IE 407 AUTOMOTIVE INSTRUMENTATION
Teaching scheme Examination Scheme
Lectures: 3 hrs/week Mid- Sem Test– 30 marks,
Assignments and Quizzes- 20 marks,
End Sem Exam - 50 marks
OBJECTIVES:
After completion of this course students will learn:
· The software/hardware integration and I/O programming of embedded controllers. They will learn how to incorporate the state-of-the-art System- On- Chip platforms and the emerging embedded system development tools.
· They will gear to the integration of hardware modules to construct embedded systems, and the programming models and characteristics of various input/out interfaces for automotive industry.
Pre-requisites:
Knowledge of Thermodynamics, two stroke-four stroke engine operations, Architecture of 8-bit controllers, Assembly language programming, microprocessor organization, and experience of C programming language.
Unit 1
Embedded system definition, different scales of embedded systems, design with small
Scale embedded systems, CISC and RISC architecture, PIC 16F or 18F series Microcontroller:, Architecture, Instruction set, different addressing modes, I/O ports, TIMER2 and interrupts, UART, External Interrupts and Timers.
[07hrs]
Unit 2
Assembly language programming and hardware interfacing techniques. Introduction to development tools like cross assembler, simulator, HLL cross compilers and in circuit emulators for system development. On-chip interfaces like: ADC, PWM, watchdog timers, I2C E2PROM and their applications. Design considerations for single chip solutions and handheld instruments, Case studies for automotive solutions.
[06hrs]
Unit 3
ARCHITECTURAL FEATURES OF ARM PROCESSOR:-Processor modes, Register organization, Exceptions and its handling, Memory and memory-mapped I/Os, ARM and THUMB instruction sets, addressing modes, ARM floating point architecture. Real-Time system (RTOS) concepts, Kernel structure, Task management, Inter task communication & synchronization, Memory management. Understanding Device Drivers [08 hrs]
Unit 4
Basics of Engine, Engine architecture: in-line engine, vee-engine, balance, drive, Basic principles Performances,
BRAKING SYSTEM: Introduction: definition of braking, specifications, Theory of braking : forces on vehicles, Braking system : hydraulic braking circuit, wheel brake, braking control, anti lock braking system,
[07hrs]
Unit 5
PROPULSION AND COMBUSTION: Engines: mixtures characteristics, compression ignition, alternating engine, carburetion/injection, combustion, supercharging, TRANSMISSION: Speed drive units: infinitely variable speed transmission,
[06hrs]
Unit 6
Embedded systems for: Engine control, Fuel injection system, anti lock break system, speed measurement and control, engine parameter indication systems.
[07hrs]
Text Books
- Mohammad Ali Mazidi; 8051 Embedded System “C” Pprogramming
· John B. Peatman; Design with PIC Microcontrollers;
· Sloss Andrew N, Symes Dominic, Wright Chris; ARM System Developer's Guide: Designing and Optimizing; Morgan Kaufman Publication.
Reference Books And Web Access
- Technical references on www.semiconductor.philips.com
- An Implementation guide to Real Time Programming - David L. Ripps, Yourdon Press, 1990.
- Technical references on www.arm.com