GOVERNMENT ENGINEERING COLLEGE DAHOD

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2 Νοε 2013 (πριν από 4 χρόνια και 10 μέρες)

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GOVERNMENT ENGINEERING COLLEGE DAHOD

Electronics & Communication Engineering

B.E Semester:
3
RD


Lesson Planning


Subject Code:
-
131101



Subject Name:
-

BASIC ELECTRONICS
.


FACULTY NAME:
Y.R.CHAUDHARI

CODE

NAME

TH

TUT

PR

CRADIT

UNI EXA

MID

PR(I)

TOTAL

131101

B.E.

4

0

2

6

70

30

50

150


Chep
No.

Title

Hours

1

Energy Bands in Solids:



1.1

Charged Particles, Field Intensity, Potential Energy, The eV
Unit of Energy,

1

1.2

The Nature of
the Atom, Atomic Energy Levels, Electronic
Structure of The Elements,

1

1.3

The Energy Band Theory of Crystals, Insulators,
Semiconductors and Metals

1

2

Transport Phenomena in Semiconductors:



2.1

Mobility and Conductivity, Electrons and Holes in an
Intrinsic
Semiconductor, Donor and Acceptor Impurities,

1

2.2

Charge Densities in a Semiconductor, Electrical Properties of
Ge and Si, The Hall Effect,

1

2.3

Conductivity Modulation, Generation and Recombination of
Charges,

1

2.4

Diffusion, The
Continuity Equation, Injected Minority

Carrier
Charge,

1

2.5

The

Potential Variation within a Graded Semiconductor

1

2.6



3

Junction

Diode Characteristics:



3.1

Open

Circuited p
-
n Junction, p
-
n Junction as a Rectifier,
Current Components in a
p
-
n Diode,

1

3.2

Volt
-
Ampere Characteristic, Open

Circuited p
-
n Junction, p
-
n
Junction as a Rectifier, Current Components in a p
-
n Diode,

1

3.3

Volt
-
Ampere Characteristic, Temperature Dependence of the
V/I Characteristic, Diode Resistance,

1

3.4

Space Charge , Transition Capacitance, Charge
-
Control
Description of a Diode , Diffusion Capacitance ,

1

3.5

Junction Diode Switching Times, Breakdown Diodes,

1

3.6

Tunnel Diode, Semiconductor Photodiode, Photovoltaic
1

Effect, Light

Emitting Diodes

4

Diode Circuits:



4.1

Diode as a Circuit Element, Load
-
Line Concept, Piecewise
Linear Diode Model,

1

4.2

Clipping Circuits, Clipping at Two Independent Levels,

1

4.3

Comparators, Sampling Gate,

1

4.4

Rectifiers, Other Full
-
Wave Circuits,

1

4.5

Capacitor Filters, Additional Diode Circuits

1

5

Transistor Characteristics:



5.1

Junction Transistor, Transistor Current Components,
Transistor as an Amplifier,

1

5.2

Transistor Construction, CB Configuration, CE Configuration,
CE Cutoff region, CE
Saturation Region,

1

5.3

Typical Transistor, CE Current Gain, CC Configuration,

1

5.4

Analytical Expressions for Transistor Characteristics

1

5.5

Maximum Voltage Rating, Phototransistor

1

6

Transistor at Low Frequencies:



6.1

Graphical Analysis of

the CE configuration, Two
-
Port Devices
and the Hybrid Model, Transistor Hybrid Model, h
-
Parameters,

1

6.2

Conversion Formulas for the Parameters of Three Transistor
Configurations,

1

6.3

Analysis of a Transistor Amplifier Circuit Using h Parameters,

1

6.4

Thevenin’s and Norton’s Theorems and Corollaries,

1

6.5

Emitter Follower, Comparison of Transistor Amplifier
Configurations,

1

6.6

Linear Analysis of a Transistor Circuit, Miller’s Theorem and
its Dual,

2

6.7

Cascading Transistor Amplifiers,
Simplified CE Hybrid Model,
Simplified Calculations for the CC Configuration,

2

6.8

CE Amplifier with an Emitter Resistance, High Input
Resistance Transistor Circuits

2

7

Transistor Biasing and Thermal Stabilization:



7.1

Operating Point, Bias
Stability, Self
-
Bias ,

1

7.2

Stabilization against Variations in I
CO
, V
BE
and
_
,

1

7.3

General Remarks on Collector
-
Current Stability,

1

7.4

Bias Compensation, Thermistor and Sensistor Compensation,

1

7.5

Thermal Runaway, Thermal Stability

1

8

Field Effect Transistors:



8.1

Junction FET, Pinch
-
Off Voltage, JFET Volt
-
Ampere
Characteristics,

1

8.2

FET Small
-
Signal Model, MOSFET, Digital MOSFET Circuits,

1

8.3

Low Frequency CS and CD Amplifiers, Biasing the FET,

1

8.4

The FET as a Voltage
Variable Resistor,

1

8.5

CS Amplifier at High Frequencies, CD Amplifier at High

Frequencies

2

9

Power Circuits and Systems:



9.1

Class A large Signal Amplifiers, Second Harmonic Distortion,
Higher

Order Harmonic Generation,

2


9.2

Transformer
Coupled Audio Power Amplifier, Efficiency,

1


9.3

Push
-
Pull Amplifiers, Class B Amplifiers, Class AB Operation,

2


9.4

Regulated Power Supplies, Series Voltage Regulator

1

TOTAL Hr:

52





REFERENCE BOOKS

1. Integrated Electronics by

Jacob Mill man &
Christos Halkias (Tata McGraw Hill)

2. Microelectronics Circuits by

Sedra & Smith (Oxford)

3. Electronics Devices & Circuit Theory by

Robert Boylsted

4. Basic Electronics & Linear Circuits by
N.N.Bhargava

5. Electronics Principles by

A.P.Malvino

6.
Principles of Electronics by

V.K.Mehta