BSNL JE Exam Pattern and Syllabus 2019

26 Sep, 2018

BSNL JE Exam Pattern and Syllabus 2019 – BSNL is an acronym that stands for Bharat Sanchar Nigam Limited and it will take the accountability of organizing the recruitment drive for BSNL JE 2019 for the position of Junior Engineer in the organization in the state of Jharkhand. Those candidates who satisfy the BSNL JE Eligibility criteria 2019 can fill the BSNL JE Application form 2019 and appear in the examination respectively. It will be a golden opportunity for those candidates who are seeking to work with a well-established Government organization. The BSNL JE Application form 2019 will be out from mid of the December month 2019. After the successful submission of the application form, all applying candidates should start preparing and to frame a working schedule candidates require BSNL JE Exam Pattern and Syllabus 2019. BSNL JE 2019 will take place written examination followed by interview round. Here, in this article, we have provided whole brief information regarding BSNL Exam Pattern and Syllabus 2019.

Overview Specification
Name of the organization BSNL( Bharat Sanchar Nigam Limited)
Position offered JE( Junior Engineer)
Number of vacancies offered Notify soon
Mode of Application Online
Category Central Government
Location PAN India
Selection procedure Written Examination Interview round
Mode of examination Online/offline
Official website

BSNL JE Exam Pattern 2019

BSNL JE Exam Pattern And Syllabus 2019 will help the candidates know the marking scheme, number of questions, and time duration. Candidates can evaluate the way to answer the question with the help of exam pattern.

    Before going to know the exam pattern, candidates are required to ponder over some important points:

    • Question booklet will be of multiple type questions.
    • All the specialization in the examination will be from syllabus only.
    • There will be three sections in the examination:
    1. General Ability test
    2. Basic Engineering
    3. Specialization
    • Total number of questions in the examination will be 200.
    • Each question will carry 1 mark. So, total number of marks will be 200.
    • There will be negative marking in the examination. 0.25 marks will get deducted for each wrong answer.
    • Duration of the examination will be 3 hours.

    Exam Pattern:

    Number of Papers


    Number of Questions

    Maximum Marks

    Time Duration

    Paper I

    General Ability Test



    3 Hours

    Paper II

    Basic Engineering



    Paper III




    BSNL JE Syllabus 2019

    Syllabus will help candidates to frame their respective schedule in a way that they will complete each topic on time.


    Volume and Surface Area.

    Time and Work.

    Time and Distance.

    Surds and Indices.

    Stocks and Shares.

    Square Root and Cube Root.


    Simple Interest.

    Ratio and Proportion.

    Races and Games.

    Problems on H.C.F and L.C.M.

    Problems on Ages.


    Pipes and Cistern.

    Permutation and Combination.




    Height and Distance.

    Decimal Fraction.

    Compound Interest.

    Chain Rule.

    Boats and Streams.

    Banker’s Discount.



    Allegation or Mixture.



    Statements & Conclusions.

    Statements & Arguments.

    Number Series.

    Number Ranking.

    Non-Verbal Series.

    Mirror Images

    Embedded Figures.


    Decision Making.

    Data Interpretation.

    Cubes and Dice.


    Clocks & Calendars.

    Blood Relations.

    Arithmetical Reasoning.


    Alphabet Series




    Spotting Errors.

    Sentence Improvement.

    Sentence Completion.

    Sentence Arrangement.


    Passage Completion.

    Para Completion.

    Joining Sentences.

    Idioms and Phrases.

    Fill in the blanks.

    Error Correction (Underlined Part).

    Error Correction (Phrase in Bold).


    Active Voice and Passive Voice.



    General Awareness



    Rivers, Lakes, and Seas.


    Inventions and Discoveries.

    Indian Politics.

    Indian Parliament.

    Indian History.

    Indian Economy.



    General Science.

    Famous Places in India.

    Famous Days & Dates.

    Famous Books & Authors.

    Environmental Issues.

    Current Affairs.

    Countries and Capitals.





    • Engineering.
    • Series & Parallel Connections.
    • Resistance, Voltage.
    • Rectifiers.
    • Power electronic components.
    • Oscillators.
    • Electronic Devices & Circuits: Regulated power supply, Thyristory and UJT, Motivation circuit, Time Base circuits, Block diagram of I.C. Timer and its working, Optoelectronic devices and its application, Tuned voltage amplifier, Transistor, Multistage transistor amplifier, MOSFET circuits applications, field effect transistor, single stage transistor, amplifier, classification of materials into conductor semiconductor, insulator etc, electrical properties, various types of relays, magnetic  material, switches and connector, conventional representation of electric and electronic circuit elements, Active and passive  components, semiconductor diode, Bipolar transistor and their circuits, transistor biasing stabilization of operating points, single stage transistor amplifier, field effect transistor, Audio power amplifier,  feedback in amplifier sinusoidal oscillators etc.
    • Electronic components.
    • Digital Techniques: ND and D/A converters, memories, shift registers, counters, latches and flip-flops, multiplexers and de-multiplexers, display devices and associated circuits, decoders, arithmetic circuits, codes and parity, logic simplification, logic gates, number system, applications and advantages of digital systems.
    • DC Machines & AC Machines
    • Basic Electricity: Coulombs law, Gauss theorem, electrostatics, electric field, concept of capacitors and capacitance, concept of potential difference, Ohm’s law, power and energy, Kirchhoff’s voltage, current laws and its application in DC circuit, electromagnetism, basic magnetism, electromagnetic induction, cells and batteries, voltage and current sources, Thevenin’s theorem, Norton’s theorem and its application.
    • Applied Physics: Atomic structure, energy levels, laser, and its applications, ultrasonic, acoustics, waves, measurement units, and dimensions.
    • Applied Mathematics: Partial Differentiation, complex number, Laplace transform, and differential equation of second order Fourier series, integral calculus, differential calculus, matrix and determinant, vector algebra, coordinate geometry.
    • Amplifiers


