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Syllabus
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Network Analysis (Syllabus)
NETWORK ANALYSIS
Total Credit- 04
Subject Code:-BEEE3O2T
Unit –I: Sources, Mesh Analysis, Node voltage analysis (07 Hrs)
Voltage and Current sources, source transformation, mesh basis equilibrium approach for simple
networks of having mutual coupling, Node voltage analysis of networks, concept of duality.
Unit –II: Network Theorems (07 Hrs)
Thevenin’s, Norton’s, Maximum Power transfer, Reciprocity theorems as applied to D C. & A.
C. circuits with independent and dependent sources.
Unit –III: Solution of First and Second Order Networks (07 Hrs)
Solution of first and second order differential equations of different combinations of series and
parallel RLC networks. Initial and final conditions in network elements, free and forced
response, time constants.
Unit –IV: Electric Circuit Analysis using Laplace Transforms (07 Hrs)
Review of Laplace transform, waveform synthesis, Analysis of electrical circuits using Laplace
transform for standard inputs, analysis of networks with and without initial conditions using
Laplace transforms.
Unit –V: Two port networks and Network functions (08 Hrs)
Two port networks, relationship between two port variables, driving point and transfer functions,
properties, concept of complex frequency, Poles and zeros.
Two port network parameters: Impedance parameters, admittance parameters, transmission
parameters and hybrid parameters, interconnection of two port networks.
Text Books:
1. Van Valkenburg, “Network Analysis”, Third Edition, 2009, Prentice Hall of India
2. Sudhakar, A, Shyammohan, “Circuits and Networks”, Third Edition, 2006, Tata
McGraw-Hill.
3. D. Roy Choudhary, “Networks and Systems”, New Age International Publishers, 2nd
Edition, 2012
4. Kelkar and Pandit, “Linear Network Theory”, Pratibha Publications.
Reference Books:
1. Mahmood Nahvi, Joseph A Edminister, “Schaum’s outline of Electric Circuits”, 6th
Edition, Tata McGraw-Hill, 6th Edition, 2013
2. W. H. Hayt and J. E. Kemmerly, “Engineering Circuit Analysis”, McGraw Hill
Education, 2013.
3. C. K. Alexander and M. N. O. Sadiku, “Electric Circuits”, McGraw Hill Education,
2004.
4. K. V. V. Murthy and M. S. Kamath, “Basic Circuit Analysis”, Jaico Publishers, 1999.
5. K. Sureshkumar, “Electric Circuits & Network”, Pearson Publication
6. Del Toro, “Electrical circuit”, Prentice Hall
ADC
Analog Devices & Circuits (Syllabus)
ANALOG DEVICES AND CIRCUITS
Total Credit- 04
Subject Code:-BEEE3O4T
Unit I: Diode Circuits: (07 Hrs.)
P-N junction diode, operation and characteristics; half-wave and full-wave rectifiers, Filters,
Ripple factor, characteristics and applications of Zener diodes, photo diodes, LED, Schottkey
Diodes, voltage regulators
Unit II: Transistor Circuits (08 Hrs.)
Operation and characteristics of a BJT. BJT as a switch. BJT as an amplifier: Biasing circuits,
small-signal analysis of CE, CB and CC amplifiers, high-frequency analysis. Power Transistors,
Transistor as a switch. Field effect transistors and MOSFETs- Principle of operation and
characteristics, biasing arrangements
Unit III: Power amplifiers (08 Hrs.)
Classification as A, B, AB, C, Push pull amplifiers, Cross over distortion, Positive and Negative
amplifiers- classification, feedback amplifiers, advantages and applications
Oscillators- Barkhausen’s criterion, RC and Crystal oscillators
Unit IV: Power amplifiers (08 Hrs.)
Differential amplifier circuits and their stages, current source, biasing, level Shifting techniques,
Common mode and differential mode gain, Impedance of different stages.
Unit V: Applications of Op-Amp (08 Hrs.)
Inverting and non-inverting amplifier, integrator, active filter, voltage regulator, oscillators
(Wein bridge and phase shift). Analog to Digital Conversion. Hysteresis Comparator, Zero
Crossing Detector, Square-wave and triangular-wave generators. Precision rectifier.
Study of linear ICs: LM741, LM555, LM 7805
Text books:
1. Millman and Halkias, “Electronic Devices and Circuits”, McGraw Hill.
2. Millman and Halkias, “Integrated Electronics”, McGraw Hill
3. J. V. Wait, L. P. Huelsman and G. A. Korn, “Introduction to Operational Amplifier theory
and applications”, McGraw Hill U. S., 1992.
4. R. Gaikwad, “Operational Amplifiers and applications”
5. Linear ICs Manual I, II, III, National Semiconductors
Reference Books:
1. J. Millman and A. Grabel, “Microelectronics”, McGraw Hill Education, 1988.
2. P. Horowitz and W. Hill, “The Art of Electronics”, Cambridge University Press, 1989.
3. P. R. Gray, R. G. Meyer and S. Lewis, “Analysis and Design of Analog Integrated
Circuits”, John Wiley & Sons, 2001.