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Circuits for Analog System Design

Circuits for Analog System Design. Instructor: Prof. M. K. Gunasekaran, Department of Electronics Design and Technology, IISc Bangalore. This course will concentrate on three aspects: 1) how to design and analog circuits, 2) error budgeting, and 3) various techniques involved in analog circuits. Topics covered in this course include an introduction to linear IC applications, design and error budget analysis of signal conditioners for low level ac and dc applications, signal conditioners with instrumentation autozero/chopper/isolation/charge amplifiers, design and applications of active filters and high frequency circuits, design of multi channel low level and high level data acquisition systems using ADC/DAC, SHA and analog multiplexers, and designing of low power circuits for transducers. (from nptel.ac.in)

Lecture 06 - Op-Amp based Linear Voltage Regulator


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Transistor Applications
Lecture 01 - Transistor Amplifier
Lecture 02 - Transistor Op-Amp and Transistor based Voltage Regulator
Lecture 03 - Some Applications of Transistor, Part I
Lecture 04 - Some Applications of Transistor, Part II
Transformer and Heat Sink Design
Lecture 05 - Transformer Design and Heat Sink Design
Op-Amp Applications
Lecture 06 - Op-Amp based Linear Voltage Regulator
Lecture 07 - Short Circuit Protection for Linear Power Supply
Lecture 08 - Temperature Indicator Design using Op-Amp
Lecture 09 - On and Off Temperature Controller Design
Lecture 10 - Proportional Temperature Controller Design
Lecture 11 - PID - Temperature Controller Design
Lecture 12 - Heater Drive for Various Temperature Controllers
Lecture 13 - Short Circuit Protection of Power MOSFET
Error Budgeting
Lecture 14 - Error Budgeting for Temperature Indicator
Lecture 15 - PID Temperature Controllers with Error Budgeting
Lecture 16 - Error Budgeting for Constant Current Sources
Lecture 17 - Error Budgeting for Thermo Couple Amplifier
Lecture 18 - Error Budgeting for Op-Amp Circuits
Lecture 19 - Gain Error Calculation in Op-Amp Circuits
Lecture 20 - Input Resistance Calculations for Op-Amp
Lecture 21 - Output Resistance Calculations for Op-Amp
Lecture 22 - Error Budgeting for Different Circuits
4-20mA Current Transmitter
Lecture 23 - 4-20mA Current Transmitter Design
Lecture 24 - Error Budgeting for 4-20mA Current Transmitters
Lecture 25 - LVDT based Current Transmitters
Lecture 26 - Constant Current Source Design
Lecture 27 - 4-20mA based Temperature Transmitter
Lecture 28 - 3-Wire Current Transmitter
Resistance and Capacitance Measurement
Lecture 29 - Various Resistance Measurement Techniques
Lecture 30 - Ratio Transformer Technique to Measure Resistance and Capacitance
Lecture 31 - Capacitive Sensor Circuit Design Examples
Lecture 32 - Capacitive Sensor Circuit with High Impedance Amplifier
AC Applications of Op-Amp
Lecture 33 - AC Applications of the Op-Amp and Lock in Amplifier Design
Lecture 34 - Design of Lock in Amplifier Circuit with Example
ADC/ DAC
Lecture 35 - Dual Slope ADC - Design Examples
Lecture 36 - Dual Slope ADC and Successive Approximation ADC
Lecture 37 - MC based ADC
Lecture 38 - Digital to Analog Converter Design and Working, Flash ADC
Lecture 39 - Flash ADC and ADC Converter Errors
Lecture 40 - Sigma Delta ADC Working Principle