NOC:Electronic Modules for Industrial Applications using Op-Amps


Lecture 1 - Introduction to Op-amp


Lecture 2 - Introduction Wafer Manufacturing Process and Clean room Protocols


Lecture 3 - Introduction to Fabrication Process Technology and Op-amp


Lecture 4 - Op-amp Characteristics and Datasheet Parameters


Lecture 5 - Overview of Active Filters and Oscillators


Lecture 6 - Overview of Op-amp Oscillators


Lecture 7 - Introduction to ECG Experiment


Lecture 8 - Design and Implementation of ECG Preprocessing Stage - Part 1


Lecture 9 - Design and Implementation of ECG Preprocessing Stage - Part 2


Lecture 10 - Design and Implementation of ECG Preprocessing Stage - Part 3


Lecture 11 - Design and Implementation of ECG Preprocessing Stage - Part 4


Lecture 12 - Design and Implementation of Peak Detector and Thresholding Circuit for ECG Signal Conditioning


Lecture 13 - Experiment: Live Demonstration of ECG Signal Acquistion, Conditioning and Measurement of BPM


Lecture 14 - Application: ECG Signals for detecting AF and the role of sensors


Lecture 15 - Photolithography: Masks


Lecture 16 - Understanding the process of photolithography


Lecture 17 - Photolithography: Mask Aligner


Lecture 18 - Photolithography: Designing of Mask Aligner System


Lecture 19 - Fabrication of Piezoresistive Sensor


Lecture 20 - Fabrication of MEMS based Catheter Contact Force Sensor


Lecture 21 - Design of Speed Control of DC Motor: Introduction


Lecture 22 - Design of Speed Control of DC Motor: Circuit Explanation


Lecture 23 - Design of Speed Control of DC Motor: Encoder Calibration


Lecture 24 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 1


Lecture 25 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 2


Lecture 26 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 3


Lecture 27 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 4


Lecture 28 - Design of Speed Control of DC Motor: Error Amplifier


Lecture 29 - Design of Speed Control of a DC Motor using Op-amp: Controllers


Lecture 30 - Design of Speed Control of a DC Motor using Op-amp: Circuit Implementation


Lecture 31 - Design of Speed Control of a DC Motor using DAQ - Part 1


Lecture 32 - Design of Speed Control of a DC Motor using DAQ - Part 2


Lecture 33 - Design of Speed Control of a DC Motor using DAQ - Part 3


Lecture 34 - Introduction to Hot-Wire Anemometer


Lecture 35 - Signal-conditioning Circuit for Hot-Wire Anemometer


Lecture 36 - Signal-conditioning Circuit for Hot-Wire Anemometer Part 2


Lecture 37 - Signal-conditioning Circuit for Hot-Wire Anemometer: Simulation


Lecture 38 - Signal-conditioning Circuit for Hot-Wire Anemometer: Experiment


Lecture 39 - Introduction to Gas Sensors


Lecture 40 - Fabrication Process for Gas Sensor


Lecture 41 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 1


Lecture 42 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 2


Lecture 43 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 3


Lecture 44 - Fundamentals of Electrophysiological signals


Lecture 45 - Fundamentals of EEG Signal


Lecture 46 - Application of EEG Signal for Detection of Hearing Loss


Lecture 47 - Closed loop control of temperature using DAQ and LabVIEW


Lecture 48 - Experimental Set-up of closed loop control of temperature sensor


Lecture 49 - Introduction to MEMS Simulation using Comsol Multiphysics


Lecture 50 - Introduction to COMSOL Multiphysics


Lecture 51 - COMSOL Examples for MEMS Applications


Lecture 52 - COMSOL Examples for MEMS Applications (Continued...)


Lecture 53 - Demonstration of Thermal Acutator and Understanding of Application Builder