Thursday, August 25, 2016

BSNL JE(TTA) QUESTION PAPER AND SYLLABUS

BSNL JE SYLLABUS

The  standard  of  paper  in  General  ability  test  will  be  such  as  may  be  expected  of  an Engineering Diploma holder. The standard of papers in other subjects will be approximately be that of Diploma level of Indian Polytechnic. There shall be  single  multiple choice objective type Paper of 3 hours duration as per details given below:-
Paper                                                  Marks                                           Time allowed
Part-I  :   General ability test                 20
Part-II  :    Basic Engineering                90                                                    3 hours
Part-III  :   Specialization                     90
Note: The candidate is required to obtain minimum qualifying marks in each of these parts as may be
prescribed by the BSNL.

PART-I:  GENERAL ABILITY TEST- 20 MARKS
`    The candidate’s comprehension and  understanding of General English shall be tested through simple exercise such as provision of antonyms and synonyms, fill in the blanks and multiple-choice exercises etc. This shall also include questions on current events, general knowledge and such matters of everyday observation and experience as may be expected of Diploma holder.

PART -II:  BASIC ENGINEERING- 90 MARKS
Detailed Syllabus is as under:
1. Applied Mathematics:  Co-ordinate Geometry; Vector Algebras, Matrix and Determinant;  Differential  calculus  ;  Integral  calculus,  Differential  equation  of  second  order;  Fourier Series; Laplace Transform; Complex Number; Partial Differentiation.

2.  Applied Physics:  Measurement-Units and Dimensions; Waves, Acoustics, Ultrasonic; Light; Laser and its Applications; Atomic Structure and Energy Levels.

3.  Basic  Electricity:  Electrostatics,  coulomb’s  law,  Electric  field,  Gauss’s  theorem,concept of potential difference; concept of capacitance and capacitors; Ohm ‘s law, power energy,  Kirchoff’s  voltage  and  current  laws  and  their  applications  in  simple  DC  circuits; Basic  Magnetism;  Electro  Magnetism;  Electromagnetic  induction;  Concept  of  alternating voltage & current; cells and Batteries ; Voltage and Current Sources; Thevenin’s theorem, Norton’s theorem and their applications.

4.  Electronics  Devices  and  Circuits:  Classification  of  materials  into  conductor  ,semiconductor, insulator etc. electrical properties, magnetic materials, various types of relays, switches  and  connectors.  Conventional  representation  of  electric  and  electronic  circuit elements.  Active  and  Passive  components;  semi  conductors  Physics;  Semi  Conductor Diode;  Bipolar  Transistor  &  their  circuits;  Transistor  Biasing  &  Stabilization  of  operating point; Single stage transistor amplifier; field effect transistor, Mosfet circuit applications.  Multistage Transistor Amplifier; Transistor Audio Power Amplifiers; Feedback in Amplifier; Sinusoidal  Oscillators;  tuned  Voltage  Amplifier;  Opto  Electronics  Devices  and  their applications; Operational Amplifier; wave shaping and switching circuits. Block diagram of I.C timer(such as 555) and its working; Multivibrator circuits; Time base circuits; Thyristors and UJT; Regulated Power Supply.

5.  Digital  Techniques:  Applications  and  advantages  of  digital  systems;  number system(binary  and  hexadecimal);  Logic  Gates;  Logic  Simplification;  Codes  and  Parity; Arithmetic  Circuits;  Decoders.  Display  Devices  and  Associated  Circuits;  Multiplexers  and De-multiplexers; Latches and Flip Flops; Counters; Shift Register; Memories; A/D and D/A converters.

PART-III: SPECIALIZATION-90 MARKS
Detailed Syllabus is as under:
1. Electrical: 3 phase vs single phase supply, Star Delta Connections, relation between phase & line voltage, power factor and their measurements; construction and principles of working of various types of electrical measuring instruments, all types of motor and generator-AC & DC transformers, starters, rectifiers, invertors, battery charges, batteries, servo and stepper motors,  contactor  control  circuits,  switch  gear,  relays,  protection  devices  &  schemes, substation, protection relaying, circuit breaker, generator protection, transformer protection, feeder  &  lightening  protection,  feeder  &  bus  bar protection,  lightening  arrestor,  earthing, voltage stabilizer & regulators, power control devices & circuits, phase controlled rectifiers, invertors,  choppers,  dual  converters,  cyclo  converters;  power  electronics  application  in control of drivers, refrigeration & air conditioning.

