Applied mechatronics:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Oxford Univ. Press
2008
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| Schlagworte: | |
| Online-Zugang: | Table of contents only Inhaltsverzeichnis |
| Beschreibung: | Includes bibliographical references and index |
| Beschreibung: | XXII, 713 S. graph. Darst. |
| ISBN: | 019530702X 9780195307023 |
Internformat
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| 020 | |a 9780195307023 |9 978-0-19-530702-3 | ||
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| 100 | 1 | |a Smaili, Ahmad |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Applied mechatronics |c A. Smaili ; F. Mrad |
| 264 | 1 | |a New York [u.a.] |b Oxford Univ. Press |c 2008 | |
| 300 | |a XXII, 713 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Mecatrónica - Libros de texto | |
| 650 | 4 | |a Mechatronics |v Textbooks | |
| 650 | 0 | 7 | |a Mechatronik |0 (DE-588)4238812-0 |2 gnd |9 rswk-swf |
| 689 | 0 | 0 | |a Mechatronik |0 (DE-588)4238812-0 |D s |
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| 700 | 1 | |a Mrad, Fouad |e Verfasser |4 aut | |
| 856 | 4 | |u http://www.loc.gov/catdir/enhancements/fy0725/2006049473-t.html |3 Table of contents only | |
| 856 | 4 | 2 | |m HEBIS Datenaustausch Darmstadt |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015706918&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-015706918 | ||
Datensatz im Suchindex
| _version_ | 1804136598471704576 |
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| adam_text | APPLIED MECHATRONICS A. SMAILI MECHANICAL ENGINEERING AND MEEHATRONICS
DEPARTMENT HARIRI CANADIAN UNIVERSITY * MESHREF F.MRAD ELECTRICAL AND
COMPUTER ENGINEERING DEPARTMENT AMERICAN UNIVERSITY OF BEIRUT * BEIRUT,
LEBANON ULB DARMSTADT IIIIIIIIIIIII 16929590 NEW YORK OXFORD OXFORD
UNIVERSITY PRESS 2008 CONTENTS PREFACE XX ACKNOWLEDGMENTS XXI 1.
MEEHATRONICS: AN INTRODUCTION 1 OBJECTIVES 1 1.1 WHAT IS MECHATRONICS? 1
1.2 ESSENTIAL SKILLS FOR MECHATRONICS 2 1.3 WHY IS MECHATRONICS
IMPORTANT? 2 1.4 COMPONENTS OF A MECHATRONIC SYSTEM 2 1.5 BRAIN FOR
MECHATRONICS 4 RELATED READING 5 QUESTIONS 5 PROBLEMS 5 PROJECT 6 2.
ELEMENTS AND ANALYSIS OF ELECTRIC CIRCUITS 7 OBJECTIVES 7 2.1
INTRODUCTION 7 *2.2 ELECTRIC FIELD (EE AND ME BASIC) 7 *2.3 CURRENT AND
VOLTAGE (EE AND ME BASIC) 8 *2.4 ELEMENTS OF AN ELECTRIC CIRCUIT (EE AND
ME BASIC) 2.4.7 CIRCUIT CONDITIONS 10 2.4.2 ELECTRIC CIRCUIT SOURCES 10
