#1
14th December 2014, 12:45 PM
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BSNL (JTO) TELECOM Syllabus
I am doing the preparation for the BSNL (JTO) telecom exam? So I am searching for the BSNL (JTO) telecom exam syllabus? Can you please tell me from where I can download this?
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#2
17th December 2014, 08:33 AM
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Re: BSNL (JTO) TELECOM Syllabus
You are asking for the BSNL (JTO) telecom exam syllabus. The BSNL (JTO) telecom exam is 3 hours duration exam. SCHEME A. Engineering Stream Section - I B. Engineering Stream Section - II C. General Ability Test Section - III 1. The standard of paper in Engineering subjects will be that of Engineering Degree Examination of an Indian University 2. In the general ability test, special attention will be paid to assess the candidate’s capacity for general awareness. The standard of paper in general ability test will be such as may be expected of an Engineering Graduate Here I am also uploading a file that contains the BSNL (JTO) telecom exam syllabus. you can download this from here. This is as follows: BSNL (JTO) telecom exam syllabus |
#3
19th May 2015, 04:42 PM
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Re: BSNL (JTO) TELECOM Syllabus
I am doing preparation of BSNL (JTO) TELECOM exam so I need its syllabus can any one please provide me this?
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#4
19th May 2015, 04:44 PM
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Re: BSNL (JTO) TELECOM Syllabus
Given below is the BSNL (JTO) TELECOM exam syllabus which you need BSNL (JTO) TELECOM Syllabus For Direct Recruitment of Junior Telecom Officers, an objective type Examination of 3 hours duration consisting of following sectional papers will be conducted: A. Engineering Stream Section - I B. Engineering Stream Section - II C. General Ability Test Section – III SYLLABUS SECTION - I (Telecom) 1. Materials and components Structure and properties of Electronic Engineering materials, Conductors, Semiconductors and Insulators, Magnetic, Ferroelectric, Piezoelectric, Ceramic, Optical and Superconducting materials. Passive components and characteristics, Resistors, Capacitors and Inductors; Ferrites, Quartz crystal, Ceramic resonators, Electromagnetic and Electromechanical components. 2. Physical Electronics, Electron Devices and ICs Electrons and holes in semiconductors, Carrier Statistics, Mechanics of current flow in a semiconductor, Hall effect; Junction theory; Different types of diodes and their characteristics; Bipolar Junction transistor; Field effect transistors; Power switching devices like SCRs, CTOs, power MOSFETs; Basics of ICs-bipolar, MOS and CMOS types; Basics of Opto Electronics. 3. Network theory Network analysis techniques: Network theorem, transcient and steady state sinusoidal response, Transmission criteria: delay and rise time Elmore’s and other definition, effect of cascading. Elements of network synthesis. 4. Electromagnetic Theory Transmission lines: basic theory, standing waves, matching applications, microstrip lines; Basics of waveguides and resonators; Elements of antenna theory. 5. Electronic Measurements and instrumentation Basic concepts, standards and error analysis; Measurements of basic electrical quantities and parameters; Electronic measuring instruments and their principles of working: analog and digital, comparison, characteristics, applications. Transducers; Electronic measurements of non-electrical quantities like temperature, pressure, humidity etc. Basics of telemetry for industrial use. 6. Power Electronics Power Semiconductor devices, Thyristor, Power transistor, MOSFETs, Characteristics and operation. AC to DC convertors; 1-Phase and 3-phase DC to DC Convertors. 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. SYLLABUS SECTION - I (Telecom) 1. Analog Electronic Circuits Transistor biasing and stabilization, Small Signal analysis. Power amplifiers. Frequency response, Wide band techniques, Feedback amplifiers. Tuned amplifiers. Oscillators. Rectifiers and power supplies. Operational Amplifier, other linear integrated circuits and applications. Pulse shaping circuits and waveform generators. 2. Digital Electronic Circuits Transistor as a switching element; Boolean algebra, simplification of Boolean functions, Karnaugh Map and applications; IC Logic gates and their characteristics; IC logic families: DTL, TTL, ECL, NMOS, PMOS and CMOS gates and their comparison; Combinational logic circuits; Half adder, full adder; Digital Compartor; Multiplexer Demultiplexer; ROM and their applications. Flipflops, R-S, J-K, D and T flip-flops; Different types of counters and registers; waveform generators. A/D and D/A convertors. Semiconductor memories. 