2020 2021 Student Forum Syllabus of Indian Engineering Service Electronics and Communication Engineering

#1
2nd September 2014, 08:12 AM
 Unregistered Guest
Syllabus of Indian Engineering Service Electronics and Communication Engineering

Will you please share with me the syllabus of Indian Engineering Service Electronics and Communication Engineering?
#2
2nd September 2014, 12:02 PM
 Super Moderator Join Date: Apr 2013
Re: Syllabus of Indian Engineering Service Electronics and Communication Engineering

As you want to get the syllabus of Indian Engineering Service Electronics and Communication Engineering so here it is for you:

Paper I
1. EM Theory
Electric and magnetic fields. Gauss’s Law and Amperes Law. Fields in dielectrics, conductors and magnetic materials. Maxwell’s equations. Time varying fields. Plane-Wave propagating in dielectric and conducting media. Transmission lines.

2. ELECTRICAL MATERIALS
Band Theory, Conductors, Semi-conductors and Insulators. Super-conductivity. Insulators for electrical and electronic applications. Magnetic materials. Ferro and ferri magnetism. Ceramics, Properties and applications. Hall effect and its applications. Special semi conductors.

3. ELECTRICAL CIRCUITS
Circuits elements. Kirchoff’s Laws. Mesh and nodal analysis. Network Theorems and applications. Natural response and forced response. Transient response and steady state response for arbitrary inputs. Properties of networks in terms of poles and zeros. Transfer function. Resonant circuits. Threephase circuits. Two-port networks. Elements of two-element network synthesis.

4. MEASUREMENTS AND INSTRUMENTATION
Units and Standards. Error analysis, measurement of current, Voltage, power, Power-factor and energy. Indicating instruments. Measurement of resistance, inductance, Capacitance and frequency. Bridge measurements. Electronic measuring instruments. Digital Voltmeter and frequency counter. Transducers and their applications to the measurement of non-electrical quantities like temperature, pressure, flow-rate displacement, acceleration, noise level etc. Data acquisition systems. A/D and D/A converters.

5. CONTROL SYSTEMS
Mathematical modeling of physical systems. Block diagrams and signal flow graphs and their reduction. Time domain and frequency domain analysis of linear dynamical system. Errors for different type of inputs and stability criteria for feedback systems. Stability analysis using Routh-Hurwitz array, Nyquist plot and Bode plot. Root locus and Nicols chart and the estimation of gain and phase margin. Basic concepts of compensator design. State variable matrix and its use in system modelling and design. Sampled data system and performance of such a system with the samples in the error channel. Stability of Sampled data system. Elements of non-linear control analysis. Control system components, electromechanical, hydraulic, pneumatic components.

Paper II

1. ELECTRCIAL MACHINES AND POWER TRANSFORMERS
Magnetic Circuits - Analysis and Design of Power transformers. Construction and testing. Equivalent circuits. Losses and efficiency. Regulation. Auto-transformer, 3-phase transformer. Parallel operation.
Basic concepts in rotating machines. EMF, torque, Basic machine types. Construction and operation, leakage losses and efficiency.
B.C. Machines. Construction, Excitation methods. Circuit models. Armature reaction and commutation. Characteristics and performance analysis. Generators and motors. Starting and speed control. Testing, Losses and efficiency.
Synchronous Machines. Construction. Circuit model. Operating characteristics and performance analysis. Synchronous reactance. Efficiency. Voltage regulation. Salient-pole machine, Parallel operation. Hunting. Short circuit transients.
Induction Machines. Construction. Principle of operation. Rotating fields. Characteristics and performance analysis. Determination of circuit model. Circle diagram. Starting and speed control.
Fractional KW motors. Single-phase synchronous and induction motors.

2. POWER SYSTEMS
Types of Power Stations, Hydro, Thermal and Nuclear Stations. Pumped storage plants. Economics and operating factors.
Power transmission lines. Modeling and performance characteristics. Voltage control. Load flow studies. Optimal power system operation. Load frequency control. Symmetrical short circuit analysis. ZBus formulation. Symmetrical Components. Per Unit representation. Fault analysis. Transient and steady-state stability of power systems. Equal area criterion.
Power system Transients. Power system Protection Circuit breakers. Relays. HVDC transmission.

3. ANALOG AND DIGITAL ELECTRONICS AND CIRCUITS
Semiconductor device physics, PN junctions and transistors, circuit models and parameters, FET, Zener, tunnel, Schottky, photo diodes and their applications, rectifier circuits, voltage regulators and multipliers, switching behavior of diodes and transistors.
Small signal amplifiers, biasing circuits, frequency response and improvement, multistage amplifiers and feed-back amplifiers, D.C. amplifiers, Oscillators. Large signal amplifiers, coupling methods, push pull amplifiers, operational amplifiers, wave shaping circuits. Multivibrators and flip-flops and their applications. Digital logic gate families, universal gates-combination circuits for arithmetic and logic operational, sequential logic circuits. Counters, registers, RAM and ROMs.