2.4.3 CIRCUIT LOAD 11 2.4.4 CIRCUIT GROUND 11 2.5 CIRCUIT ANALYSIS (EE
AND ME BASIC) 12 2.5.1 CIRCUIT ELEMENTS IN SERIES AND IN PARALLEL 12 10
SECTIONS SUMMARIZING INFORMATION FROM COURSES PREREQUISITE TO
MECHATRONICS ARE MARKED IN THE TABLE OF CONTENTS. READERS SHOULD FOCUS
MORE ON THE SECTIONS THAT ARE NEW TO THEM. * = EE AND ME BASIC: FROM
GENERAL ENGINEERING SCIENCES T = EE BASIC: MECHANICAL ENGINEERS SHOULD
SPEND MORE TIME STUDYING THESE SECTIONS T = ME BASIC: ELECTRICAL
ENGINEERS SHOULD SPEND MORE TIME WITH THESE SECTIONS VI CONTENTS 2.5.2
KIRCHHOFF S LAWS 13 2.5.3 EQUIVALENT CIRCUIT REPRESENTATION 14 *2.6
RESISTOR (EE AND ME BASIC) 15 2.6.7 VOLTAGE DIVIDER 76 2.6.2 BRIDGE
CIRCUIT 18 2.6.3 SMALL-SIGNAL RESISTANCE 19 2.6.4 RESISTANCE-BASED
SENSORS 79 2.6.5 MEASURING ELECTRICAL RESISTANCE 79 *2.7 CAPACITOR (EE
AND ME BASIC) 20 2.Z7 CAPACITOR APPLICATIONS 25 *2.8 INDUCTOR (EE AND ME
BASIC) 25 2.8.7 MAGNETIC EFFECT OF AN ELECTRIC CURRENT 25 2.8.2
ELECTROMAGNETIC FORCE 28 2.8.3 SELF-INDUCTANCE 28 2.8.4 INDUCTOR-BASED
DEVICES 29 *2.9 ALTERNATING CURRENT (EE AND ME BASIC) 33 2.9.7
STEADY-STATE AND FREQUENCY RESPONSE 34 2.9.2 COMPLEX NUMBER
REPRESENTATION OF VOLTAGE AND CURRENT 34 *2.10 IMPEDANCE (EE AND ME
BASIC) 35 2.70.7 GENERALIZED VOLTAGE DIVIDER 36 2.10.2 CIRCUIT LOADING
37 2.10.3 IMPEDANCE MATCHING 38 + 2.11 POWER (EE BASIC) 39 2.77.7
AVERAGE POWER 40 2.11.2 REACTIVE POWER 42 2.11.3 POWER FACTOR 42 + 2.12
SIGNALS AND SIGNAL SOURCES (EE BASIC) 42 2.72.7 SIGNAL SOURCES 43 + 2.13
TIME DOMAIN ANALYSIS (EE BASIC) 44 2.73.7 DIFFERENTIATORS 46 2.13.2
INTEGRATORS 47 2.14 PASSIVE FILTERS 47 2.74.7 LOW-PASS FILTERS (LPFS) 49
2.14.2 HIGH-PASS FILTERS (HPFS) 51 2.14.3 BAND-PASS AND BAND-REJECT
FILTERS 53 2.14.4 NOTCH AND TRAP FILTERS 55 2.15 NOISE AND INTERFERENCE
IN CIRCUITS 55 2.75.7 GUARDING AGAINST ELECTROMAGNETIC INTERFERENCE
(EMI) 55 2.15.2 BYPASS CAPACITORS 56 2.16 GROUNDING 56 2.76.7 GROUND
LOOPS 56 CONTENTS VII 2.76.2 GROUNDING TECHNIQUES 57 2.16.3 GALVANIC
ISOLATION 58 2.17 SUMMARY 59 RELATED READING 59 QUESTIONS 60 PROBLEMS 60
LABORATORY PROJECTS 63 3. DIODE, TRANSISTOR, AND THYRISTOR CIRCUITS 64
OBJECTIVES 64 F 3.1 SEMICONDUCTORS (EE BASIC) 64 +3.2 DIODES (EE BASIC)
65 3.3 DIODE APPLICATIONS 67 3.3.7 RECTIFICATION 67 3.3.2 DIODE LIMITER,
OR CLIPPER 70 3.3.3 DIODE CLAMP 70 3.3.4 INDUCTIVE LOAD AND DIODE
PROTECTION 71 3.3.5 TEMPERATURE SENSOR 72 3.3.6 VARACTOR 72 3.4 ZENER
DIODES 72 3.5 LIGHT-EMITTING DIODE (LED) 74 3.6 PHOTODIODE 75 + 3.7
