Fundamental of Electronic Devices Information Tech 2nd Sem Syllabus for Diploma BTEUP 2017

Fundamental of Electronic Devices detail BTEUP Diploma syllabus for Information Technology, effective from 2017 is collected from BTEUP 2017 Syllabus official website and presented for diploma students. The course details such as exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below. The syllabus PDFs can be downloaded from official website.

For all other information tech 2nd sem bteup diploma syllabus 2017 you can visit Information Tech 2nd Sem BTEUP Diploma Syllabus 2017 Subjects. The detail syllabus for fundamental of electronic devices is as follows.

Rationale:

Knowledge of Electronics Devices is quit essential for a students of diploma Computer Engineering. The knowledge of concepts , constructions & working of these devices, will help students in understanding the working and behaviour of different hardware constituents of computer.

DETAILED CONTENTS

1. INTRODUCTION:

1. Application of electronics in different fields.
2. Electronic devices in computer system. e.g. power supply, micro processor and other ICs, amplifiers, clock & other signal generators.
3. Advancements in electronics technology and its impact on computers size reduction, capacity expansion, increase in reliability, cost reduction)

2. Introduction of active & Passive components

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3. SEMICONDUCTOR PHYSICS:

1. Analyzing conductivity of elements, Types of conductors.
2. Pure(Intrinsic) semiconductors-Silicon, Germenium:Thermal Generation(formation of charge carrier-Positive & Negative charge carriers i.e. electron-hole pair), Recombination, Displacement of hole, mobility of free electron and moving hole, effect of variation in temperature, behavior of instrinsic semiconductors at 0 K.
3. Doping the Intrinsic semiconductors with a pentravalent/tri-valent element(i.e. doner and accepter type impurity) in small amount, effect of doping on strength of charge carrirs(formation of immobile ions and majority and minority carriers), P,N Junction.
4. Effect of doping a crystal parity ‘P’ type and parity: concepts of diffusion & drift, formation of deplition layer(potential barrier)i.e. formation of P-N Junction.

4. SEMICONDUCTORS DIODES:

1. Effect of applying electrical potential across a P-N Junction in the following ways:
1. Positive of the source to ‘P’ type terminal & Negative to the ‘N’ type terminal
2. Positive of the source to ‘N’ type terminal & Negative to the ‘ P’ type terminal.
2. Analyzing the flow of current in both the directions, cause of the difference in magnitudes of current in the two directions.
3. Characteristics of a P-N Junction diode in forward/reverse biasing.
4. Concepts of unidirectional and bi-directional flow of currents. Effect of putting in diode in series with a load connected across an ac source.
5. Half wave rectifier, Full wave rectifier9 using C.T. transformer, using bridge circuits)
6. Special purpose diodes:Zener diode, Vractor diode,Photo Diode,Light emiiting Diode (LED), their chractersitics and uses.

5. TRANSISTOR:

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6. TRANSISTOR AS AN AMPLIFIER:

1. Transistor biasing: DC Operating: need of biasing & bias stablization in a transistor circuit; various biasing circuits( Fixed, Collector to base, emitter, and potential devider.);
2. DC and AC load lines in a typical CE amplifier circuit;
3. Need of using multi- stages; how to couple two stages ; various coupling arrangements( R-C coupling,Transformer coupling, Direct coupling):
4. Effect of coupling arrangement on the requency response of a two stage amplifieer; frequency response curve of a RC coupled amplifier; a transformer coupled amplifier; band with of an amplfier.

7. OPERATIONAL AMPLIFIERS:

1. Specifications of ideal operational amplifier and its block diagram.
2. Definition of inverting and noninverting inputs, differential voltage gain and input and output off set, voltage input offset current, input bias current, common mode rejection ratio (CMMR), power supply rejection ratio (PSRR) and slew rate.
3. Method of offset null adjustments, use of op.amp. as an inverter scale changer, adder, subtractor, differential amplifier, buffer amplifier, differentiator, integrator, comparator, Schmitt Trigger, Generation of Square and Triangular Waveform, log and anti-log amplifiers, PLL and its appliation and IC power amplifier.

8. FEED BACK IN AMPLIFIER:

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9. INTEGRATED CIRCUITS:

1. Introduction;
2. Manufacturing process;
3. SSI, MSI, LSI, VLSI, ICs;
4. Linear and Digital ICs;
5. Switching and Gating ICs;
6. DTL, TTL, ICs;

List of Experiments:

1. To Identify electronic devices and common passive components: such as Diodes (Rectifier, Zeners, Signal Diodes, Varacter diode, etc.); LED’s; Transistors; Ics; Resistors, Capacitors, (Colour code for them); Inductors, Transformers.
2. To Plot characteristics (FB/RB) of Semiconductor rectifier diode.
3. To Plot characteristics (FB/RB) of a zener diode.
4. Observe the output wave of a Half wave rectifier circuit with/without shunt capacitor filter.
5. Observe the O/P wave of a full wave (C.T.) Rectifier circuit with/without Shunt capacitor filter.
6. Observe the O/P wave of a Bridge Rectifier circuit with/without shunt capacitor filter.
7. To Plot input/output characteristics of a Transistor in CB.
8. To Plot input/output characteristics of a Transistor in CE.
9. To Plot input/output characteristics of a FET.
10. To measure Voltage gain of a transistor amplifier at 1 KHz signal, at different load.
11. To measure over all Voltage gain of a 2 stage RC coupled transistor amplifier a 1 KHz signal.
12. To plot frequency response of a RC coupled amplifier at 1 KHz signal.
13. To measure input and output impedance of a negative feedback amplifier.
14. To fabricate a transistor switch and verify its working.
15. Use OP-AMP as inverting and non-inverting amplifier, Use as Adder, Subtractor, Intergator and differentator.

For detail syllabus of all other subjects of BE Information Tech, effective from 2017 do visit Information Tech 2nd Sem BTEUP syllabus for 2017.

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