Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lecture 01: DC Power Conversion Systems – IntroductionDownload
2Lecture 02: Overview of voltage regulatorsDownload
3Lecture 03: Switched mode power converter (SMPC)Download
4Lecture 04: Model Development for MATLAB SimulationDownload
5Lecture 05: Demonstration of MATLAB SimulationDownload
6Lecture 06: Demonstration of MATLAB Simulation (Continued)Download
7Lecture 07: Power Stage Design of Basic SMPCs: SummaryDownload
8Lecture 08 : Fixed Frequency Modulation TechniquesDownload
9Lecture 09: Variable Frequency Modulation TechniquesDownload
10Lecture 10 : Modulation in Discontinuous Conduction Mode (DCM)Download
11Lecture 11 : Synchronizing Simulation and Script files in MATLABDownload
12Lecture 12 : Interactive MATLAB Simulation and Case StudiesDownload
13Lecture 13: Converter’s Objectives and Control ImplicationsDownload
14Lecture 14: Feedforward Control in SMPCDownload
15Lecture 15: Single and Multi Loop Feedback Control MethodsDownload
16Lecture 16: Feedback Control of Cascaded SMPCsDownload
17Lecture 17: Combined feedback and feedforward controlDownload
18Lecture 18: State feedback controlDownload
19Lecture 19: Variable Frequency Control – Understanding Opportunities and ChallengesDownload
20Lecture 20: Constant On-time Control MethodsDownload
21Lecture 21: Constant Off-time Control MethodsDownload
22Lecture 22: Hysteresis Control Methods in SMPCsDownload
23Lecture 23: Stability and Performance Comparison using MATLAB SimulationDownload
24Lecture 24 : Light Load Control Methods and Interactive MATLAB SimulationDownload
25Lecture 25: Overview of Modeling TechniquesDownload
26Lecture 26: State space averaging and model validationDownload
27Lecture 27: Circuit Averaging Techniques and Equivalent CircuitDownload
28Lecture 28: DC Analysis using Equivalent Circuit ModelDownload
29Lecture 29 : Derivation of Small-Signal Transfer FunctionsDownload
30Lecture 30 : Small-Signal Model Validation using MATLAB and Time Domain CorrelationDownload
31Lecture 31 : Small-signal Modeling with Closed Current LoopDownload
32Lecture 32 : Impedance Analysis and StabilityDownload
33Lecture 33 : Loop Gain Analysis and Understanding Model Limits using MATLABDownload
34Lecture 34 : PID Control Design and Tuning under VMC with MATLAB Case StudiesDownload
35Lecture 35 : Shaping Output Impedance of a Buck Converter under VMCDownload
36Lecture 36 : Design of VMC Boost Converter and MATLAB Design Case StudiesDownload
37Lecture 37 : Accurate Small-signal Modelling under CMC and Verification using MATLABDownload
38Lecture 38 : Design CMC in a Buck Converter and MATLAB based Model ValidationDownload
39Lecture 39 : Design of CMC Boost Converter – Output and State Feedback ApproachesDownload
40Lecture 40 : Loop Interactions in CMC and Design of Average CMCDownload

Sl.No Chapter Name English
1Lecture 01: DC Power Conversion Systems – IntroductionPDF unavailable
2Lecture 02: Overview of voltage regulatorsPDF unavailable
3Lecture 03: Switched mode power converter (SMPC)PDF unavailable
4Lecture 04: Model Development for MATLAB SimulationPDF unavailable
5Lecture 05: Demonstration of MATLAB SimulationPDF unavailable
6Lecture 06: Demonstration of MATLAB Simulation (Continued)PDF unavailable
7Lecture 07: Power Stage Design of Basic SMPCs: SummaryPDF unavailable
8Lecture 08 : Fixed Frequency Modulation TechniquesPDF unavailable
9Lecture 09: Variable Frequency Modulation TechniquesPDF unavailable
10Lecture 10 : Modulation in Discontinuous Conduction Mode (DCM)PDF unavailable
11Lecture 11 : Synchronizing Simulation and Script files in MATLABPDF unavailable
12Lecture 12 : Interactive MATLAB Simulation and Case StudiesPDF unavailable
13Lecture 13: Converter’s Objectives and Control ImplicationsPDF unavailable
14Lecture 14: Feedforward Control in SMPCPDF unavailable
15Lecture 15: Single and Multi Loop Feedback Control MethodsPDF unavailable
16Lecture 16: Feedback Control of Cascaded SMPCsPDF unavailable
17Lecture 17: Combined feedback and feedforward controlPDF unavailable
18Lecture 18: State feedback controlPDF unavailable
19Lecture 19: Variable Frequency Control – Understanding Opportunities and ChallengesPDF unavailable
20Lecture 20: Constant On-time Control MethodsPDF unavailable
21Lecture 21: Constant Off-time Control MethodsPDF unavailable
22Lecture 22: Hysteresis Control Methods in SMPCsPDF unavailable
23Lecture 23: Stability and Performance Comparison using MATLAB SimulationPDF unavailable
24Lecture 24 : Light Load Control Methods and Interactive MATLAB SimulationPDF unavailable
25Lecture 25: Overview of Modeling TechniquesPDF unavailable
26Lecture 26: State space averaging and model validationPDF unavailable
27Lecture 27: Circuit Averaging Techniques and Equivalent CircuitPDF unavailable
28Lecture 28: DC Analysis using Equivalent Circuit ModelPDF unavailable
29Lecture 29 : Derivation of Small-Signal Transfer FunctionsPDF unavailable
30Lecture 30 : Small-Signal Model Validation using MATLAB and Time Domain CorrelationPDF unavailable
31Lecture 31 : Small-signal Modeling with Closed Current LoopPDF unavailable
32Lecture 32 : Impedance Analysis and StabilityPDF unavailable
33Lecture 33 : Loop Gain Analysis and Understanding Model Limits using MATLABPDF unavailable
34Lecture 34 : PID Control Design and Tuning under VMC with MATLAB Case StudiesPDF unavailable
35Lecture 35 : Shaping Output Impedance of a Buck Converter under VMCPDF unavailable
36Lecture 36 : Design of VMC Boost Converter and MATLAB Design Case StudiesPDF unavailable
37Lecture 37 : Accurate Small-signal Modelling under CMC and Verification using MATLABPDF unavailable
38Lecture 38 : Design CMC in a Buck Converter and MATLAB based Model ValidationPDF unavailable
39Lecture 39 : Design of CMC Boost Converter – Output and State Feedback ApproachesPDF unavailable
40Lecture 40 : Loop Interactions in CMC and Design of Average CMCPDF unavailable


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1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available