TRANSISTORS (EE BASIC) 76 + 3.8 BIPOLAR JUNCTION TRANSISTOR (BJT) (EE
BASIC) 76 3.8.7 TRANSISTOR CHARACTERISTICS 78 3.8.2 TRANSISTOR STATES 79
3.8.3 DC BIASING OF THE BJTS 81 3.8.4 BASIC BJT CIRCUITS 83 3.9
PHOTOTRANSISTOR 86 +3.10 FIELD-EFFECT TRANSISTOR (FET) (EE BASIC) 87
3.70.7 JFETS 87 3.10.2 MOSFETS 88 3.11 MAIN FEATURES OF FETS AND BJTS 91
3.12 POWER TRANSISTORS 91 3.72.7 PACKAGES 92 3.12.2 POWER BIPOLAR
TRANSISTORS 92 3.12.3 DARLINGTONS 93 3.12.4 POWER MOSFETS 94 3.12.5
INSULATED GATE BIPOLAR TRANSISTORS (IGBTS) 96 3.13 THYRISTORS 97 3.73.7
SILICON-CONTROLLED RECTIFIERS (SCRS) 97 VIII CONTENTS 3.73.2 GATE
TURN-OFF (GTO) 100 3.13.3 TRIAC 100 3.14 OPTOCOUPLERS 101 3.15 SUMMARY
102 RELATED READING 102 QUESTIONS 103 PROBLEMS 103 LABORATORY PROJECTS
105 4. OPERATIONAL AMPLIFIER (OP-AMP) CIRCUITS 106 OBJECTIVES 106 4.1
INTRODUCTION 106 *4.2 OP-AMP BASIC SYMBOL (EE AND ME BASIC) 108 *4.3
CIRCUIT MODEL (EE AND ME BASIC) 108 4.4 IDEAL OP-AMP BEHAVIOR 110 4.5
COMMON OP-AMP ICS 110 4.6 BASIC OP-AMP CIRCUITS 112 4.6.7 INVERTING
AMPLIFIER 112 4.6.2 NONINVERTING AMPLIFIER 113 4.6.3 FOLLOWER 114 4.6.4
DIFFERENTIAL AMPLIFIER 114 4.6.5 INSTRUMENTATION AMPLIFIER 116 4.7
LINEAR CIRCUIT APPLICATIONS 118 4.7.1 SUMMING AMPLIFIER (ADDERS) 118
4.7.2 INTEGRATORS 119 4.7.3 DIFFERENTIATORS 120 4.8 NONLINEAR OP-AMP
CIRCUITS 121 4.8.7 COMPARATORS 121 4.8.2 SCHMITT TRIGGERS 122 4.8.3
RECTIFIERS 123 4.8.4 LIMITERS 124 4.9 NONIDEAL OP-AMP BEHAVIOR 125 4.9.7
FEEDBACK WITH FINITE-GAIN AMPLIFIERS 125 4.9.2 OFFSET VOLTAGE AND BIAS
CURRENTS 126 4.10 ACTIVE FILTERS 128 4.70.7 FILTER CIRCUITS AND
FREQUENCY CHARACTERISTICS 130 4.10.2 FILTER TYPES 130 4.11 POWER OP-AMPS
133 4.12 SUMMARY 133 RELATED READING 133 QUESTIONS 134 PROBLEMS 134
LABORATORY PROJECTS 137 CONTENTS IX 5. DIGITAL LOGIC AND LOGIC FAMILIES
138 OBJECTIVES 138 + 5.1 DIGITAL SIGNALS (EE BASIC) 138 F 5.2
COMBINATIONAL AND SEQUENTIAL LOGIC CIRCUITS (EE BASIC) 139 5.3 CLOCK
SIGNALS 140 F 5.4 BOOLEAN ALGEBRA AND LOGIC GATES (EE BASIC) 141 5.4.7
BASIC FUNCTIONS AND GATES 141 5.4.2 BOOLEAN LAWS AND THEOREMS 143 5.4.3
KARNAUGH MAPS 146 5.4.4 DESIGN OF COMBINATIONAL LOGIC CIRCUITS 147 5.5
INTEGRATED CIRCUITS AND LOGIC FAMILIES 148 5.5.7 LOGIC LEVELS 149 5.5.2
NOISE IMMUNITY 149 5.5.3 FAN-OUT 149 5.5.4 POWER DISSIPATION 150 5.5.5
PROPAGATION DELAY 150 5.6 TTL LOGIC FAMILY 151 5.6.7 TTL DESIGNATIONS
151 5.6.2 TTL VERSIONS 151 5.6.3 OUTPUT CONFIGURATIONS 151 5.6.4 TTL
CHARACTERISTICS 154 5.7 THE CMOS FAMILY 155 5.8 INTERFACING CMOS AND TTL
