Page 161 - Academic Handbook FoS+29june

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5. M. Alonso, E. Finn, Physics, Addison-Wesley, 2000.

PY1203: ANALOG SYSTEMS AND APPLICATIONS [3 1 0 4]
Network theorems: Fundamentals of AC and DC networks, Thevenin, Norton, superposition, maximum power transfer
theorem. Semiconductor Diodes: P and N type semiconductors, energy level diagram, conductivity and mobility, drift velocity,
p-n junction, barrier formation in p-n junction diode, static and dynamic resistance. Two-terminal Devices and their
Applications: Rectifiers, half wave, full wave and bridge, ripple factor, Zener Diode and Voltage Regulation, Principle and
structure of LEDs, Photodiode, tunnel diode, Solar Cell. Bipolar Junction transistors: n-p-n and p-n-p transistors, characteristics
of CB, CE and CC configurations, current gains α and β, relations between α and β, load Line analysis, DC Load line and Q-point,
active, cutoff, saturation region. Amplifiers: Transistor Biasing and Stabilization Circuits, fixed Bias and Voltage Divider Bias,
Transistor as 2-port Network, h-parameter, Equivalent Circuit, analysis of a single-stage CE amplifier using Hybrid Model, input
and output Impedance, current, voltage and power Gain, class A, B & C amplifiers, coupled amplifier, RC-coupled amplifier and
its frequency response; Feedback in Amplifiers: effects of positive and Negative Feedback on Input Impedance, Output
Impedance, Gain, Stability, Distortion and Noise. Sinusoidal Oscillators: Barkhausen's criterion for self-sustained oscillations, RC
Phase shift oscillator, determination of Frequency, Hartley & Colpitts oscillators. Operational Amplifiers and its Applications:
Characteristics of an ideal and practical Op-Amp, open-loop and closed-loop gain, frequency response, CMRR, slew rate and
concept of virtual ground, inverting and non-inverting amplifiers, adder, subtractor, differentiator, integrator, log amplifier,
zero crossing detector Wein bridge oscillator. Three-terminal Devices (UJT and FETs): Characteristics and equivalent circuit of
UJT and JFET, advantages of JFET, MOSFET.
References:
1. B. G. Streetman, S. Banerjee, Solid state electronic devices, Pearson Prentice Hall, 2015.
2. R. Boylestad, L. Nashelsky, Electronic Devices and Circuit Theory, Pearson Education, India, 2014.
3. A. B. Gupta, N. Islam, Solid State Physics and Electronics, Books & Allied Ltd, 2012
4. D. Chattopadhyay, P. C. Rakshit, Electronics: Fundamentals and Applications, New Age international (P) Ltd, 2018.
5. J. Millman, C. C. Halkias, Integrated Electronics, Tata McGraw-Hill, 2017.
6. A. P. Malvino, Electronic Principals, McGraw-Hill, 2015.
7. A. Mottershead, Electronic Circuits and Devices, PHI, 1997.
8. N. N. Bhargava, D. C. Kulshreshtha, S. C. Gupta, Basic Electronics and Linear Circuits, Tata Mc-Graw-Hill, 2012.

PY1230: ELECTRICITY AND MAGNETISM LAB [0 0 4 2]
To determine a low resistance by Carey Foster’s bridge, to determine a low resistance by a potentiometer, to determine high
resistance by leakage of a capacitor, to determine the charge sensitivity, current sensitivity, logarithmic decrement of Ballistic
Galvanometer (B.G.), to determine the ratio of two capacitances by de Sauty’s bridge, to determine the dielectric constant of a
dielectric placed inside a parallel plate capacitor using a B.G., to determine self-inductance of a coil by Anderson’s bridge using
ac, to determine self-inductance of a coil by Rayleigh’s method, to determine the mutual inductance of two coils by absolute
method using a B.G., to study the response curve of a series and parallel LCR circuit and determine its resonant frequency,
impedance at resonance and quality factor and band width.
References:
1. D. Chattopadhyay & P. C. Rakshit, An Advanced Course in Practical Physics, New Central Book Agency (P) Ltd., 2012.
2. C. L. Arora, BSc Practical Physics, S. Chand Publication, 2012.
3. R. K. Shukla, A. Srivastava, Practical Physics, New Age Publisher, 2006.
4. D. P. Khandelwal, A Laboratory Manual of Physics for Undergraduate Classes, Vani Publication House, New Delhi,
2000.
5. G. Sanon, B. Sc. Practical Physics, S. Chand, 2010.
6. B. L. Worsnop, H. T. Flint, Advanced Practical Physics, Asia Publishing House, 2002.

PY1231: ANALOG SYSTEMS AND APPLICATIONS LAB [0 0 4 2]
Network theorems, rectifiers and filters, to design a semiconductor power supply of given rating using rectifiers and investigate
the effect of filter, to study the forward and reverse characteristics of a Zener diode and its use as a voltage regulator,
transistor characteristics and its application for amplification, to study the CE characteristics of a transistor and study the
various transistor biasing configurations, to design a CE Amplifier of a given gain (mid-gain) using voltage divider bias, to study
the frequency response of voltage gain of a RC-Coupled amplifier, to study the characteristics of a FET and design a common
source amplifier, to investigate simple regulation and stabilization circuits using voltage regulator ICs, to design an inverting,
non- inverting and differential amplifier using op-amp.
References:
1. D. Chattopadhyay & P. C. Rakshit, An Advanced Course in Practical Physics, New Central Book Agency (P) Ltd., 2012.
2. C. L. Arora, BSc Practical Physics, S. Chand Publication, 2012.
3. R. K. Shukla, A. Srivastava, Practical Physics, New Age Publisher, 2006.
4. D. P. Khandelwal, A Laboratory Manual of Physics for Undergraduate Classes, Vani Publication House, New Delhi,
2000.
5. G. Sanon, B. Sc. Practical Physics, S. Chand, 2010.
6. B. L. Worsnop, H. T. Flint, Advanced Practical Physics, Asia Publishing House, 2002.

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