Co5: Analyse different PWM techniques for voltage control of single phase bridge inverters Co6: Analyse the operation of multilevel inverters and assessing
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15 mar 2019 · DETAILED SYLLABUS EE5101 Detailed syllabus 1 CO2 Validate the performance of various multilevel inverter with different PWM
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different types of Inverters (DC-AC Converters) and the analysis basic the concept and basics of resonance, resonant inverters and multilevel inverters 9 chapters/ parts of chapters to groups of students so that the entire syllabus to be
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Co5: Analyse different PWM techniques for voltage control of single phase bridge inverters Co6: Analyse the operation of multilevel inverters and assessing
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Operation of 3-phase multilevel Inverter 6 Performance speed control of 3 phase slip ring Induction motor by Static Rotor Resistance Controller 7 PIC
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Programme Outcomes
PO1: An ability to independently carry out research /investigation and development work to solve practical problems PO2: An ability to write and present a substantial technical report/document PO3: Students should be able to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor programProgramme Specific Outcomes
PSO1: Analyze, Design and Develop Power Electronic Systems PSO2: Analyze and Design modern electric machines, drives, power converters, and control circuits related to industrial and renewable energy applicationsI Semester Syllabus
Syllabus
M. Tech. (Power Electronics)
CONTROLLED RECTIFIERS AND INVERTERS
Contact Hours/ Week : 4 Credits : 5.0
Total Lecture Hours : 52 CIE Marks : 50
Tutorial/ Practical : 2 SEE Marks : 50
Sub. Code : 1REPE01
Course Outcomes:
Upon completion of this course the student will be able to: Co1: Understand various characteristics of power devices, data sheet for proper selection of power devices for defined application Co2: Design and analyse single phase line commutated converters and evaluate the performance of 1-ph converter under the effect of source inductance. Co3: Design and analyse three phase line commutated converters and evaluate the performance of 3-ph converter under the effect of source inductance and power factor Co4: Design and analyse of switch mode inverters in linear modulation and over modulation.Analysis of harmonic components.
Co5: Analyse different PWM techniques for voltage control of single phase bridge inverters Co6: Analyse the operation of multilevel inverters and assessing appropriate application for it.UNIT 1
Power Devices: Thyristor , MOSFET and IGBT-Basic structure, V-I characteristics, switching transient- turn-on transient, turn-off transient. 10 Hrs.UNIT 2
Power Devices Continued: FBSOA and RBSOA curve of MOSFET and IGBT, optocoupler isolated drive circuit for MOSFET and IGBT. 3 Hrs. Controlled Rectifier: Operation and analysis of single phase fully controlled converter, effect of source inductance (1-phase converters), and discontinuous current conduction. 5 Hrs.UNIT 3
Controlled Rectifier Continued: Dual Converter (1-phase), three phase fully controlled converter, effect of source inductance (3-phase converters). 6 Hrs.2018 BATCH
BATCH2011 BATCH
Power Factor Improvements: Extinction angle control, symmetric angle control, PWMcontrol, single-phase sinusoidal PWM 4 Hrs.
UNIT 4
Switch-Mode Inverters: Half-Bridge inverter PWM switching scheme-linear modulation, over modulation, square wave operation. Full-bridge inverter-PWM bipolar and unipolar voltage switching. Three-phase inverter PWM switching scheme-linear modulation, over modulation,square wave operation. 8 Hrs.
UNIT 5
Control of Single Phase Inverters: Modified SPWM methods, SVPWM. Current Source Inverter: ASCI, comparison between VSI & CSI. Introduction to Matrix Converters. 8 Hrs.UNIT 6
Multilevel Inverters: Introduction, types, diode clamped multi-level inverters, cascaded H- bridge inverter, flying capacitor clamped inverter and applications. 8 Hrs.REFERENCE BOOKS
1. Rashrd Edition, Pearson,
2011.3. B. K. Bose,
-phase AC-AC Power Converters based on Matrix ConverterSWITCHED MODE AND RESONANT CONVERTERS
Contact Hours/ Week : 4 Credits : 5.0
Total Lecture Hours : 52 CIE Marks : 50
Tutorial/ Practical : 2 SEE Marks : 50
Sub. Code : 1REPE02
Course Outcomes:
Upon completion of this course the student will be able to: Co1: Analyse and design Buck, Boost and Buck-boost converters Co2: Analyse and design SEPIC, CUK and derived converter Co3: Analyse and design forward, push-pull and bridge convertersCo4: Analyse and design resonant converters
Co5: Design magnetic components for DC-DC convertersUNIT 1
DC ² DC Converters (Basic Converters): Linear voltage regulators (LVRs), a basic switching converter (SMPC), comparison between LVR & SMPC, principle of operation of step-down chopper, two-quadrant and four-quadrant choppers. principle of operation and analysis of buck converter, inductor current ripple and output voltageripple, capacitor resistance effect, synchronous rectification, design considerations, buck converter
for discontinuous current operation. 8 Hrs.UNIT 2
Principle of operation and analysis of boost converter, inductor current ripple and output voltage ripple, inductor resistance effect, design considerations, boost converter for discontinuous current operation. Principle of operation and analysis of buck-boost converter analysis, inductors current ripple andoutput voltage ripple, design considerations, buck-boost converter for discontinuous current
operation 8 Hrs.UNIT 3
Principle of operation and analysis of CUK converter , inductor current ripple and output voltage ripple, capacitor resistance effect, design considerations, single ended primary inductance converter(SEPIC). Derived Converters: Introduction, transformer models, principle of operation and analysis of fly back converter-continuous and discontinuous current mode of operation, design considerations9 Hrs.
UNIT 4
Principle of operation and analysis of forward converter, design considerations, double ended(Twoswitch) forward converter, principle of operation and analysis of push-pull converter, design
considerations, principle of operation and analysis of full bridge and half-bridge DC-DC converters, design considerations, current fed converters, multiple outputs. 9 Hrs.UNIT 5
Resonant Converters: Introduction, resonant switch ZCS converter, principle of operation andanalysis, resonant switch ZVS converter, principle of operation and analysis, Series resonant
inverter, series resonant DC-DC converter, parallel resonant DC-DC converter, series- parallelresonant DCDC converter, resonant converters comparison 9 Hrs.