Microelectronic Circuits.pdf

BIRLA INSTITUTE INSTITUTE OF TECHNOLOGY AND SCIENCE, SCIENCE, Pilan Pilanii Pilani Campus Instruction Division

Course Handout (Part II)

In addition to part-I (General Handout for all courses appended to the time-table), this portion gives further specific details regarding the course. Course No.: EEE F244 /INSTR F244 Date: 16/01/2014 Course Title: Microelectronic Circuits Instructor-in-charge: ABHIJIT ASATI Team of Instructor: Sneh Lata, Nitin Chaturvedi, Vineet Kumar 1. Scope and Objective of the Course: The objective of this course is to develop an ability to analyze and design integrated integrated electronic circuits. The course aims at thorough understanding of electronic circuits & building blocks necessary for effective realizations of integrated circuits. The course also includes the usage of SPICE as a circuit design aid. 2. Text Book: Adel. Adel. S. Sedra and Kenneth Kenneth C. Smith, “Microelectronic Circuits”, Oxford University Press, Sixth Sixth Edition Edition.. 3. Prime Reference Book: (i) Behzad Razavi, “Design of Analog CMOS Integrated Circuits”, Tata McGraw-Hill Company Ltd., 2002. 4. Other reference Books: (i) Richard C. Jaeger, “Microelectronic Circuit Design”, Tata McGraw -Hill Company Company Ltd., Internation International al Edition. Edition. (ii) R. Jacob Jacob Baker, Baker, Harry. Harry. W. Li and David E. Boyce, “CMOS circu it Design Layout and simulation ” IEEE Press series on Microelectronic Systems, PHI. 5 Course Plan : S. No. 1. 2. 3.

Topic

Learning Objective

Introduction to Amplifiers Models of MOSFET, physics of   MOSFET Integrated ci circuit MO MOSFET Amplifier circuits

4.

Integrated ci circuit uit BJ BJT Am Amplifi ifiers

5.

Frequency response of MOSFET Amplifiers

6. 7.

Frequency response of Amplifiers Differential amplifiers

8.

Operational Amplifiers

9.

Feedback

11.

Illustrative ex exampl amplees of of in integrated electronic systems — an an overview

BJT

Characteristic of am amplifiers. MOS device physics. Discrete Discrete and and IC MOSFET amplifier amplifier design, design, Large Large signal and small small signal models, MOSFET passive and active current current mirrors mirrors,, Design Design of IC bias bias circuits. Discrete and and IC BJ BJT amp amplifi ifier de design, Large signal and small signal models, BJT passive and active current mirrors, mirrors, Design of IC bias circuits. circuits. Discrete Discrete and IC MOSFET amplifier amplifier frequency response.

No. of   Ref. From the Text Book Lectures (Article) 5 Text Ch. 11- 1. 1.1-1.6 2 Text Ch. 4- 4.1, 4.2 Prime Prime Ref Ref.. Ch. Ch. 2 11 Text Ch. 4 - 4.4, 4.5, 4.6, 4.7, 4.10, 4.11 Ch. 6- 6.3, 6.4 6.4 Prime Prime Ref. Ref. Ch. 3, Ch. 5 5

Text Ch. 3 - 3. 3 .1- 3. 3 .8 Ch. 6

5

Text Ch. 4 - 4.8, 4.9, Ch. 6- 6.5-6.9 6.5-6.9 Prime Ref. Ch. 6 Text Ch 3-- 3.9, 3.10, Ch. 6

Disc Discre rete te and and IC IC BJT BJT frequ frequenc ency y response. Design of o f di d ifferential amplifiers, Large signal and small signal models. Design and ch characterization of an integrated circuit OPAMP, Frequency respons onse, Stability & fr freque quency ncy compensation in OPAMP, Techniques for stability of OPAMP in feedback feedback mode, mode, Noise Study of feedback

1

Building of electronic systems

2

Total: 42  _

Please Do Not Print Unless Necessary

5 3

3

Text Ch C h.8--8.1-8.5 Prime Ref. Ch. 4 Text Ch. 8-8.6, 8.7, Ch C h. 9 Prime Ref. Ch. 9, Ch. 10, Ch. Ch. 7

Text Ch.7- 7.1-7.6 Prime Prime Ref Ref.. Ch. Ch. 8 To be announced

BIRLA INSTITUTE OF TECHNOLOGY AND SCIENCE, Pilani Pilani Campus Instruction Division

6. Evaluation Scheme: EC No.

Components

Duration

1.

Mid semester test

90 Min.

2.

Tutorial Quiz

10 Min. each

3.

Assignments /online-test

Regular

4.

Comprehensive Examination

3 Hrs.

Marks (weightage) 90 (30 %) 50 (16.66%) 50 (16.66%) 110 (36.66%) 300

Date & Time

Remarks

8/3 11:00 - 12:30 PM CB Weekly

CB

To be announced

OB

15/5 AN

CB+OB

7. Assignments : • SPICE based circuit design and analysis • Practice of SPICE software 8. Chamber Consultation Hour: All week days (5pm) 9. Notices : All notices related to the course will be put on the EEE Notice board.

Instructor-in-charge EEE F244 /INSTR F244

 _

Please Do Not Print Unless Necessary