3. Control Systems Transient and steady state response of control systems; Effect of feedback on stability and sensitivity, Root locus techniques; Frequency response analysis. Concepts of gain and phase margins; Constant-M and Constant-N Nichol’s Chart; Approximation of transient response from Constant-N Nichol’s Chart; Approximation of transient response from closed loop frequency response; Design of Control Systems, Compensators; Industrial controllers. 4. Communication systems Basic information theory: Modulation and detection in analogue and digital systems; Sampling and data reconstruction. Quantization & Coding; Time division and frequency division multiplexing; Equalisation; Optical Communication: in free space & fibre optic; Propagation of signals at HF, VHF, UHF and microwave frequency; Satellite communication. 5. Microwave Engineering Microwave Tubes and solid state devices, Microwave generation and amplifiers, Waveguides and other Microwave Components and Circuits, Microstrip circuits, Microwave antennas, Microwave Measurements, MASERS LASERS; Microwave Propogation. Microwave Communication Systemsterrestrial and satellite based. BSNL (JTO) TELECOM Syllabus 6. Computer Engineering Number Systems; Data representation; 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. Personal computers and their typical uses. 7. Microprocessors Microprocessor architecture - Instruction set and simple assembly language programming. Interfacing for memory and I/O. Applications of Microprocessors in Telecommunications and power system. SYLLABUS SECTION - III (Telecom) General ability test The candidate’s comprehension and understanding of General English shall be tested through simple exercises. Questions on knowledge of current events and of such matter of everyday observation and experience in their scientific aspects as may be expected of an educated person. Questions will also be included on events and developments in Telecommunications, History of India and Geography. These will be of a nature, which can be answered without special study by an educated person. BSNL JTO exam question paper Q.1 A house served by a 220V supply light, is protected by a Q.1 9-Ampere fuse. The maximum number of 60 W bulbs in parallel that can be turned on is (a) 11 (b) 33 (c) 22 (d) 44 Q.2 An n-channel JFET has I Q.2 DSS = 1 μA & VP =–5V. The maximum transconductance is (a) gm = 0.4 milli mho (b) gm = 0.04milli mho (c) gm = 0.04 mho (d) gm = 0.4 millimilli mho Q.3 The base to base resistance of a UJT is 6 K Ohm when the emitter Q.3 current is zero. If B1 R = 3.6 K Ohm, the intrinsic stand off ratio is (a) n = 0.66 (b) n = 0.6 (c) n = 6.0 (d) n = 3.6 Q.4 A capacitor of 1 Q.4 μF initially charged to 10 V is connected across an ideal inductor of 0.1 mH. The maximum current in the circuit is (a) 0.5 A (b) 1 A (c) 1.5 A (d) 2 A Q.5 Silicon has a preference in IC technology because Q.5 (a) it is an indirect semiconductor (b) it is a covalent semiconductor (c) it is an elemental semiconductor (d) of the availability of nature oxide SiO Q.6 Three equal resistance of magnitude 5 Ohm each are connected Q.6 in delta. The resistance between any two pair of terminals of the delta will be (a) 5 Ohm (b) 5/3 Ohm (c) 10/3 Ohm (d) 3/5 Ohm Q.7 The R.M.S. value of a half wave rectified sinusoidal alternating Q.7 current with peak value Im is (a) Im/1 (b) I/ 2 m (c) I /2 m (d) I 3 m Q.8 For a series resonant circuit, at the half power points,which of the following is true? (a) Current is half of the current at resonance. (b) Resistance is equal to the reactance. (c) The impedance is half the impedance at the resonance. (d) None of the above Q.9 The lossless line of characterstics impedance 300 Ohm is terminated in a pure resistance of 200 Ohm. The value of the standing wave ratio is (a) 1.5 (b) 0.67 (c) 1.0 (d) 1.25 Q.10 The transient current in lossless L-C circuit when excited from an AC source is, sine wave (a) Critically damped (b) Underdamped (c) Overdamped (d) Undamped Q.11 The values of L and C for a low pass filter with cut off frequency of 2.5 KHz and operating with a terminated load resistance of 450 Ohm are given by (a) 57.3 mH; 0.283 μF (b) 28.66 μH; 0.14 μF (c) 114.64 mH; 0.566 mF (d) 50.23 mH; 0.632 mF Q.12 The driving point impedance with poles at ω = 0(zero) and ω = ∞ (infinity) must have the (a) s term in the denominator and an excess term in the numerator (b) s term in the numerator and an excess term in the denominator (c) s term in the numerator and equal number of terms in the numerator and denominator (d) s term in the denominator and equal number of terms in the numerator and denominator Q.13 A transmission line is terminated at its characterstic impedance. The reflection coefficent is (a) 1 (b) –1 (c) 0 (d) ∞ |
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