MTech Automotive Embedded Systems syllabus for 3 Sem 2020 scheme 20MAU321

Electronics in Automotive:

Introduction Body and convenience electronics: vehicle power supply controllers and lighting modules, door control modules, Safety electronics: active safety systems: ABS, ASR, ESP passive safety systems: Restraint systems and their associated sensors in an automobile.

Powertrain Electronics:

Gasoline engine management, Infotainment electronics: Dashboard/instrument cluster, car audio, telematic systems, navigation systems, multimedia systems, cross application technologies. 42V vehicle power supply system

Drive by Wire:

Challenges and opportunities of X-by-wire: system & design requirements steer-by-wire, brake-by-wire, suspension-by-wire, gasby-wire, power-bywire, shift by-wire. Future of Automotive Electronics.

Hardware Modules:

MC9S12XD family features-Modes of operation-functional block diagram overview-programming model. Memory Map Overview Pulse Width Modulator (PWM)-On-chip ADC Serial Communication Protocol: SCI, SPI,IIC, CAN.

Software Development Tools:

Introduction to HCS12XDT512 Student Learning Kit & PBMCU (Project Board) –Introduction to Code Warrior IDE-EditingDebugging-Simulating simple programs. Flashing code into HCS12XDT512 SLK board and testing

Integration of Software and Hardware:

Downloading the Software from Host Machine to Target Machine. Implementing application prototype: Power Window and Automotive Lighting System

Course outcomes:

At the end of the course the student will be able to:

CO1: Explain basics of Automotive Embedded system concepts

CO2: Select embedded system in automobiles

CO3. Use hardware and usage software in Automotive Embedded System

CO4: Use different software development tools.

CO5: Integrate Software and Hardware

Question paper pattern:

The SEE question paper will be set for 100 marks and the marks scored will be proportionately reduced to 60.

• The question paper will have ten full questions carrying equal marks.
• Each full question is for 20 marks.  There will be two full questions (with a maximum of four sub questions) from each module.
• Each full question will have sub question covering all the topics under a module.
• The students will have to answer five full questions, selecting one full question from each module.

Textbook/ Textbooks

(1) Werner Klingenstein ;Semiconductors-Technical Information Technologies and characteristic data Publicis Corporate Publishing, 2 ndrevised edition 2004

(2) Ronald K Jurgen, Automotive Electronics Handbook; McGraw Hill, 2nd edition 1999

Reference Books

(1) Werner Klingenstein & Team, Technical Information, Technologies and Characteristic Data- Publicis Corporate Publishing 2nd edition 2004

(2) LjuboVlacic, Michel Parent &Furnio Harshima, Intelligent Vehicle Technologies: Theory and Applications Butterworth-Heinemann publications2001