operation of synchronous generators, power equation in terms of power angle, synchronous motors, Transient of synchronous machines performance.
Prerequisite: Electric Machines II
Course Title: Electric Machines II Laboratory
Credits/Hours: 48 / 3
Course Outline: Parallel connection of transformers and load division, determination of transformer groups, investigation of on load and steady state of asynchronous machines (circle diagram), asynchronous machines, determination of efficiency of DC generators and DC motors.
Prerequisite: Electric Machines III, Electric Machines I Lab
Course Title: Special Machines
Credits/Hours: 48 / 3
Course Outline: Rotating fields in two phase machines single phase induction motors, starting of singlephase induction motors , universal motors, gaped pole motors, hysteresis motors, reluctance motors, repulsion motors, stepper motors, schrage, (metadyne, amplidyne, shunt motor with excitation from rotors), permanent magnet motors, brushless dc motors.
Prerequisite: Electric Machines III
Course Title: Relaying and Protection
Credits/Hours: 48 / 3
Course Outline: Protective relaying philosophy, protection components, circuit breakers, relays (classification, construction), current transformers, performance of current transformers in steady state, saturation conditions and their response to DC component of short circuit currents, voltage transformers and their performance, over current relays and their characteristics, applications and settings, coordination of overcurrent relays in transmission line protection, earth fault relays, directional relays, amplitude and phase comparators, distance relays (types, characteristics, performance, settings), coordination of distance relays in line protection, differential relays, transformer protection, generator protection, bus bars protection sequence filters.
Prerequisite: Power System Analysis II
Course Title: Power System Analysis II
Credits/Hours: 48 / 3
Course Outline: Oneline diagram of power systems and perunit quantities, the bus admittance and impedance matrices, load flow study using GaussSeidel and Newton Raphson methods, control of power into network, economic load dispatch, symmetrical fault analysis symmetrical components, unsymmetrical fault analysis, power system stability, loadfrequency control and voltage regulation (AVR) and interconnected areas.
Prerequisite: Power System Analysis I
Course Title: Electric Measurement Laboratory
Credits/Hours: 32 / 1
Course Outline: Study of galvanometer movement and determination of its parameters, methods of measurement of ohmic resistance, resistance of ground connection, capacitance, selfinductance and mutual inductance, range extension of the electrical measuring equipment, scaling and adjustment of electrical measuring equipment with the aid of potentiometers, measurement of power in electrical circuits (DC,AC,single phase, AC three phase), measurement of electric energy, error analysis, adjustment of counters, bridges, locating faults and measurement of cable insulation resistance, star connection with symmetrical and unsymmetrical loads, operating oscilloscopes and curve tracers and their application for tracing element characteristics.
Prerequisite: Electrical Instrumentation
Course Title: Electric Measurement
Credits/Hours: 48 / 3
Course Outline: Concepts and importance of electrical measurements, primary definitions, components of measurement systems, errors and error analysis, classification of measurement equipment, ordinary oscilloscope, recorders, analog measuring equipment (with permanent magnets, moving coils, moving soft iron, electrodynamics, inductive Ferro dynamic, electrostatic), DC/AC ammeters and voltmeters, methods of measuring very low and very high values of voltage and current, measuring equipment with multipliers, single and three phase, active and reactive power meters, measurement of resistance, capacitance, and inductance, Q meters, bridges and their applications, Electric calibration, transducers, digital measuring equipment.
Prerequisite: Electric Circuits I
Course Title: Linear Control Systems
Credits/Hours: 48 / 3
Course Outline: Feedback systems, definitions of stability, transfer functions F(S), zeros and poles of transfer functions and their representations in the coordinate systems (S plane), criteria of system efficiency in transient and stable states, kinds of systems, servomechanisms, controllers (such as O,PI,PD,PID)investigation of the stability of a system by the methods of root locus and Hurwitz, extended fractions, frequency response and Bode diagram, and M curves and their applications approximate methods for the reduction of high order systems, state space, control system design and compensators, analog modeling.
Prerequisite: Electric Circuits II, Systems Analysis
Course Title: Linear Control Systems Laboratory
Credits/Hours: 32 / 1
Course Outline: Familiarization with DC servo motors, position and speed feedback control systems. Designing Lead, Lag controllers for improvement of response of a position control system, Time – delay systems, implementation PID controller for the improvement of the response of a third order system. AC servo motor systems
Prerequisite: Linear Control Systems
Course Title: Electromagnetic
Credits/Hours: 48 / 3
Course Outline: Vector analysis, Coulomb's and Gauss' laws, electric potential, Laplace's and Poisson's equations, electrostatic fields in material media, electrostatic energy, electric current, Biot Savart's law, magnetic potentials, Faraday's law, magneto static fields In material media, magneto static energy, magnetic circuits, displacement current, Maxwell`s Equations .