156 5.8.7 INTERFACING TTL TO CMOS 157 5.8.2 INTERFACING CMOS TO TTL 158
5.9 FLIP-FLOPS 158 5.9.7 SET-RESET (SR) FLIP-FLOP 158 5.9.2 TRIGGER (OR
J) FLIP-FLOP 159 5.9.3 CLOCKED D FLIP-FLOP 160 5.9.4 J-K FLIP-FLOP 161
5.10 BUFFERS AND DRIVERS 162 5.70.7 BUS DRIVE AND TERMINATION 163 5.11
COUNTERS AND REGISTERS 164 5.12 DECODERS AND ENCODERS 165 5.13
MULTIPLEXERS AND DEMULTIPLEXERS 166 5.14 THE 555 TIMER 167 5.74.7
OPERATING MODES 168 5.15 PHASE-LOCKED LOOP (PLL) 170 5.16 GLOSSARY OF
LOGIC TERMS 171 5.17 SUMMARY 173 X CONTENTS RELATED READING 173
QUESTIONS 174 PROBLEMS 174 LABORATORY PROJECTS 175 6. MICROCONTROLLERS
AND PROGRAMMING 177 OBJECTIVES 177 + 6.1 COMPUTERS AND COMPUTER PROGRAMS
(EE BASIC) 177 6.7.7 MICROPROCESSOR OR MICROCONTROLLER 178 6.2 OVERVIEW
OF THE 9S12C MCUS 180 6.2.7 CENTRAL PROCESSING UNIT (CPU12) 182 6.2.2
SYSTEM BUS 183 6.2.3 SYSTEM CLOCKS 185 6.2.4 OPERATING MODES 185 6.2.5
MEMORY MAP 187 6.2.6 PROGRAMMING BASICS 188 6.2.7 CPU12 PROGRAMMING
REGISTERS 192 6.2.8 INSTRUCTION QUEUE 197 6.3 ADDRESSING MODES 198 6.3.7
INHERENT (INH) MODE 799 6.3.2 IMMEDIATE (IMM) MODE 199 6.3.3 EXTENDED
(EXT) MODE 200 6.3.4 DIRECT (DIR) MODE 200 6.3.5 RELATIVE (RED MODE 200
6.3.6 INDEXED MODE 201 6.4 INSTRUCTION SET OF THE CPU12 207 6.4.7
DATA-HANDLING INSTRUCTIONS 207 6.4.2 ARITHMETIC INSTRUCTIONS 213 6.4.3
SPECIAL MATH INSTRUCTIONS 218 6.4.4 LOGIC INSTRUCTIONS 220 6.4.5
DATA-COMPARE AND -TESTING INSTRUCTIONS 220 6.4.6 CONDITION CODE REGISTER
INSTRUCTIONS 221 6.4.7 PROGRAM-CONTROL INSTRUCTIONS 222 6.4.8
MISCELLANEOUS INSTRUCTIONS 230 6.5 ASSEMBLER DIRECTIVES 230 6.5.7
SECTION DEFINITION DIRECTIVES 231 6.5.2 CONSTANT DEFINITION DIRECTIVES
231 6.5.3 DATA ALLOCATION DIRECTIVES 232 6.5.4 ASSEMBLY CONTROL
DIRECTIVES 232 6.5.5 LISTING FILE CONTROL 232 6.5.6 CONDITIONAL ASSEMBLY
233 6.5.7 MACRO CONTROL 233 CONTENTS XI 6.6 DEVELOPMENT OF AN ASSEMBLY
LANGUAGE PROGRAM 233 6.6.7 PROGRAM STRATEGIES 234 6.6.2 SOURCE CODE
STRUCTURE 235 6.6.3 CONVERSION FROM ASSEMBLY CODE TO MACHINE CODE 236
6.6.4 DEBUGGING TOOLS 237 6.7 HIGH-LEVEL LANGUAGE 237 6.Z7 C-PROGRAMMING
FOR THE 9S12C MCUS 238 6.8 DEVELOPMENT TOOLS FOR THE MC9S12C 242 6.8.7
BACKGROUND DEBUG MODE (BDM) 243 6.9 16-KBYTE FLASH MODULE 244 6.9.7
SECURITY 244 6.9.2 FLASH PROTECTION 245 6.9.3 FLASK CLOCK 246 6.9.4
FLASH CONFIGURATION (FCNFG) 246 6.9.5 FLASH OPERATIONS 246 6.10
MICROCHIP PIC MICROCONTROLLERS 248 6.70.7 ARCHITECTURAL OVERVIEW OF THE