4. MICROPROCESSORS
Microprocessor architecture-Instruction set and simple assembly language programming. Interfacing for memory and I/O. Applications of Micro-processors in power system.

5. COMMUNICATION SYSTEMS
Types of modulation; AM, FM and PM. Demodulators. Noise and bandwidth considerations. Digital communication systems. Pulse code modulation and demodulation. Elements of sound and vision broadcasting. Carrier communication. Frequency division and time division multiplexing, Telemetry system in power engineering.

6. POWER ELECTRONICS
Power Semiconductor devices. Thyristor. Power transistor, GTOs and MOSFETS. Characteristics and operation. AC to DC Converters; 1-phase and 3-phase DC to DC Converters; AC regulators. Thyristor controlled reactors; switched capacitor networks.
Inverters; single-phase and 3-phase. Pulse width modulation. Sinusoidal modulation with uniform sampling. Switched mode power supplies.
#3
15th February 2016, 03:14 PM
 Unregistered Guest
Re: Syllabus of Indian Engineering Service Electronics and Communication Engineering

Hii Buddy , Would you please Provide me Exam Pattern and Syllabus Information of Indian Engineering Service Electronics and Communication Engineering ?
#4
15th February 2016, 03:15 PM
 Super Moderator Join Date: Apr 2013
Re: Syllabus of Indian Engineering Service Electronics and Communication Engineering

Union Public Service Commission (UPSC) Conducts Engineering Services Examination as a Combined Competitive Examination for recruitment to the services or posts of Electrical Engineering, Civil Engineering, Mechanical Engineering, and Electronics and Telecommunication Engineering.

UPSC ESE/IES 2016

Important Dates

Date of Notification: 27 February, 2016
Last Date to Apply: 25 March, 2016
Date of Exam: 27 May 2016 (3 days exam)

Exam Pattern

The written exam Comprises of 2 Sections.

Section I consists of only objective type questions
Section II comprises conventional papers.

Both the papers Cover Entire Syllabus of the Relevant Engineering Disciplines .

Personality test of 200 marks is Conducted.

Section/Paper Duration Maximum Marks
Section I (Objective)
General Ability Test 2 Hours 200
Engineering Paper I 2 Hours 200
Engineering Paper II 2 Hours 200
Section II (Conventional)
Engineering Paper I 3 Hours 200
Engineering Paper II 3 Hours 200

Paper-1 Syllabus for Electronics & Telecommunication Engineering:

This part is for both objective and conventional type papers:

1) Materials and Components –

Materials and Components are the vertebral column of Electronics and Telecommunication zone. Electronic materials are at the central part of design, expansion of electronic component built-up at the same time electronic components are the empathy of electronic equipment hardware. New-fangled technologies used for trimness of electronic hardware a which are driven by innovations in progression technologies. This includes:-

Structure and properties of Electrical Engineering materials; Semiconductors , Conductors, and Insulators, Ferroelectric, magnetic,Piezoelectric, Optical, Ceramic and Super-conducting materials. Passive components and characteristics Capacitors , Resistorsand Inductors; Electromagnetic and Electromechanical components , Ferrites, Quartz crystal Ceramic resonators.

2) Physical Electronics, Electron Devices and ICs –
Physical electronics , various electronics devices, ICs form the core of Electronics and Telecommunication branch. This part includes
Electrons and holes in semiconductors, Mechanism of current flow in a semiconductor, Carrier Statistics, Hall effect; Different types of diodes and their characteristics; Junction theory; Bipolar Junction transistor; Power switching devices like GTOs, SCRs, power MOSFETS; MOS and CMOS types , Basics of ICs – bipolar; Field effect transistors; basic of Opto Electronics.

3) Signals and Systems –
A Signal is a description of how one parameter varies with another parameter whereas a system is a process that results an output signal when an input signal is given. This section includes
Classification of systems and signals; System modelling in terms of differential and difference equations; Fourier series; State variable representation; Fourier transforms and their application to system analysis; Convolution and superposition integrals and their applications; Laplace transforms and their application to system analysis; Z-transforms and their applications to the analysis and characterisation of discrete time systems; Correlation functions , Random signals and probability; Response of linear system to random inputs; Spectral density.

4) Network theory –
A network is a anthology of interrelated components. Analysis of network is the method of finding the currents through, voltages across every module in the network. There are diverse techniques for scheming these values .This includes
Network analysis techniques; transient response, Network theorems, steady state sinusoidal response; Tellegen’s theorem. Two port networks; Network graphs and their applications in network analysis; Z, Y, h and transmission parameters. Analysis of common two ports , Combination of two ports. Network functions : obtaining a network function from a given part , parts of network functions. Elements of network synthesis. Transmission criteria : Elmore’s and other definitions effect of cascading ,delay and rise time.

