CTL732: Difference between revisions
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== CTL732 : Advanced Vehicle propulsion == | == CTL732 : Advanced Vehicle propulsion == | ||
Motivation for using hybrid vehicles, Preliminary concepts: Thermodynamic processes, Engine power cycles, fuel -air and actual cycles, Ignition and valve timing, Combustion fundamentals in SI and Cl engines, Mixture preparation: stoichiometric. rich and lean mixtures, Combustion stoichiometry and modeling, exhaust formation, Emission norms & testing, Engine performance testing and turbocharging, Vehicle transmission and traction requirements, Motivation for HEVs, Engine sizing for HEY, Hybrid vehicle categories and architectures. Electric Machines: Principles, modelling and control, Energy storage technologies: electrical and mechanical. Battery modelling and characterization, Battery pack design, management and control, Practical examples of hybrid vehicles, Fuel cell technology and classification. CTL735 Computer Aided Analysis of power Electronics 3 Credits (3 0 0) Driving cycles for EVs; Design driving factors; Vehicle System Modelling; Real time controllers: Compilers, linkers, debuggers, Interrupt based programming; Different PWM schemes and generation; Design and simulation of basic converter topologies, drivetrains; PWM switching and average converter model; Controller design and stability analysis; EMI/EMC design considerations in PCB design of power electronics; Thermal analysis for power electronic components; Failure analysis techniques: Introduction to Failure mode and effect analysis, Automotive industry safety standard (ISO 26262), Automotive electronics council, Problem solving techniques: Fault tree analysis techniques, A3 problem solving techniques. | Motivation for using hybrid vehicles, Preliminary concepts: Thermodynamic processes, Engine power cycles, fuel -air and actual cycles, Ignition and valve timing, Combustion fundamentals in SI and Cl engines, Mixture preparation: stoichiometric. rich and lean mixtures, Combustion stoichiometry and modeling, exhaust formation, Emission norms & testing, Engine performance testing and turbocharging, Vehicle transmission and traction requirements, Motivation for HEVs, Engine sizing for HEY, Hybrid vehicle categories and architectures. Electric Machines: Principles, modelling and control, Energy storage technologies: electrical and mechanical. Battery modelling and characterization, Battery pack design, management and control, Practical examples of hybrid vehicles, Fuel cell technology and classification. [[CTL735]] Computer Aided Analysis of power Electronics 3 Credits (3 0 0) Driving cycles for EVs; Design driving factors; Vehicle System Modelling; Real time controllers: Compilers, linkers, debuggers, Interrupt based programming; Different PWM schemes and generation; Design and simulation of basic converter topologies, drivetrains; PWM switching and average converter model; Controller design and stability analysis; EMI/EMC design considerations in PCB design of power electronics; Thermal analysis for power electronic components; Failure analysis techniques: Introduction to Failure mode and effect analysis, Automotive industry safety standard (ISO 26262), Automotive electronics council, Problem solving techniques: Fault tree analysis techniques, A3 problem solving techniques. | ||
Latest revision as of 16:27, 14 April 2026
| CTL732 | |
|---|---|
| Advanced Vehicle propulsion | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | |
| Overlaps | |
CTL732 : Advanced Vehicle propulsion
Motivation for using hybrid vehicles, Preliminary concepts: Thermodynamic processes, Engine power cycles, fuel -air and actual cycles, Ignition and valve timing, Combustion fundamentals in SI and Cl engines, Mixture preparation: stoichiometric. rich and lean mixtures, Combustion stoichiometry and modeling, exhaust formation, Emission norms & testing, Engine performance testing and turbocharging, Vehicle transmission and traction requirements, Motivation for HEVs, Engine sizing for HEY, Hybrid vehicle categories and architectures. Electric Machines: Principles, modelling and control, Energy storage technologies: electrical and mechanical. Battery modelling and characterization, Battery pack design, management and control, Practical examples of hybrid vehicles, Fuel cell technology and classification. CTL735 Computer Aided Analysis of power Electronics 3 Credits (3 0 0) Driving cycles for EVs; Design driving factors; Vehicle System Modelling; Real time controllers: Compilers, linkers, debuggers, Interrupt based programming; Different PWM schemes and generation; Design and simulation of basic converter topologies, drivetrains; PWM switching and average converter model; Controller design and stability analysis; EMI/EMC design considerations in PCB design of power electronics; Thermal analysis for power electronic components; Failure analysis techniques: Introduction to Failure mode and effect analysis, Automotive industry safety standard (ISO 26262), Automotive electronics council, Problem solving techniques: Fault tree analysis techniques, A3 problem solving techniques.