    1. Control Systems: Basic elements of control system, open and closed loop system, and concept of feedback Block diagram of control system, Transfer function of simple control components, single feedback configuration, Time lag, hysteresis, linearity concepts, Self-regulating and non-self regulating control systems, Time response of systems, Stability Analysis Characteristics equation, Routh Hurwitz criterion, root locus techniques, Bode plot, Power plot, Roth’s table, Relative stability, phase margin and gain margin, Nyquist criterion.
    2. Microprocessors: Typical organization of a microcomputer system & functions of its various blocks, Instruction format and Addressing mode, concept of Instruction set, programming exercises In assembly language, concept of Interrupt, Data transfer techniques – sync data transfer, interrupt driven data transfer, DMA, serial output data, serial input data, Architecture of a Microprocessors; Memories and I/O Interfacing, Brief idea of M/C assembly languages, Machines & Mnemonic codes.
    3. Instruments & Measurements: Specification of instruments – accuracy, precision, sensitivity, resolution range, forces & torque measuring devices, pressure measuring devices, flow, measuring devices, power control devices & circuits, Types of AC milli voltmeters- Amplifier rectifier and rectifier amplifier, Errors in measurements and loading effect, principles of voltage, current and resistance measurements, Transducers, measurement of displacement & strain, Block diagram explanation of a basic CRO and a triggered sweep oscilloscope, impedance Bridges and Q-Meters, front panel controls. Principles of working and specifications of logic probes, signature analyzer and logic analyzer, distortion factor meter, signal generator, and spectrum analyzer.
    4. Network, Filters & Transmission Lines: Concept of refection and standing waves on a transmission line, Transmission line equation, Principles of impedance matching, Bandwidth consideration of a transmission line, Two port network, Filters, Attenuators Transmission Lines and their applications, characteristic impedance of line.
    5. Communication:
    • Modulation and demodulation – principles and operation of various types of FM, PM and AM modulators/demodulators.
    • Pulse modulation – Multiplexing, Principles and applications of PCM; TDM, PAM, PPM, PWM.
    • Introduction of Basic block diagram of digital and data communication systems, coding error correction and detection techniques.
    • Digital Modulation Techniques – ASK, ICW, FSK, and PSK, Characteristics working of data transmission circuits, UART, USART, Modems, Protocols and their functions, brief idea of ISDN interfaces, local areas Network.
    • Carrier Telephony – Features of carrier telephone system.
    • Microwave Engineering, Microwave Antennas, Microwave Communication Systems- Block diagram & working principals of microwave communication link, Microwave, Devices, Wave-guides, and Microwave Components.
    1. Electrical: 3 phases vs. single-phase supply, All types of motor and generator-AC & CC transformers, starters, rectifiers, inverters, battery charges, batteries, servo and stepper motors, contactor control circuits, switch-gear, relays, protection devices & schemes, generator protection, transformer protection, feeder & lightening protection, feeder & bus bar protection, lightening arrestor, earthing, voltage stabilizer & regulators, power control devices & circuits, phase con rolled rectifiers, inverters, choppers dual converters, substation, protective relaying, circuits breaker, cycloconverters, 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, power electronics application in control of drivers, refrigeration & air-conditioning.
    2. Computer: Computer and its working, types of computers, Fundamentals of computer architecture, Processor design, Control unit design; memory organization. Microprocessors (microprocessor architecture, instruction set, and simple assembly level programming), l/o system organization. Familiarization with DOS and Windows-concept of file, folder, Number Systems, directory, Data representation, Programming ( Elements of a high level programming language, PASCAL, C, Use of basic data structures), Microprocessors based system design (typical examples, Personal computers and their typical uses, data communication principles, types and working principles of modems, Network principles, networking components, communications protocols -X.25, TCP/IP, 051 model, functions of data link layer and network layer, Database Management System ( Basic concepts, entity relationship model, relational model, DBMS based on relational model)).

    After having the full information of BSNL JE Exam Pattern and Syllabus 2019, candidates are ready to start their preparations for BSNL JE 2019. Start preparing for the exam from the very first day of filling the BSNL JE Application form 2019 because time will won’t wait. Make an effective schedule with considering BSNL JE Exam Pattern and Syllabus 2019 and follow it strictly. We wish you all great success.


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