MICROCHIP PIC 18F452 MCU 249 6.10.2 INSTRUCTION SET 249 6.10.3
PIPELINING 250 6.10.4 CLOCKING SCHEME 250 6.10.5 MEMORY ORGANIZATION 250
6.10.6 ADDRESSING MODES 250 6.10.7 I/O PORTS 250 6.10.8 TIMERS 251
6.10.9 COMPARE/CAPTURE/PWM (CCP) MODULE 251 6.10.10 ANALOG-TO-DIGITAL
CONVERSION (ADC) MODULE 251 6.10.11 INTERRUPT STRUCTURE 251 6.10.12 PIC
DEVELOPMENT SUITE 252 6.11 SUMMARY 252 RELATED READING 252 QUESTIONS 253
PROBLEMS 253 LABORATORY PROJECTS 255 7. PARALLEL I/O AND INTERRUPT
MECHANISM 256 OBJECTIVES 256 7.1 INTRODUCTION 256 7.2 PARALLEL
INPUT/OUTPUT (I/O) 257 7:2.7 COMMON PORT FEATURES 258 7.2.2 SPECIFIC
PORT FEATURES 259 XII CONTENTS 7.3 MECHANICAL SWITCHES 262 Z3.7
INTERFACING BINARY SWITCHES 263 7.3.2 SWITCH DEBOUNCE 264 7.4
INTERFACING KEYBOARDS 265 Z4.7 HARDWARE DECODING 266 7.5 DISPLAYS 267
Z5.7 LIGHT-EMITTING DIODES (LEDS) 268 7.6 INTERFACING LED DISPLAYS 271
7.6.7 SOFTWARE DECODING 272 7.6.2 MULTIPLEXED DISPLAYS 277 7.6.3
HARDWARE DECODING 279 7.7 LCD DISPLAYS 279 7.8 INTERRUPT MECHANISM 280
Z8.7 MASKABLE AND NONMASKABLE INTERRUPTS 281 7.8.2 INTERRUPT PROCESS 281
7.8.3 VECTORED PRIORITY INTERRUPT 282 7.8.4 INTERRUPT AND RESET VECTORS
284 7.8.5 STACKING THE REGISTERS 284 7.9 RESETS 285 Z9.7 EXTERNAL PIN
RESET 285 7.9.2 POWER-ON RESET 286 7.9.3 COP FAILURE RESET 286 7.9.4
CLOCK MONITOR RESET (CMR) 287 7.9.5 RESET SEQUENCE 287 7.10 NONMASKABLE
INTERRUPT (XIRQ) 288 7.11 MASKABLE INTERRUPTS 289 7.12 SUMMARY 292
RELATED READING 292 QUESTIONS 292 PROBLEMS 293 LABORATORY PROJECTS 294
8. SERIAL INTERFACE FACILITY 295 OBJECTIVES 295 8.1 INTRODUCTION 295 8.2
SERIAL COMMUNICATION INTERFACE (SCI) 296 8.2.7 COMMUNICATIONS PROTOCOL
(FRAMING) 296 8.2.2 DATA TRANSFER (BAUD) RATE 297 8.3 SCI REGISTERS 298
8.3.7 DATA REGISTER 298 8.3.2 SCI CONTROL REGISTERS 299 8.3.3 SCI STATUS
REGISTERS 301 CONTENTS XIII 8.4 SCI OPERATION 302 8.4.7 SCI
CONFIGURATION 302 8.4.2 TRANSMIT OPERATION 303 8.4.3 RECEIVE OPERATION
304 8.5 INTERFACING THE 9S12C WITH THE RS232 PORT 306 8.6 SERIAL
PERIPHERAL INTERFACE (SPI) 307 8.6.7 PORT M DATA DIRECTION REGISTER
(DDRM) 308 8.6.2 SPI BAUD RATE REGISTER (SPIBR) 308 8.7 SPI REGISTERS
309 8.Z7 SPI DATA REGISTER (SPIDR) 309 8.7.2 SPI CONTROL REGISTERS 309
8.7.3 SPI STATUS REGISTER (SPISR) 311 8.8 SPI TOPOLOGIES 311 8.9 SPI
OPERATION 313 8.10 I/O EXPANSION OF THE 9S12C 315 8.70.7 OUTPUT PORT
EXPANSION 315 8.10.2 INPUT PORT EXPANSION 317 8.11 SUMMARY 319 RELATED
READING 319 QUESTIONS 319 PROBLEMS 320 LABORATORY PROJECTS 320 9.