Prerequisite: Calculus II, General Physics II
Course Title: Signals and Systems
Credits/Hours: 48 / 3
Course Outline: Primary definitions of systems and signal, various kinds of systems, introduction to modeling of various physical systems, analysis of linear and time independent (continuous and discrete) systems, impulse response, convolution integral, Fourier analysis, energy density, spectrum and power sampling theorem, system analysis by Laplace transform, signal flow graphs, system analysis in state space (continuous and discrete), Z transform, discrete systems analysis by the Z transform.
Prerequisite: Electric Circuits II, Engineering Mathematics
Course Title: Communications I
Credits/Hours: 48 / 3
Course Outline: Short description of an analog communication system, analysis of deterministic signals in frequency domain, analysis of random signals, noise in communication systems, white noise, noise temperature, noise bandwidth, signal transmission in base band, linear distortion, nonlinear distortion, analog modulation systems, analysis of linear modulations such as AM, VSB, DSB, and SSB, linear modulation and demodulation techniques also combined with FDM, nonlinear modulation techniques such as PM and FM, noise and interference effects on various types of modulation, pulse modulation, survey of sampling techniques for analog pulse modulations such as PAM, PPM, and PDM, familiarity with digital modulation systems such as FSK, PSK, and ASK.
Prerequisite: Engineering Probability and Statistics, signals and Systems
Course Title: Computer Principles
Credits/Hours:
Course Outline: An introduction to the structure of programming languages. Formal specification of syntax and semantics structure of algorithmic, list processing string manipulation, data description, and simulation languages basic data types operations statement types and program structure, macro languages and their implementation and runtime representation of programs and data.
Prerequisite: Calculus I
Course Title: Machine and Assembly Languages
Credits/Hours: 48 / 3
Course Outline: Reminding use of different units of computer, definition of register, introduction of its types and its application, concept of instruction format in machine language, types of instructions, different stages of instruction execution, methods of addressing (implied , immediate, direct, indirect, indexing, base, relocation, related to content of program counter, paging). Concept of relocation, instruction by registers, instruction by memory (manipulation of half word full word, bytes and bits), jump instructions and control of loop, logical instructions, dexinal manipulation, floating point manipulation subprograms, recursive subprograms, macros, trace and debugging of program, damping introduce assembly and its types.
Prerequisite: Computer Principles
Course Title: Logic Circuits
Credits/Hours: 48 / 3
Course Outline: Number systems, Boolean algebra and related rules, Logic functions and their reduction, Logic gates and logic families (such as RTL, DTL,TTL, ECL, CMOS). Combinatorial circuits (such as comparators, coders, code converters, combiners), Sequential circuits(such as flip flops, shift registers, counters, synchronous and Asynchronous logic circuits), study of various types of codes.
Prerequisite: Electronics I
Course Title: Logic Circuits Laboratory
Credits/Hours: 32 / 1
Course Outline: Logic gates, familiarization with several logic circuits and determination of parameters of digital IC's, Several combinational circuits (decoder, multiplexer, parity generators and checkers), displays, Study of types of flip flops, asynchronous counters, synchronous counters, familiarization with several IC counters, shift registers.
Prerequisite: Logic Circuits
Course Title: Computer Networks
Credits/Hours: 48 / 3
Course Outline: Introduction and Layered Architecture, Introduction to Physical Layer, Data Link Layer, MAC Sublayer, Network Layer and Routing, Transport Layer Concepts, Introduction to Application Layer
Prerequisite: Operating Systems
Course Title: Generation and Power Plant
Credits/Hours: 48 / 3
Course Outline: familiarity with all different power plant  a comprehensive description of how the several power plant generate electricity a detailed examination and comparison of their benefits and drawbacks
Prerequisite: Power System Analysis II, Electric Machines III
Course Title: General Persian Language Training
Credits/Hours: 48 / 3
Course Outline: Familiarizing to Persian literature and Persian poets.
Course Title: General English Language Training
Credits/Hours: 48 / 3
Course Outline: Familiarizing to English grammar and vocabulary.
Course Title: Islamic Thoughts I
Credits/Hours: 32 / 2
Course Outline: Familiarizing to the instructions of Islam.
