Overview
ABOUT THE COURSE: The aim of the course ‘Analog Circuits and Systems’ is to design analog circuits and systems that perform signal processing functions, and signal generation using the devices including Op-Amps, amplifiers, multipliers and comparators.Course OutcomesCO1 Understand the characteristics of linear one-port and two-port signal processing networksCO2 Model one-port devices including R, L, C and diodes, two-port networks, and active devices including amplifiers, Op Amps, comparators, multipliers, BJTs and FETsCO3 Understand how negative and positive feedback influence the behaviour of analog circuitsCO4 Design VCVS, CCVS, VCCS, CCCS, and DC and SMPS voltage regulatorsCO5 Design analog filtersCO6 Design waveform generators, phase followers and frequency followersINTENDED AUDIENCE: Students of EEPREREQUISITES: +2 (Science)INDUSTRY SUPPORT: Texas Instruments
Syllabus
Week 1 - Electronic Systems01. Introduction to Sensors, Signals and Systems02. Role of Analog Signal Processing in Electronic Products – Part I03. Role of Analog Signal Processing in Electronic Products – Part II
Week 2 - Analog Signal Processing by One-port and Two-port Networks04. Analog Signal Processing using One Port Networks05. Analog Signal Processing using One Port Networks, Passive Two Ports and Ideal amplifiers06. Synthesis of Amplifiers using Nullators and Norators
Week 3 - Devices for Analog Signal Processing07. Passive Electronic Devices for Analog Signal Processing08. Active Devices for Analog Signal Processing Systems09. Electronic Devices for Analog Circuits10. Electronic Devices for Analog Circuits Contd.
Week 4 - Feedback in Systems11. Feedback in Systems12. Static Characteristic of Feedback Systems13. Dynamic Behaviour of Feedback Systems14. Dynamic Behavior of Feedback Systems (contd.,)
Week 5 - Signal Processing using Op-Amps15. Design of Feedback Amplifiers – Part I16. Design of Feedback Amplifiers – Part II17. Design of Feedback Amplifier ICs and Instrumentation Amplifiers18. Signal Processing with Op Amps (Linear); Integrators and Differentiators19. Analog Signal Processing (non-linear)20. DC Voltage Regulators
Week 6 - Analog Filters21. Filters – Approximations to ideal filter functions22. Passive Filters – Part I23. Passive Filters – Part II24. Active Filters – Part I25. Active Filters – Part II26. Active Filters: Q-enhancement27. State Space Filters28. Universal Active Filter – Effect of Active Device GB29. State-Space Filters (Tuning of Filters)30. Automatic Tuning of Filters (PLL) and Review of Filter Design
Week 7 - Waveform Generators31. Waveform Generation32. LC Oscillator – Effect of Non-idealities33. Transconductor based Oscillator34. Regenerative Comparators and Non-Sinusoidal Oscillators35. Non-Sinusoidal Oscillators and VCO (FM & FSK Generators)
Week 8 - PLL and FLL
36. Phase and Frequency Followers37. Frequency Locked Loop (Popularly known as PLL)38. Design of PLL and FLL39. Summing up Analog System Design
Week 2 - Analog Signal Processing by One-port and Two-port Networks04. Analog Signal Processing using One Port Networks05. Analog Signal Processing using One Port Networks, Passive Two Ports and Ideal amplifiers06. Synthesis of Amplifiers using Nullators and Norators
Week 3 - Devices for Analog Signal Processing07. Passive Electronic Devices for Analog Signal Processing08. Active Devices for Analog Signal Processing Systems09. Electronic Devices for Analog Circuits10. Electronic Devices for Analog Circuits Contd.
Week 4 - Feedback in Systems11. Feedback in Systems12. Static Characteristic of Feedback Systems13. Dynamic Behaviour of Feedback Systems14. Dynamic Behavior of Feedback Systems (contd.,)
Week 5 - Signal Processing using Op-Amps15. Design of Feedback Amplifiers – Part I16. Design of Feedback Amplifiers – Part II17. Design of Feedback Amplifier ICs and Instrumentation Amplifiers18. Signal Processing with Op Amps (Linear); Integrators and Differentiators19. Analog Signal Processing (non-linear)20. DC Voltage Regulators
Week 6 - Analog Filters21. Filters – Approximations to ideal filter functions22. Passive Filters – Part I23. Passive Filters – Part II24. Active Filters – Part I25. Active Filters – Part II26. Active Filters: Q-enhancement27. State Space Filters28. Universal Active Filter – Effect of Active Device GB29. State-Space Filters (Tuning of Filters)30. Automatic Tuning of Filters (PLL) and Review of Filter Design
Week 7 - Waveform Generators31. Waveform Generation32. LC Oscillator – Effect of Non-idealities33. Transconductor based Oscillator34. Regenerative Comparators and Non-Sinusoidal Oscillators35. Non-Sinusoidal Oscillators and VCO (FM & FSK Generators)
Week 8 - PLL and FLL
36. Phase and Frequency Followers37. Frequency Locked Loop (Popularly known as PLL)38. Design of PLL and FLL39. Summing up Analog System Design
Taught by
Prof. K Radhakrishna Rao