PROGRAMMABLE TIMER FACILITY 321 OBJECTIVES 321 9.1 INTRODUCTION 321 9.2
TIMER MODULE IN THE 9S12C MCU 322 9.2.7 FREE-RUNNING COUNTER (TCNT) 323
9.2.2 TIMER OVERFLOW 324 9.2.3 CLEARING THE TIMER FLAG 324 9.3 OUTPUT
COMPARE 324 9.3.7 OUTPUT COMPARE REGISTERS 325 9.3.2 GENERAL SETUP FOR
THE OUTPUT COMPARE OPERATION 326 9.3.3 OPERATION OF THE OC7 330 9.3.4
FORCED OUTPUT COMPARE 332 9.4 INPUT CAPTURE FACILITY 333 9.4.7 INPUT
CAPTURE PINS AND REGISTERS 333 9.5 PULSE ACCUMULATOR 337 9.5.7 PULSE
ACCUMULATOR COUNT REGISTER (PACNT) 337 9.5.2 PA ENABLE AND ACTIVE EDGE
DETECTION 338 9.5.3 PA OPERATING MODES 338 XIV CONTENTS 9.6 REAL-TIME
CLOCK 341 9.7 PULSE-WIDTH MODULATION (PWM) 342 9.8 SUMMARY 348 RELATED
READING 349 QUESTIONS 349 PROBLEMS 349 LABORATORY PROJECTS 350 10.
ANALOG-TO-DIGITAL (A/D) AND DIGITAL-TO-ANALOG (D/A) CONVERSION 351
OBJECTIVES 351 10.1 INTRODUCTION 351 10.2 FUNDAMENTALS OF A/D CONVERSION
352 70.2.7 RESOLUTION 353 10.2.2 I/O MAPPING 353 10.2.3 ALIASING 356
10.2.4 AMPLITUDE UNCERTAINTY 357 10.2.5 SAMPLE AND HOLD (S/H) 358 10.2.6
MULTIPLE SENSOR INPUTS 360 10.3 A/D CONVERSION TECHNIQUES 360 70.3.7
INTEGRATING ADCS 360 10.3.2 SUCCESSIVE-APPROXIMATION ADC 363 10.3.3
FLASH ADC 364 10.4 ADC FACILITY OF THE 9S12CMCU 365 70.4.7 VOLTAGE
REFERENCES 365 10.4.2 ATD REGISTERS 366 10.4.3 ATD SETUP 366 10.4.4
CONVERSION TIME 368 10.4.5 CHANNEL SELECTION 368 10.4.6 CHANNEL SAMPLING
AND CONVERSION RESULTS 369 10.4.7 INPUT SIGNAL RANGE 373 10.5
DIGITAL-TO-ANALOG CONVERSION (DAC) 376 70.5.7 COMPONENTS OF A D/A
CONVERTER (DAC) 377 10.5.2 OUTPUT VOLTAGE 377 10.5.3 RANGE 378 10.5.4
RESOLUTION 379 10.5.5 ACCURACY 379 10.5.6 BIPOLAR DACS 380 10.5.7 DAC
ICS 381 10.6 SUMMARY 382 RELATED READING 382 QUESTIONS 382 PROBLEMS 383
LABORATORY PROJECTS 384 CONTENTS XV 11. SENSORS AND THEIR INTERFACE 385
OBJECTIVES 385 11.1 INTRODUCTION 385 11.2 CLASSIFICATION OF SENSORS 386
11.3 SMART SENSORS 387 11.4 SENSOR MODELS AND RESPONSE CHARACTERISTICS
388 11.5 SENSOR CHARACTERISTICS 390 11.6 SIGNAL CONDITIONING 392 77.6.7
AMPLIFICATION 393 11.6.2 CONVERSION 393 11.6.3 FILTERING 393 11.6.4
IMPEDANCE BUFFERING 394 11.6.5 MODULATION/DEMODULATION 394 11.6.6
LINEARIZATION 394 11.6.7 GROUNDING AND ISOLATION 395 11.7 POTENTIOMETER
SENSORS (POT) 396 11.8 LIGHT DETECTORS 398 77.8.7 MATERIALS FOR LIGHT
DETECTORS 400 11.8.2 TYPES AND MODES OF OPERATION OF LIGHT DETECTORS 400
11.8.3 APPLICATIONS OF LIGHT DETECTORS 400 11.9 PHOTORESISTOR
(PHOTOCELL) 400 77.9.7 MATERIALS FOR PHOTOCELLS 401 11.9.2 INTERFACING A
PHOTOCELL TO THE 9S12C 401 11.10 PHOTODIODE 402 77.70.7 PHOTODIODE TYPES
