PX4009 Control of Power Electronic Circuits Syllabus:

PX4009 Control of Power Electronic Circuits Syllabus – Anna University PG Syllabus Regulation 2021

OBJECTIVES:

 To inculcate knowledge on the basics of control for power electronic circuits
 To illustrate the concepts of feedback controllers for DC-DC converters
 To learn about the controller design for AC-DC converter circuits
 To impart knowledge on sliding mode control
 To equip with required skills to design flatness-based controllers

UNIT I CONTROLLER DESIGN FOR BASIC DC-DC CONVERTERS- PART I

Introduction, Review of Linear Control Theory, Linearization of Various Transfer Function Blocks, Feedback Controller Design in Voltage-Mode Control, Peak-Current Mode Control, Feedback Controller Design in DCM

UNIT II CONTROLLER DESIGN FOR BASIC DC-DC CONVERTERS- PART II

Introduction, Linear Feedback Control- Pole Placement by Full State Feedback, Pole Placement Based on Observer Design, Reduced Order Observers, Generalized Proportional Integral Controllers Hamiltonian Systems Viewpoint – Application to power converters

UNIT III CONTROLLER DESIGN FOR BASIC AC-DC CONVERTER CIRCUITS

Introduction, Operating Principle of Single-Phase PFCs, Control of PFCs, Designing the Inner Average-Current-Control Loop, Designing the Outer Voltage-Control Loop, Example of Single-Phase PFC Systems

UNIT IV SLIDING MODE CONTROL

Introduction, Variable Structure Systems, Control of Single Switch Regulated Systems, Sliding Surfaces, Equivalent Control and the Ideal Sliding Dynamics, Accessibility of the Sliding Surface, Invariance Conditions for Matched Perturbations- Application to power converters

UNIT V FLATNESS BASED CONTROL

Flatness, the use of the differential flatness property, Controller development using flatness Application to power converters

TOTAL : 45 PERIODS

OUTCOMES:

After completing the above course, students will be able to
CO1 : Design controller for front end power factor corrector circuits.
CO2: Design controllers for UPS application.
CO3: Design controllers for AC-DC converters.
CO4 : Design sliding mode control for power converters.
CO5 : Design flatness based control for power converters.

TEXT BOOKS:

1. HeberttSira-Ramírez and Ramón Silva-Ortigoza,”Control Design Techniques in Power Electronics Devices “ Springer-Verlag London Limited 2006
2. Ned Mohan,”Power Electronics: A First Course”, Johnwiley, 2011
3. Marian K. Kazimierczuk and AgasthyaAyachit,”Laboratory Manual for Pulse-Width Modulated DC– DC Power Converters”, Wiley 2016

REFERENCE BOOKS:

1. FarzinAsadi and Kei Eguchi, Morgan &Claypool,”Dynamics and Control of DC-DC Converters”, 2018
2. Andre Kislovski, “Dynamic Analysis of Switching-Mode DC/DC Converters” ,Springer 1991
3. Azar, Ahmad Taher, Zhu, Quannmin,” Advances and Applications in sliding mode control systems” Springer, 2015
4. Levine, Jean, “Analysis and control of Non-linear systems A flatness-based approach” Springer, 2009

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