Automotive Instrumentation

IE 407 AUTOMOTIVE INSTRUMENTATION

OBJECTIVES:

After completion of this course students will learn:

1. 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.

2. 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 :

ﾂ｡ John B. Peatman; Design with PIC Microcontrollers;

ﾂ｡ Sloss Andrew N, Symes Dominic, Wright Chris; ARM System Developer's Guide: Designing and Optimizing; Morgan Kaufman Publication.

ﾂ｡ Mohammad Ali Mazidi; 8051 Embedded System 窶ｵC窶ｶ Pprogramming
Reference Books And Web Access

ﾂ｡ Technical references on www.semiconductor.philips.com

ﾂ｡ An Implementation guide to Real Time Programming - David L. Ripps, Yourdon
ﾂ｡ Press,1990.

ﾂ｡ Technical references on www.arm.com