2.  Communication:  Modulation and demodulations-principles and operation of various types of  AM,  FM  and  PM  modulators/demodulators;  pulse  modulation-TDM,PAM,PPM,PWM; Multiplexing, Principles and applications of PCM. Induction of Basic block diagram of digital and data communication system; coding error detection  and  correction  techniques;  Digital  Modulation  Techniques-ASK,ICW,FSK,SK; Characteristics/working  of  data  transmission  circuits;  UART,USART;  Modems;  Protocols and  their  functions,  brief  idea  of  ISDN  interfaces,  local  area  Network;  Carrier  telephonyFeatures of carrier telephone system. Microwave  Engineering;  Microwave  Devices;  Waveguides;  Microwave  Components; Microwave  antennas;  Microwave  Communication  System-Block  diagram  &  working principles of microwave communication link.

3.  Network,  Filters  and  Transmission  Lines:  Two  point  network,  Attenuator;  Filters; Transmission  Lines  and  their  applications;  characteristic  impedance  of  line;  concept  of reflection and standing waves on transmission line; Transmission line equation; Principle of impedance matching; Bandwidth consideration of transmission line.

4.  Instruments  and  Measurements:  Specification  of  instruments-accuracy,  precision, sensitivity, resolution range. Error in measurement and loading effect; Principles of voltage, current and resistance measurement; Transducers, measurement of displacement & strain, force  &  torque  measuring  devices,   flow  of  measuring  devices,  power  control  devices  & circuits. Types of AC milli voltmeters-Amplifier rectifier amplifier: Block diagram explanation of  a  basic  CRO  and  a  triggered  sweep  oscilloscope,  front  panel  controls;  Impedance Bridges and Q-Meters. Principles of working and specification of logic probes, signal analyzer and logic analyzer, signal generator, distortion factor meter, spectrum analyzer.

5.  Control  Systems:  Basic  elements  of  control  system  ,  open  and  closed  loop  system, concepts  of  feedback.  Block  diagram  of  control  system,  Time  lag,  hysterisis  linearity concepts;  Self  regulating  and  non  self  regulating  control  systems.  Transfer  function  of simple control components, single feedback configuration. Time response of systems. Stability  Analysis;  Characteristics  equation.  Routh’s  table,  Nyquist  Criterion,  Relative stability, phase margin and gain margin. Robin  Harwitz  criterion;  Root  Locus  technique,  Bode  plot,  Polar  plot,  gain  margin  and phase margin.

6. Microprocessors: Typical organization of microcomputer system and functions of its various blocks, Architecture of a Microprocessor; Memories and I/O Interfacing; Brief idea of M/C & assembly languages, Machines and Mnemonic codes; Instructions format and Addressing mode;  concept  Instruction  set;  programming  exercises  in  assembly  language;  concept of interrupt; Data transfer techniques-sync data transfer, async data  transfer, interrupt driven data transfer, DMA, serial output data, serial input data.

7.  Computer:  Computers  and  its  working, types  of  computers, familiarization  with  DOS  and window-concept  of  file,  directory,  folder,  Number  Systems;  Data  Communication. Programming-Elements of a high level programming language, PASCAL, C; use of basic data  structures;  Fundamentals  of   computer  architecture,  Processor  design,  control  unit design;  Memory  organization.  I/O  System  Organization.  Microprocessor-microprocessor architecture, instruction set and simple assembly level programming. Microprocessor based system  design:  typical  examples.  Personal  computers  and  their  typical  uses,  data communication  principles,  types  and  working  principles  of  modems,  Network  principles, OSI  model,  functions  of  data  link  layer  and  network  layer,  networking  components;
communication protocol-x.25, TCP/IP. Database Management System-basic concepts, entity relationship model, relational model, DBMS based on relational model.

BSNL JE QUESTION PAPER


Link for question paper
BSNL JE(TTA)  QUESTION PAPER

Thanks
Regards
Veeru