3044: Electronic Devices & Circuits KL Diploma Syllabus for ECE 3rd Sem 2015 Revision SITTTR

Electronic Devices & Circuits detailed syllabus for Electronics & Communication Engineering (ECE) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the ECE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electronics & Communication Engineering 3rd Sem scheme and its subjects, do visit ECE 3rd Sem 2015 revision scheme. The detailed syllabus of electronic devices & circuits is as follows.

Course Outcomes:

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Specific outcome:

MODULE I TRANSISTOR AS AMPLIFIER

1. To comprehend the operations of transistor as an amplifier.
   1. To define load line.
   2. To draw AC and DC load lines.
   3. To define operating point.
   4. To explain the need for stabilization of operating point.
   5. To list the different transistor biasing circuits.
   6. To illustrate the behaviour of common emitter configuration with fixed and potential divider biasing.
   7. To explain the principles of operation of transistor amplifier in common emitter configuration.
   8. To derive the expression for voltage gain, current gain, power gain, input and output impedances of CE configuration.
   9. To define frequency response and bandwidth of an amplifier.
   10. To list the features and applications of emitter follower.
   11. To explain the working of emitter follower.
2. To understand the operation of multistage amplifiers.
   1. To identify the need of multistage amplifier.
   2. To explain the concept of multistage amplifiers.
   3. To list the different methods of interstage coupling.
   4. To explain the working principle of RC coupled, transformer coupled and direct coupled multistage amplifiers.
   5. To illustrate the frequency response of RC coupled, transformer coupled and direct coupled multistage amplifiers.
   6. To list the applications of RC coupled, transformer coupled and direct coupled multistage amplifiers.
   7. To compare the performance of the RC coupled, transformer coupled and direct coupled multistage amplifiers.

MODULE II TUNED AMPLIFIER AND POWER AMPLIFIER

1. To comprehend the operation of tuned voltage amplifiers.
   1. To explain series and parallel resonant circuits.
   2. To derive the expression for the resonant frequency of series and parallel circuits.
   3. To write the relation between resonance frequency, Q and bandwidth.
   4. To explain the operation and frequency response of single tuned amplifier.
   5. To list the applications of tuned amplifier.
2. To understand the operation of power amplifiers.
   1. To distinguish between voltage amplifier and power amplifier.
   2. To illustrate the importance of impedance matching in power amplifier.
   3. To classify power amplifiers.
   4. To explain the operation of single ended power amplifier.
   5. To state the importance of heat sinks and heat dissipation in power amplifiers.
   6. To explain the operation of class B push pull power amplifier.
   7. To list the advantages, disadvantages and applications of the push pull amplifier.

MODULE III FETS AND FEEDBACK AMPLIFIERS

1. To understand feedback amplifiers.
   1. To define positive and negative feedbacks in amplifiers.
   2. To derive the expression for the gain of feedback amplifier.
   3. To illustrate the types of negative feedback in amplifiers.
   4. To explain the operation of typical voltage and current feedback amplifier circuits.
   5. To explain the effects of negative feedback.
2. To understand UJT, FET and MOSFET.
   1. To explain the working principle of UJT.
   2. To explain the working of relaxation oscillator using UJT.
   3. To explain the working principle and construction of JFET.
   4. To compare BJT and JFET.
   5. To list different types of MOSFETs.
   6. To explain the working principle and construction of MOSFET (Depletion type only).

MODULE IV OSCILLATORS AND WAVE SHAPING CIRCUITS

1. To comprehend the working of oscillators.
   1. To explain the basic principle of operation of oscillators.
   2. To state the Barkhausen criterion for oscillation.
   3. To explain the working of RC phase shift oscillator.
   4. To explain the working of Wien Bridge oscillator.
   5. To list the applications of RC oscillators.
   6. To explain the basic principle of LC oscillators.
   7. To explain the working of Hartley and Colpitt’s oscillators.
   8. To list the applications of LC oscillator.
   9. To define piezoelectric effect.
   10. To explain the operation of Crystal oscillator.
   11. To list the advantages and applications of Crystal oscillator.
2. To understand the working of multivibrators and wave shaping circuits.
   1. To list the types of multivibrators.
   2. To explain the operation of Astable multivibrator with the help of circuit diagram and waveforms.
   3. To explain the working of Monostable multivibrator with the help of circuit diagram and waveforms.
   4. To explain the operation of Bistable multivibrator with circuit diagram and waveforms.
   5. To list the applications of multivibrators.
   6. To explain the working of Schmitt trigger with circuit diagram and waveforms.
   7. To define LTP and UTP.
   8. To describe the RC differentiating and Integrating circuits.
   9. To state the conditions for proper integration and differentiation.
   10. To list the applications of integrator and differentiator circuits.

MODULE I

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MODULE II

Tuned amplifier and power amplifier Series and parallel resonant circuits – expression for resonant frequency – relation between resonant frequency, Q and bandwidth – single tuned amplifier – operation, frequency response, applications -voltage amplifier and power amplifier – comparison – impedance matching in power amplifier -classification of power amplifiers – single ended power amplifier – class B push pull power amplifier -operation – advantages and disadvantages – applications – heat sinks and heat dissipation in power amplifiers

MODULE III

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MODULE IV

Oscillators and wave shaping circuits Oscillators – principle of operation – Barkhausen criterion for oscillation – RC phase shift oscillator – Wien Bridge oscillator – applications of RC oscillators – principle of LC oscillators – Hartley and Colpitts oscillators – applications of LC oscillator – piezo-electric effect – crystal oscillator – operation – advantages – applications – multivibrators – types – operation- waveforms – applications -Astable multivibrator -Monostable multivibrator – Bistable multivibrator – Schmitt trigger – LTP and UTP – RC differentiator and integrator – conditions for proper integration and differentiation – applications.

Text Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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Reference Books:

1. David A Bell Electronic Devices and Circuits PHI

For detailed syllabus of all other subjects of Electronics & Communication Engineering, 2015 revision curriculum do visit ECE 3rd Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.