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  #2  
16th August 2014, 01:34 PM
Super Moderator
 
Join Date: Apr 2013
Re: TNPSC pattern for Electrical Engineering

Tamilnadu Public Service Commission Electrical Engineering paper pattern is as given below:

Paper – I
Optional Subject

Paper – II
General Studies

Exam Syllabus and Pattern:

Paper-I:
Degree Standard -200 questions each (Objective Type),
300marks and
3hrs time

(i) Civil Engineering
(ii) Mechanical and Production Engineering
(iii) Electrical and Instrumentation Engineering
(iv) Textile Engineering
(v) Electronics and Communication Engineering
(vi) Chemical Engineering

Paper -II: (Objective Type)
Degree Standard-100 questions
2hrs,
200marks

General Studies

Interviews and Recored:
70 marks

Syllabus:

Unit –I Electrical Materials
Conductors, Semi-conductors and Insulators – Insulators for electrical and
electronic applications – Magnetic materials – Ferro and ferri magnetism – Properties and
applications – Dielectric materials – Optical materials – Optical properties of metals,
insulators and semiconductors – Photoconductivity – Special semi conductors – Superconductivity
Unit –II Electrical Circuits
Circuit elements – Kirchoff’s Laws – Mesh and nodal analysis – Network
Theorems and applications – Natural and forced response – Resonant circuits – Transient
and steady state response for arbitrary inputs – Transfer function – Two-port networks –
Elements of two-element network synthesis– Properties of networks in terms of poles and
zeros– Three phase circuits.
Unit –III Electro Magnetic Theory
Electric and Magnetic fields – Magnetic Circuits – Faraday’s law of Electro
Magnetic Induction – Gauss’s Law and Amperes Law – Fields in dielectrics – Maxwell’s
equations – Time varying fields – Plane wave propagating in dielectric and conducting
media – Pointing theorem – Transmission lines and Waveguides.
Unit –IV 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 – Telemetry system – Data acquisition
systems – A/D and D/A converters.
Unit –V 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 – Estimation of gain and phase margin – Basic concepts of
compensator design – State variable matrix – System modeling and design – Sampled
data system – Stability of sampled data system – Elements of non-linear control analysis
– Control system components, electromechanical, hydraulic, pneumatic components –
Programmable logic controllers – Distributed control systems.

Unit –VI Power Apparatus
D.C. Machines – Construction, Excitation methods – Armature reaction and
commutation – Characteristics and performance analysis – Generators and motors –
Starting and speed control – Testing – Losses and efficiency.
Analysis and Design of Power transformers – Construction and testing –
Equivalent circuits – Losses and efficiency – Regulation – Parallel operation – Threephase
transformers – Auto-transformer.
Induction Machines – Construction, Principle of operation – Rotating fields –
Characteristics and Performance analysis – Circle diagram – Starting and speed control –
Single-phase Induction motors – Linear Induction motors – Hysteresis motors –
Reluctance motors – Stepper motors.
Synchronous Machines – Construction – Operating characteristics and
Performance analysis – Efficiency and Voltage regulation – Parallel operation – V and
inverted V curves of synchronous motors – Power factor improvement.
Unit –VII Power systems
Types of Power Stations – Hydro, Thermal and Nuclear Stations – Pumped
storage plants – Economic 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.
Unit –VIII Analog and Digital Electronics
Semiconductor devices – PN junctions – Transistors – FET – Zener, Tunnel,
Schottky, Photo diodes and their applications – Rectifier circuits – Voltage regulators –
Multipliers – switching behavior of Diodes, Transistors, UJT, SCR, IGBT.
Biasing circuits – Small signal amplifiers – frequency response – Multistage
amplifiers – Coupling methods – Large signal amplifiers – Push-pull amplifiers – Feedback
amplifiers – Oscillators – Operational amplifiers – Precision rectifiers – Wave
shaping circuits.
Digital logic gate families – Universal gates – Combination circuits for arithmetic
and logic operations – Flip-flops – Multivibrators and their applications – Sequential
logic circuits – Counters – Registers – Memories.
Power Semiconductor devices – Thyristors – Power transistor – GTOs – Single
and three phase AC to DC Converters – Single and three phase AC to AC converters –
MOSFET and IGBT based DC to DC Converters and single and three phase inverters.
Pulse width modulation – Sinusoidal modulation with uniform sampling – Switched
mode power supplies – Speed control of DC and AC motors – Reactive power
compensation – Power factor improvement.

Unit –IX Microprocessors and Microcontrollers
Architecture of 8085, 8086, 8088, 8051 and 8097 – Instruction sets – Assembly
language programming – Interfacing for memory and I/O – Applications.
Unit –X Communication Systems
Types of modulation – AM, FM and PM – Demodulators – Noise and bandwidth
considerations – Digital communication systems – Pulse code modulation and
demodulation – Frequency division and time division multiplexing – Satellite
Communication – Fibre optic communication – Cellular mobile communication (Block
diagram treatment).
  #3  
24th December 2015, 10:52 AM
Unregistered
Guest
 
Re: TNPSC pattern for Electrical Engineering

Hii Guys , Here Will you please Provide me TNPSC Exam Eligibility and Exam Pattern Details for Electrical Engineering ?
  #4  
24th December 2015, 10:53 AM
Super Moderator
 
Join Date: Apr 2013
Re: TNPSC pattern for Electrical Engineering

The Tamil Nadu Public Service Commission is Published Combined Engineering Services Examination (CESE) .

Eligibility :

Candidates Should Possess Graduation Degree in Relevant Discipline of Engineering from Recognized University .

Exam Pattern :

Written Examination will be Conducted in Objective Type .

It is Consists of Two Papers.

Paper I will have the subjects in the Relevant Discipline of Engineering,

Time Duration : 3 Hours

Paper II will have Questions on General Studies,
Time Duration : 2 hours.

Selection Procedure:

Selection will be Made in two Successive Stages :

Written Examination in OMR Format and
Oral Test


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