Course Title: Islamic Thoughts II
Credits/Hours: 32 / 2
Course Outline: Familiarizing to the instructions of Islam.
Prerequisite: Islamic Thoughts I
Course Title: Physical Education I
Credits/Hours: 32 / 1
Course Outline: Physical Education and Training.
Course Title: Physical Education II
Credits/Hours: 32 / 1
Course Outline: Physical Education and Training.
Prerequisite: Physical Education I
Course Title: Analytical History of Islam
Credits/Hours: 32 / 2
Course Outline: Learning about Islam’s history.
Course Title: Family planning and Birth control
Credits/Hours: 32 / 1
Course Outline: Family planning allows people to attain their desired number of children and determine the spacing of pregnancies.
Course Title: Industrial drawing
Credits/Hours: 32 / 1
Course Outline: drawing complex sketch, drawing three dimensional sketch through observation of simple two dimensional sketches, drawing three dimensional pictures relating to industrial commodities
Course Title: Mathematics I
Credits/Hours: 48 / 3
Course Outline: Cartesian coordinates, Polar coordinates, Complex numbers, Derivative,Hyperbolic function, Integral, Mean value theorem, Application integration
Logarithm, Exponential function, Integration methods, Taylor's theorem,Taylor series
Course Title: Mathematics II
Credits/Hours: 48 / 3
Course Outline: Parametric equations, Spatial coordinates, Vector space, Matrix, System of linear equations, Invertible matrix, Linear independence, Linear map, Eigenvector,Vector function, Multivariable calculus function, Multiple integral, Cylindrical coordinate , Spherical coordinates
Vector field, Laplace transform, Green's theorem, Divergence, Stokes
Prerequisite: Mathematics I
Course Title: Physics I
Credits/Hours: 48 / 3
Course Outline: Balance, Motion in one dimension or two dimensions, work and energy, strike and Momentum, Rotation, Laws of thermodynamics, Kinetic theory of gases, entropy
Course Title: Physics II
Credits/Hours: 48 / 3
Course Outline: Electrical charge, Electrical Field, Gauss's law, Electric potential, Capacity, Electric current and electrical resistance, Circuits, Magnetic fields, Magnetic fields due to the electric field, Induction, Electromagnetic oscillations and alternating current, Electromagnetic waves, Familiarity with the duality of wave and particle
Course Title: Calculus
Credits/Hours: 48 / 3
Course Outline: The nature of differential equations and their solution, Family of curves and vertical paths, Detachable equation, Firstorder linear differential equation, Homogeneous equation, Second order linear differential equation, Application of secondorder equations, Solving Differential Equations with Series and Bessel Functions and Gamma, Legendre polynomial, An Introduction to Differential Equations, Laplace's application and its application in solving differential equations
Prerequisite: Mathematics II
Course Title: Engineering statistics and probabilities
Credits/Hours: 48 / 3
Course Outline: Reference to the theory of collections, samples and their table display with mean, faces, meanings, and variances, The transformation and combination of probabilities and related theorems, Continuous and discrete random variables, Mean and variance of binomial distributions, Common distribution of several random variables, Conditional distribution, Characteristic functions and torque generator, Central limit theorem, Markov's inequality, Functions of random variables, A reference to the statistics topic
Prerequisite: Mathematics II
Course Title: Engineering mathematics
Credits/Hours: 48 / 3
Course Outline: Fourier series and Fourier transform, Equations with partial derivatives, Analytic functions, Integrals of complex numbers, Linear integral in coordinates of complex numbers
Prerequisite: Mathematics II, Calculuss
Course Title: ESP (electricity)
Credits/Hours: 32 / 2
Course Outline: The content of the textbook of electrical engineering language includes grammar, word, and writing tips
Prerequisite: General English Language Training
Course Title: Engineering economics (electricity)
Credits/Hours: 48 / 3
Course Outline: Financial factors, Methods of engineering economics and their applications, Depreciation, Economic analysis after tax deduction, Replacement Analysis, Sensitivity analysis, Economic analysis in noneconomic conditions, Inflation and its application in the economics of engineering, Economic justification and price analysis in projects
Course Title: Project (electricity)
Credits/Hours:  / 3
Prerequisite: Passing at least 100 course credits
Course Title: Internship
Credits/Hours:  / 2
Course Outline: Attended for 8 weeks full time in a specialized company or department and writing a written report
Prerequisite: Passing at least 95 course credits
Course Title: Electrical insulators and high voltage
Credits/Hours: 48 / 3
Course Outline: Familiarity with technology of electrical insulators, Types of voltages and currents used in high voltage tests, Types of electric fields, Discharge in gases, Electrical discharge in liquid and solid insulators, Introduction of Insulation Standards
Prerequisite: Power System Analysis I
Course Title: Numerical computations
Credits/Hours: 32 / 2
Course Outline: Errors and mistakes, Interpolation and extrapolation, Finding roots of equations in different ways, Numerical derivation and integral, Numerical methods for solving differential equations, Operation on matrices and determination of special values, Solving linear and nonlinear equations
Prerequisite: Calculus, Computer Principles
Course Title: Islamic revolution of Iran
Credits/Hours: 32 / 2
Course Outline: Familiarity with the causes and factors of the emergence of the Islamic Revolution
And Review of the cultural, social and political developments of the Islamic revolution and the events after the revolution
Course Title: Analytical history of early Islam
Credits/Hours: 32 / 2
Course Outline: Familiarity with the emergence and spread of Islam
Course Title: Applied ethics
Credits/Hours: 32 / 2
Course Outline: Familiarity with Islam's ethical standards on the most important dimensions of everyday life in personal and social affairs.
