Course Details
Subject {L-T-P / C} : EE6151 : Microelectronic Circuits Analysis and Design { 3-0-0 / 3}
Subject Nature : Theory
Coordinator : Prof. Prasanna Kumar Sahu
Syllabus
MOSFETs: Physical Description and theory of MOSFET, MOSFET Models and amplifier, DC biasing of MOSFETs, Design of MOSFET amplifiers, MOSFET Current Sources, Depletion MOS Differential Amplifiers, BiCMOS Differential Amplifiers, Frequency Response of Differential Amplifiers.
Feedback Amplifiers: Analysis of Feedback Amplifiers, Series-Shunt Feedback, Series –Series Feedback, Shunt-Shunt Feedback, Shunt-Series Feedback, Feedback Circuit Design, Stability Analysis, Compensation Techniques
Active Filters: Types of active filters, First-order filters, Butterworth Filters, Filter Design Guidelines
Op-Amps: Internal structure, parameters and characteristics of practical Op-Amps, CMOS Op-Amps, BJT Op-Amps, BiCMOS Op-Amps, design of Op-Amps.
Integrated Analog Circuits and Applications:, Circuits with Op-Amps and diodes, comparators, zero-crossing detectors, Schmitt triggers, function generators, Voltage controlled Oscillators, 555 timer, phase-lock loops, Sample-and-hold circuits, DACs and ADCs, Circuit design using analog integrated circuits.
Integrated Digital circuits and applications (CMOS based): Performance parameters of logic gates, NMOS Inverters and Logic circuits, CMOS Inverters and Logic circuits, BJT Inverters, Transistor-Transistor logic gates, Emitter-Coupled logic gates, Bi-CMOS Inverters, Interfacing and Comparison of Logic gates, Design of logic circuits, Nano-scale semiconductor devices, SPICE for above
Course Objectives
- The goal of this course is to provide a good understanding on the design and <br />implementation of analog circuits for various applications such as amplification, <br />filtering, frequency generation etc.
- Understanding the CMOS circuit and design of Digital VLSI
Course Outcomes
• Engineering Knowledge <br />• Problem analysis <br />• Design/development of solutions <br />• Modern Tool Usage <br />• Ethics <br />• Lifelong learning + project management and finance
Essential Reading
- Muhammad H. Rashid, Microelectronic Circuits Analysis and Design, Cengage Learning , 2nd Ed., 2012
- D. Neamen, Microelectronics Circuit Analysis and Design, Mc GrawHill , 5th Ed., 2016
Supplementary Reading
- Sedra and Smith, Microelectronics, Oxford Press , 7th Ed., 2017
- Richard Jaeger, Travis Blalock, Microelectronic Circuit Design, McGraw-Hill Education , 4 th. edition, 2010