Software and Hardware Engineering is designed for courses in the architectiure and design o microprocessors, using Freescales's (formerly Motorola) star processor, the M68HC(S)12, as its core example. This text can be used for the microcontrollers/microprocessors/microcomputers course, taught in Electrical and Computer engineering departments, usually dovetailing with the computer architecture course. Students taking this course will have already taken a programming course and introductory logic design. In this second edition, more of the core principles of microcontroller theory beyond the specifics of HC12 implementation, are integrated into the text. the new edition is updates to cover changes in the technology, and to incorporate Metro Werks Code Warrior Integrated Development Environment, a development tool from Freescale.
Auflage
Sprache
Verlagsort
Zielgruppe
Für höhere Schule und Studium
Editions-Typ
Illustrationen
13 halftones, 155 line illus.
Maße
Höhe: 188 mm
Breite: 234 mm
Dicke: 33 mm
Gewicht
ISBN-13
978-0-19-530826-6 (9780195308266)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Klassifikation
Fredrick M. Cady is Emeritus Professor of Electrical and Computer Engineering at Montana State University. His research activities include biomedical engineering, visual signal processing, astronomical image processing, and electro-optics and electro-optical system engineering. He has been honored with several teaching awards, including MSU Bozeman Mortar Board Professor of the Month, MSU Alumni-Chamber of Commerce Award for Excellence and the Phi
Kappa Phi Anna Krueger Fridley Award for Distinguished Teaching.
Autor*in
Professor of Electrical and Computer EngineeringProfessor of Electrical and Computer Engineering, Montana State University
Preface
1.: Introduction
2.: General Principles of Microcontrollers
3.: Structured Program Design
4.: Introduction to the HCS12 Hardware
5.: An Assembler Program
6.: The Linker
7.: The HCS12 Instruction Set
8.: Programs for the HCS12
9 .: Debugging HCS12 Programs
10.: Program Development Using C
11.: HCS12 Parallel I/O
12.: HCS12 Interrupts
13.: HCS12 Memories
14.: HCS12 Timer
15.: HCS12 Serial I/O - SCI and SPI
16.: HCS12 Serial I/O - MSCAN
17.: HCS12 Analog Input
18.: Single-chip Microcontroller Interfacing Techniques
19.: Fuzzy Logic
20.: Debugging Systems
21.: Advanced HCS12 Hardware
Appendixes
A.: Binary Codes
B.: HCS12 Instruction Set
C.: Freescale Assembler
D.: HCS12 I/O Registers
E.: Include File Listings
F.: HCS12 Interrupt Vector Assignments