5) Electromagnetic Theory –
The electromagnetic force is considered to be one of the basic interactions in nature. This force is depicted by electromagnetic forces which has immeasurable physical instances along with the interface of particles charged electrically and the interface of uncharged magnetic force fields
This segment includes:-
Boundary value problems and their solutions; Laplace’s and Poisson’s equations; Analysis of magnetostatic and electrostatic fields; Maxwell’s equations; Transmission lines : basic theory, matching applications, standing waves, microstrip lines; Basics of wave guides and resonators; application to wave propagation in unbounded and bounded media; Elements of antenna theory.

6) Electronic Measurements and Electronic instrumentation –
Electronic Instrumentation and Measurements represents a inclusive handling of the operation, applications, performance and limitations of both analog and digital instruments. This includes
Basic concepts, standards and error analysis; Electronic measuring instruments and their principles of working : analog and digital, application , comparison, characteristics. Transducers; Measurements of basic electrical quantities and parameters; basics of telemetry for industrial use; Electronic measurements of non electrical quantities like pressure, temperature,humidity etc .

Paper-2 Syllabus for Electronics & Telecommunication Engineering :

This part is for both objective and conventional type papers:

1) Analog Electronic Circuits –
Analog electronics considered to be systems in electronics with a Continuous inconsistent signal .The word “analogue” describes the relative association amid current or voltage and a signal .This includes:-
Transistor biasing and stabilization. Power amplifiers. Frequency response. Small signal analysis. Feedback amplifiers. Wide banding techniques. Tuned amplifiers. Power supplies and Rectifiers. PLL, Op Amp, other linear integrated circuits and applications. Oscillators. Waveform generators and Pulse shaping circuits .

2) Digital Electronic Circuits –
Digital electronics circuits correspond to signals by distinct bands of analog level. All levels inside a band symbolize the identical signal status. This includes:-
Transistor as a switching element; Simplification of Boolean functions, Karnaguh map , Boolean algebra, and applications; IC logic families : DTL, ECL, TTL, NMOS, CMOS and PMOS gates and their comparison; Full adder , Half adder; IC Logic gates and their characteristics; Digital comparator; Multiplexer Demulti-plexer; Flip flops. J-K, R-S, T and D flip-flops; Combinational logic Circuits; Different types of registers and counters Waveform generators. Semiconductor memories.A/D and D/A converters. ROM an their applications.

3) Control Systems –
A control system is said to be a gadget or a lay down of devices that commands, manages, regulates the performance of supplementary systems. In industrial fabrication control systems are used. This includes:-
Transient and steady state response of control systems; Root locus techniques; Concepts of gain and phase margins: Constant-N Nichol’s Chart and Constant-M ; Effect of feedback on stability and sensitivity; Approximation of transient response from Constant-N Nichol’s Chart; Design of Control Systems, Compensators; Approximation of transient response from closed loop frequency response; Industrial controllers. Frequency response analysis.

4) Communication Systems –
It’s a collection of individual communication networks, relay stations,transmission systems and data terminal equipments which are interfaced together to form an integrated system. In communications system its subsystem are said to be a functional assembly of systems . This includes:-
Basic information theory; Sampling and data reconstructions; Modulation and detection in analogue and digital systems; Quantization & coding; Frequency division multiplexing and Time division ; Optical Communication : in free space & fiber optic; Equalization; Propagation of signals at VHF, HF, UHF and microwave frequency; Satellite Communication.

5) Microwave Engineering –
Microwave engineering deals with the study and planning of microwave components, circuits and systems. Elementary ideology are applied to design , analyze and measure techniques. This includes:-
Microwave Tubes and solid state devices, Waveguides and other Microwave Components and Circuits, Microwave generation and amplifiers, Microstrip circuits, Microwave Measurements, lasers ,Masers, Microwave Antennas; Microwave Communication Systems terrestrial and Satellite based. Microwave propagation.

6) Computer Engineering –
Computer engineering is a branch that integrates numerous fields of computer science necessary to build up computer software as well as hardware. Computer engineers are mainly concerned with hardware and software aspects of computing from design of computer , microprocessors and other circuit designs. This includes:-
Number Systems. Programming; Data representation; Elements of a high level programming language PASCAL/C; Control unit design; Fundamentals of computer architecture; Processor design; Use of basic data structures; I/o System Organisation , Memory organisation. Microprocessors : Architecture and instruction set of Microprocessors 8086 and 8085, Assembly language Programming. Personal computers and their typical uses.Microprocessor Based system design : typical examples.

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