PTEE3021 Embedded System for Automotive Applications Syllabus:
PTEE3021 Embedded System for Automotive Applications Syllabus – Anna University Part time Regulation 2023
COURSE OBJECTIVES:
To expose the students to the fundamentals and building of Electronic Engine Control systems.
To teach on sensor functional components for vehicles.
To discuss on programmable controllers for vehicles management systems.
To teach logics of automation & communication techniques for vehicle communication.
To introduce the infotainment system development.
UNIT I INTRODUCTION TO AUTOMOTIVE SYSTEMS
Overview of Automotive systems, fuel economy, air-fuel ratio, emission limits and vehicle performance; Electronic control Unit– open-source ECU.
UNIT II SENSORS AND ACTUATORS FOR AUTOMOTIVES
Review of automotive sensors- sensors interface to the ECU, Smart sensor and actuators for automotive applications.
UNIT III VEHICLE MANAGEMENT SYSTEMS
Energy Management system -Adaptive cruise control – anti-locking braking system – Safety and Collision Avoidance.
UNIT IV ONBOARD DIAGONSTICS AND COMMUNICATION
OBD , Vehicle communication protocols- Bluetooth, CAN, LIN, FLEXRAY and MOST.
UNIT V RECENT TRENDS
Navigation- Autonomous car- Role of IoT in Automotive systems.
30 PERIODS
LAB COMPONENTS: 30 PERIODS
1. 1. Laboratory exercise: Use MATLAB SIMULINK /equivalent simulation /open source tools
a) Simulation study of automotive sensors and actuators components
b) Adaptive cruise control, Anti-Lock Braking System
c) CAN Connectivity in an Automotive Application using vehicle network toolbox
d) Interfacing a sensor used in car with microcontroller.
e) Establishing connection between Bluetooth module and microcontroller.
2. Assignment: AUTOSAR
3. Mini project : Battery Management system for EV batteries.
TOTAL: 30+30 = 60 PERIODS
COURSE OUTCOMES:
At the end of this course, the students will have the ability in
CO1: Insight into the significance of the role of embedded system for automotive applications.
CO2: Illustrate the need, selection of sensors and actuators and interfacing with ECU
CO3: Develop the Embedded concepts for vehicle management and control systems.
CO4: Demonstrate the need of Electrical vehicle and able to apply the embedded system technology for various aspects of EVs
CO5: Improved Employability and entrepreneurship capacity due to knowledge up gradation on recent trends in embedded systems design and its application in automotive systems.
TEXTBOOKS:
1. William B. Ribbens ,”Understanding Automotive Electronics”, Elseiver,8th Edition, 2017.
2. Jurgen, R., Automotive Electronics Hand Book, McGraw Hill, 2nd Edition, 1999.
3. L.Vlacic,M.Parent,F.Harahima,”Intelligent Vehicle Technologies”,SAE International, 2001, 1st Edition, 2017.
REFERENCES:
1. Ali Emedi, Mehrdedehsani, John M Miller , “Vehicular Electric power system- land, Sea, Air and Space Vehicles” Marcel Decker, 2004, 1st Edition.
2. Jack Erjavec,JeffArias,”Alternate Fuel Technology-Electric ,Hybrid& Fuel Cell Vehicles”,Cengage ,2012, 2nd Edition.
3. Electronic Engine Control technology – Ronald K Jurgen Chilton’s guide to Fuel Injection – Ford 2nd Edition, 2004.
4. Automotive Electricals / Electronics System and Components, Tom Denton, 5th Edition, 2017.
5. Uwe Kiencke, Lars Nielsen, “Automotive Control Systems: For Engine, Driveline, and Vehicle”, Springer; 1st Edition, 2005.
6. Automotive Electricals Electronics System and Components, Robert Bosch Gmbh, 5th Edition, 2014.
7. Automotive Hand Book, Robert Bosch, Bently Publishers, 10th Edition, 2018.