Module I (13 hours)
BJT circuit models – Hybrid π model – Small signal low frequency and small signal high frequency models of BJT – Effect of temperature on BJT model parameters – h parameter equivalent circuits of CC, CB and CE configurations – Current gain – voltage gain – input and output impedances BJT amplifiers: Biasing – Load line – Bias stabilization – Stability factor – Bias compensation – Analyses and design of CC, CE and CB configurations – RC coupled and transformer coupled multistage amplifiers – High frequency response
Module II (13 hours)
FET amplifiers: Biasing of JFET – Self bias and fixed bias – Biasing of MOSFETS – Feedback biasing and fixed biasing for enhancement and depletion mode MOSFETs – Analyses of common source – Common drain and common gate amplifier configurations
Module III (13 hours)
Feedback – Effect of feedback on amplifier performance – Voltage shunt – Voltage series – Current series and current shunt feedback configurations – Positive feedback and oscillators -Analysis of RC Phase Shift, Wein bridge, Colpitts, Hartley and crystal oscillators – Stabilization of oscillations
Module IV (13 hours)
Power amplifiers – Class A, B, AB, C, D & S power amplifiers – Harmonic distortion – Efficiency – Wide band amplifiers – Broad banding techniques – Low frequency and high frequency compensation – Cascode amplifier – Broadbanding using inductive loads

Text books
1. Millman & Halkias, Integrated Electronics, McGraw Hill
2. Sedra A.S & Smith K.C., Microelectronic Circuits, Oxford University Press
3. Boylestad R. & Nashelsky L., Electronic Devices & Circuit Theory’, Prentice Hall of India
Reference books
1. Hayt W.H., Electronic Circuit Analysis & Design, Jaico Pub.
2. Bogart T.F., Electronic Devices & Circuits’, McGraw Hill
3. Horenstein M.N., Microelectronic Circuits & Devices’, Prentice Hall of India
4. Schilling D.L. & Belove C., `Electronic Circuits’, McGraw Hill
5. Baker R.J., Li H.W & Boyce D.E., CMOS – Circuit Design, Layout & Simulation, Prentice Hall of India