PTCEC334 Syllabus - Analog Ic Design - 2023 Regulation Anna University

PTCEC334 Syllabus - Analog Ic Design - 2023 Regulation Anna University

PTCEC334

ANALOG IC DESIGN

 L T P C

2 0 2 3

COURSE OBJECTIVES:
• To study the basics of MOS Circuits.
• To analyse the noise characteristics of amplifiers.
• To study the performance parameters of amplifiers.
• To comprehend the compensation techniques
• To understand the detection and testing of faults.

UNIT I

SINGLE STAGE AMPLIFIERS

6

Basic MOS physics and equivalent circuits and models, CS, CG and Source Follower, differential amplifier with active load, Cascode and Folded Cascode configurations with activeload, design of Differential and Cascode Amplifiers – to meet specified SR, noise, gain, BW, ICMR and power dissipation, voltage swing, high gain amplifier structures.

UNIT II

HIGH FREQUENCY AND NOISE CHARACTERISTICS OF AMPLIFIERS

6

Miller effect, association of poles with nodes, frequency response of CS, CG and Source Follower, Cascode and Differential Amplifier stages, statistical characteristics of noise, noise in Single Stage amplifiers, noise in Differential Amplifiers.

UNIT III

FEEDBACK AND SINGLE STAGE OPERATIONAL AMPLIFIERS

6

Properties and types of negative feedback circuits, effect of loading in feedback networks, operational amplifier performance parameters, single stage Op Amps, two-stage Op Amps, input range limitations, gain boosting, slew rate, power supply rejection, noise in Op Amps.

UNIT IV

STABILITY , FREQUENCY COMPENSATION

6

Multipole Systems, Phase Margin, Frequency Compensation, Compensation Of Two Stage Op Amps, Slewing In Two Stage Op Amps, Other Compensation Techniques.

UNIT V

LOGIC CIRCUIT TESTING

6

Faults in Logic Circuits- Basic Concepts of Fault Detection- Design for Testability- Ad Hoc Techniques, Level-Sensitive Scan Design, Partial Scan, Built-in Self-Test.

30 PERIODS

PRACTICAL EXERCISES: 30 PERIODS
1. Design a CMOS inverter and analyze its characteristics.
2. Design a Common source amplifier and analyze its performance.
3. Design a Common drain amplifier and analyze its performance.
4. Design a Common gate amplifier and analyze its performance.
5. Design a differential amplifier with resistive load using transistors.
6. Design three stage and five stage ring oscillator circuit and compare its frequencies.

List of equipment needed for a batch of 30 students (3 in a bench):
• Cadence/Tanner/equivalent EDA Tools -10 User License

COURSE OUTCOMES: Upon successful completion of the course the student will be able to
CO1: Design amplifiers to meet user specifications.
CO2: Analyse the frequency and noise performance of amplifiers.
CO3: Design and analyse feedback amplifiers and one stage op amps.
CO4: Analyse stability of op amp.
CO5: Testing experience of logic circuits.

TOTAL:60 PERIODS

TEXT BOOKS:
1. Behzad Razavi, “Design Of Analog Cmos Integrated Circuits”, Tata Mcgraw Hill, 2001.(Unit –I,II,III,IV)
2. Parag K.Lala, “An Introduction to Logic Circuit Testing”,Morgan & Claypool Publishers,2009.(Unit V)

REFERENCES:
1. willey M.C. Sansen, “Analog Design Essentials”, Springer, 2006.
2. Grebene, “Bipolar And Mos Analog Integrated Circuit Design”, John Wiley & Sons,Inc.,2003. Phillip E.Allen, Douglas R .Holberg, “Cmos Analog Circuit Design”, Oxford University Press, 2nd Edition, 2002.
3. Recorded Lecture Available at http://www.ee.iitm.ac.in/vlsi/courses/ee5320_2021/start
4. Jacob Baker “CMOS: Circuit Design, Layout, And Simulation, Wiley IEEE Press, 3rd Edition, 2010.

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