402 11.10.2 PHOTODIODE CHARACTERISTICS 403 11.10.3 OPERATING MODES 403
11.10.4 APPLICATIONS 404 11.11 PHOTOTRANSISTOR 405 77.77.7
PHOTOTRANSISTOR CHARACTERISTICS 405 11.11.2 APPLICATIONS 406 11.12 IR
EMITTER/DETECTOR PACKAGES 407 77.72.7 OPTICAL INTERRUPTER 407 11.12.2
OPTICAL COUPLER (OPTICAL ISOLATOR) 408 11.12.3 OPTICAL REFLECTORS 408
11.12.4 NIR RECEIVER/DEMODULATOR SENSORS 409 11.13 OPTICAL ENCODER 410
11.14 PYROELECTRIC SENSOR 412 77.74.7 SIGNAL CONDITIONING 414 11.15
THERMAL DETECTORS 414 77.75.7 THERMOCOUPLE 415 11.15.2 THERMOPILES 418
XVI CONTENTS 77.75.3 THEREMORESISITIVE DEVICES 418 11.15.4 THERMODIODE
423 11.15.5 THERMOTRANSISTOR 424 11.16 HEAT FLUX SENSOR 425 11.17
MAGNETIC SENSORS 426 77.7Z7 MAGNETIC REED SWITCH 426 11.17.2 HALL-EFFECT
DEVICE 427 11.18 STRAIN GAUGES 430 77.78.7 BRIDGE CIRCUIT 431 11.18.2
STRAIN-GAUGE MEASUREMENT 433 11.19 ACOUSTIC MEASUREMENT 434 77.79.7
PROPERTIES OF WAVE PROPAGATION 434 11.19.2 ACOUSTIC SENSORS 436 11.19.3
TYPES OF TRANSDUCER ELEMENT 437 11.19.4 TYPES OF MEASUREMENTS 440 11.20
PIEZOELECTRICITY 443 77.20.7 PIEZOELECTRIC EFFECT 443 11.20.2
PIEZOELECTRIC USE IN MEMS 444 11.20.3 CONSTITUTIVE RELATIONS IN ONE
DIMENSION 444 11.20.4 PIEZOELECTRIC SENSOR 445 11.20.5 PIEZOELECTRIC
MASS-SENSITIVE CHEMICAL SENSOR 447 11.21 RESOLVER 448 11.22 TACHOMETER
449 * 11.23 CAPACITIVE SENSORS 449 11.24 INDUCTIVE SENSORS 451 77.24.7
MOTION-DETECTION SENSOR 451 11.24.2 LINEAR VARIABLE DIFFERENTIAL
TRANSFORMER (LVDT) 451 11.25 FOUR- TO 20-MA TRANSMITTERS 453 77.25.7
VOLTAGE-TO-CURRENT CONVERTER 454 11.26 SUMMARY 454 RELATED READING 455
QUESTIONS 455 PROBLEMS 456 LABORATORY PROJECTS 459 12. ELECTRIC
ACTUATORS 460 OBJECTIVES 460 12.1 ACTUATORS 460 12.2 DC MOTORS 461
72.2.7 PRINCIPLES OF OPERATION OF A DC MOTOR 461 12.2.2 MODELING OF DC
MOTOR BEHAVIOR 465 12.2.3 HEAT DISSIPATION IN DC MOTORS 472 CONTENTS
XVII 72.2.4 VELOCITY PROFILE OPTIMIZATION 473 12.2.5 INERTIA MATCHING
474 12.2.6 MOTOR SELECTION 476 12.2.7 SERVO AMPLIFIERS 479 12.2.8 DC
MOTOR SERVO DRIVE 482 12.2.9 INTERFACING DC MOTORS TO THE 9S12C 485
12.2.10 DC SERVOS 490 12.3 STEPPER MOTORS 491 72.3.7 CHARACTERISTICS OF
A STEPPER MOTOR 491 12.3.2 CLASSIFICATION OF STEPPER MOTORS 491 12.3.3
PRINCIPLE OF OPERATION 494 12.3.4 STEP ANGLE 498 12.3.5 ELECTRICAL MODEL
OF AN ENERGIZED COIL 499 12.3.6 DRIVE METHODS 501 12.3.7 STEPPER MOTOR
PERFORMANCE 503 12.3.8 INTERFACING STEPPER MOTORS TO THE 9S12C MCU 509
12.4 AC INDUCTION MOTORS 515 72.4.7 THREE-PHASE MOTORS 516 12.4.2 SPEED
CONTROL OF THE INDUCTION MOTOR 519 12.5 SUMMARY 524 RELATED READING 524
