Syllabus
Module 1: Role of Interface Electronics, Analog Electronic Blocks, OPAMP – internal structure, Open-loop gain, Input R, Output R, DC noise sources and their drifts, CMRR, PSRR, Bandwidth and stability, Slew rate, Noise – general introduction,OPAMP Circuits and Analysis - Difference and Instrumentation Amplifiers (3-opamp and 2-opamp), Effect of cable capacitance and wire-re- sistance on CMRR, IA with guards, Biomedical application, Current-mode IA (Howland), Current- input IA, filters, Filters with underdamped response, state-variable filters, All-pass filters, Current Sources (floating and grounded loads), PGA, V-to-f converters, Negative Resistance Generator, Gyrator, GIC and applications, Quadrature oscillator, Introduction to switched capacitor circuits and applications, OTA and applications.
Module 2: Frequency and Time Measurement, Sample Hold Circuits, ADCs and their properties, Different ADC Architectures – Single Slope, Dual Slope (with emphasis on DMM), SAR, Flash, Sigma-Delta. Voltage references and regulators
Module 3: Basic electronic design concepts - potential divider, component packages, burden/loading effects, Error budgeting – Zener drift, resistance drift, voltage offsets and bias current errors, Transistor as amplifier – Basic circuit, loading effects; transistor as a switch – Darlington pairs, drivers, high-side drives, transistor latch.
Module 4: Analog controllers – temperature controller, error amplifier, integral controller, PI con- troller, PID controller, system TC Vs sensing TC.
Module 5: Transistor (linear) voltage regulator – over current protection, fold-back protection, voltage regulator with bypass, heat-sink design, regulator design with LDOs, current sources – high side loads, grounded loads with reference wrt. Ground, current sources with 3 pin regulator ICs, 4-20mA current transmitters, loop powered circuits.
Module 6: Special topics: PLL, isolation amplifiers, gate drivers, oscilloscope probes (gain selection circuits), techniques for power management.
Text Books
Same as Reference
References
1. Ramón Pallás-Areny, John G. Webster, Sensors and Signal Conditioning, 2nd Edition, Wiley, 2003
2. Sergio Franco, Design with Operational Amplifiers and Analog Integrated Circuits, 3 rd Edition, McGraw hill, 2002
3. Ramón Pallás-Areny, John G. Webster, Analog Signal Processing, 1st Edition, Wiley, 2011
4. George Clayton, Steve Winder, “Operational Amplifiers”, 5 th Edition, Elsevier Newnes, 2003
5. Ramakant A. Gayakwad, “Opamps and Linear Integrated Circuits,” PHI India, 4 th Edition
6. L. K. Baxter, Capacitive Sensors – Design and Applications, IEEE Press Series on Electronic Technology, NJ (1997)
7. John P. Bentley, Principle of Measurement Systems, Pearson Education; 3rd Edition, 2006
8. Horowitz, P., & Hill, W. (2015). The art of electronics (3rd ed.). Cambridge University Press.
Course Outcomes (COs):
CO1: Understand the design and specifications of various interface electronic circuits with focus on industry-oriented case studies
CO2: Study and analyse advanced electronic front-ends and digitizing techniques, including analog-to-digital converters and their characteristics.
CO3: Design analog electronic circuits considering temperature drifts, tolerances, environmental aspects with error estimation
CO4: Design and analyse standard electronic circuit configurations such as linear regulators, amplifiers, current transmitters, controllers for industrial applications.