Lecture 09 – Quantitative Analysis of Transfer Functions. A special emphasis will be placed on the controller tuning and stability analysis. Already Have an Account? Folded cascode opamp dc gain; Noise in a telescopic cascode opamp. The closed loop transfer function corresponding to negative feedback may be written as: MOS transistor mismatch; Noise.
At the end of this course, one should possess in-depth knowledge of concepts from classical control theory, understand the concept of transfer function and use it for obtaining system response, analyze dynamic systems for their stability and performance, and design controllers such as Proportional-Integral-Derivative based on stability and performance requirements. Lecture 39 – Error Analysis: Frequency response of two second order systems? Lecture 09 – Quantitative Analysis of Transfer Functions. Lecture 15 – Feedback Control Schemes: General Principles of Measurement Systems. Folded cascode opamp swing limits.
Frequency multiplication using a phase locked loop. Lecture 01 – Introduction to Process Control.
This introductory course covers basics of process control and the instrumentation. Introduction to Geometric Technique for Stability Analysis? Due on 22nd Feb. Negative feedback amplifier using an integrator; Step response and transfer function of such an amplifier.
Lecture 42 – Pressure Measurement. Root Locus Plot and?
July 2018: Control systems
At the end of this course, one should possess in-depth knowledge of concepts from classical control theory, understand the concept of transfer function and use it for obtaining system response, analyze dynamic systems for their stability and performance, and design controllers such as Proportional-Integral-Derivative based on stability and performance requirements. Lecture 44 – High Vacuum Measurement.
Nyquist plot, stability criteria for feedback loops. Share with a friend. Mathematical Modeling Lecture 03 – Mathematical Modeling: Morning session 9am to 12 noon; Afternoon session: Root Locus and its Application in Control Design. MOS transistor thermal and flicker noise. Liquid Hydraulics, Laplace Transform. Lecture 07 – Linearization of Multivariable Systems.
P-only Controller, PI Controller. Incremental model of the PLL. Systems with Large Dead Time.
Random and systematic mismatch; Layout techniques to minimize mismatch. Distillation Column Lecture 05 – Mathematical Modeling: These lectures are available on the web for the benefit of students at IIT Madras and elsewhere. Lecture 20 – Stability Analysis: Why do I need to sign vidso Lecture 16 – PI Controller cont.
Increasing the dc gain of the opamp; Folded cascode structure.
Final score will be calculated as: Lecture 09 – Quantitative Analysis of Transfer Functions. What do I get? A special emphasis will be placed on the controller tuning and stability analysis. Continue with Google or Continue with Facebook. Lecture 24 – Frequency Response Analysis cont. Last date for enrollment: Lecture 41 – Transducers: EduRev is a knowledge-sharing community that depends on everyone being able to pitch in when they know something. Lecture 27 – Bode Stability Criteria cont.
Negative feedback amplifier using an integrator; Loop gain and unity loop gain frequency. Based on 2 ratings 5 star 1. Table of Contents EE Copying them, publishing them, rehosting them on other servers, or using them for any sort of commercial gain is prohibited.
Lecture 35 – Instrumentation: His research interests are in the areas of dynamics and control with applications to automotive and transportation systems.
Control Engineering_Prof. Gopal | NPTEL Online Videos, Courses – IIT Video Lectures
Copyrights to these rest solely with the instructor and IIT Madras. Analog Integrated Circuit Design, Jan. Loop gain and stability-poles and zeros as delays. Lecture 06 – Linearization of Single Variable Systems. Lecture 13 – Dynamics of Second Order Systems cont.
Lecture 03 – Mathematical Modeling: Lecture 40 – Uncertainty in Measurements, Transducers: Lecture 28 – Gain Margin and Phase Margin cont. Lecture 12 – Dynamics of Second Order Systems. General Principles of Measurement Systems. These are based nyyquist Fully differential two-stage opamp.