Course Title: Topical interpretation of Qur’an
Credits/Hours: 32 / 2
Course Outline: Familiarity with the concepts of life in terms of the Quran in the form of thematic view
Course Title: Culture and civilization of Iran and Islam
Credits/Hours: 32 / 2
Course Outline: Familiarity with the formation of Islamic civilization in order to strengthen selfesteem and strengthen Islamic national identity
Course Title: Thermodynamics
Credits/Hours: 48 / 3
Course Outline: Introduction of Thermodynamics, Etymology, Branches of thermodynamics, Laws of thermodynamics,Conjugate variables, Applied fields
Prerequisite: Physics I
Course Title: Special issues (fundamental of computer)
Credits/Hours: 32 / 2
Course Outline: Boolean numbers and algebra, Familiarity with Computer Networks and the Internet, General familiarity with electrical engineering applications
Course Title: General workshop (electricity)
Credits/Hours: 32 / 1
Course Outline: Familiarity with the safety and health principles of workshops, Training to work with technical drawings, workshop equipment and equipment in machine tools, welding, modeling and casting
Course Title: Physics Lab I
Credits/Hours: 32 / 1
Course Outline: Check the condition of balance, Measuring the mass volume of solids and liquids, Review the swing motion rules in a simple pendulum, Measuring the latent heat of melting ice, Determining the latent temperature of evaporation of water, Determining the volumetric expansion coefficient of liquids, Determining the volumetric expansion coefficient of solids, analysis of thermometers and Making thermocouple, Determination of the thermal conductivity of solids
Prerequisite: Physics I
Course Title: Physics Lab.II
Credits/Hours: 32 / 1
Course Outline: Review of Ohm and Kirchhoff Laws, familiarity with measuring devices (Oscilloscope and etc.), Investigation of charge and discharge of capacitor in RC circuit with stair stimulation, Sustainable RC and RL circuit response to sinusoidal stimulation, Examining Lens and Faraday Laws, Review of the basis of the work of transformers, Ferromagnetic, The basis of the work of generators and electromotors, DC generator
Prerequisite: Physics II
Course Title: Power system analysis Lab I
Credits/Hours: 32 / 1
Course Outline: Practical experience of Power system analysis I
Prerequisite: Power system analysis I
Course Title: Electricity workshop (electronics)
Credits/Hours: 32 / 1
Course Outline: Lighting circuits, Circuits at home opener, Engine Start Circuit, More advanced control circuits with micro PLC, Control circuit in Parking, Field lighting circuit with optical sensor, Water tank control circuit by pump, Central Control Circuit Control of an apartment
Prerequisite: General workshop (electricity)
Course Title: Electric machines lab I
Credits/Hours: 32 / 1
Course Outline: Dc generator independent stimulation, Dc generator stimulate Shunt , Dc generator stimulate the series, Dc generator combination stimulation
, Dc engine stimulate shunt, Dc engine stimulate the series, Dc engine combination stimulation
Prerequisite: Electric machines I
Course Title: Electric machines lab II
Credits/Hours: 32 / 1
Course Outline: fullload test in single phase transformer, noload test in single phase transformer, Parallelling transformers, Synchronous motor experiments
Prerequisite: Electric machines II