QUESTIONS 524 PROBLEMS 525 LABORATORY PROJECTS 526 13. CONTROL SCHEMES
527 OBJECTIVES 527 13.1 INTRODUCTION 527 73.7.7 HISTORY OF CONTROL 527
13.1.2 OPEN-LOOP CONTROL 529 13.1.3 CLOSED-LOOP CONTROL 529 13.2
CLASSICAL CONTROL 530 73.2.7 MATHEMATICAL MODELING 530 13.2.2 TRANSFER
FUNCTION 532 13.2.3 TRANSIENT AND STEADY-STATE ANALYSES 533 13.2.4 ROOT
LOCUS 537 13.2.5 FREQUENCY RESPONSE 543 13.2.6 LAG-LEAD COMPENSATOR 549
13.2.7 PROPORTIONAL-INTEGRAL-DERIVATIVE (PID) CONTROLLER DESIGN 557 13.3
STATE-SPACE-BASED CONTROL STRATEGIES 565 XVIII CONTENTS 13.4 ADAPTIVE
CONTROL 571 73.4.7 GAIN SCHEDULING 571 13.4.2 MODEL-REFERENCE ADAPTIVE
CONTROL (MRAC) 572 13.4.3 SELF-TUNING REGULATORS 573 13.5 DIGITAL
CONTROL 574 73.5.7 DISCRETIZATION TECHNIQUES 574 13.5.2 EMULATION 575
13.5.3 DIRECT DIGITAL CONTROL 575 13.6 INTELLIGENT CONTROL 576 73.6.7
FUZZY LOGIC CONTROL DESIGN 576 13.7 ADAPTIVE FUZZY LOGIC CONTROLLERS 583
73.Z7 INTRODUCTION 583 13.7.2 FUZZY MODEL-REFERENCE ADAPTIVE CONTROLLER
583 13.7.3 MEMBERSHIP-TUNING ADAPTIVE CONTROLLER 586 13.8 EXPERIMENTAL
COMPARATIVE ANALYSIS 591 73.8.7 HARDWARE PLATFORM 13.8.2 DIGITAL CONTROL
WORKSTATION 591 13.9 CONCLUSION 599 RELATED READING 599 QUESTIONS 600
PROBLEMS 601 14. CASE STUDIES 603 OBJECTIVES 603 14.1 INTRODUCTION 603
14.2 CASE STUDY 1: AUTONOMOUS MOBILE ROBOT 604 74.2.7 INTRODUCTION 604
14.2.2 MECHANICAL DESIGN ALTERNATIVES 605 14.2.3 DESIGN SPECIFICATIONS
606 14.2.4 ELECTRONIC CIRCUITS AND INTERFACING 612 14.2.5 SOFTWARE
DESIGN 618 14.2.6 CASE OUTCOMES 620 REFERENCES 621 14.3 CASE STUDY 2:
WIRELESS SURVEILLANCE BALLOON 621 74.3.7 PROBLEM DEFINITION 621 14.3.2
DESIGN 621 14.3.3 PARTS 626 14.3.4 CASE OUTCOMES 635 REFERENCES 636 14.4
CASE STUDY 3: FIREFIGHTING ROBOT 636 74.4.7 PROBLEM STATEMENT 636 14.4.2
DESIGN ALTERNATIVES 638 CONTENTS XIX 74.4.3 IMPLEMENTATION 639 14.4.4
CASE OUTCOMES 647 REFERENCES 649 14.5 CASE STUDY 4: PIEZO SENSORS AND
ACTUATORS IN CANTILEVER BEAM VIBRATION CONTROL 649 74.5.7 INTRODUCTION
649 14.5.2 MODELING OF THE CANTILEVER BEAM AND PZT ACTUATOR 650 14.5.3
BEAM EXPERIMENTAL SETUP 652 14.5.4 INSTRUMENTATION SETUP 654 14.5.5
CONTROLLER AND SOFTWARE 658 14.5.6 SIMULATION AND EXPERIMENTAL PID
RESULTS 661 14.5.7 SIMULATION AND EXPERIMENTAL FUZZY RESULTS 665 14.5.8
CONCLUSIONS 668 14.5.9 CASE OUTCOMES 668 APPENDIX A: DC POWER SUPPLY
(EE BASIC) 670 APPENDIX B: PINOUT OF SELECTED ICS 672 APPENDIX C:
INSTRUCTION SET, ADDRESSING MODES, AND EXECUTION TIMES FOR THE MC9SI2C
674 APPENDIX D: MC9S12C REGISTERS AND CONTROL BIT ASSIGNMENTS 676
APPENDIX E: USING THE CODEWARRIOR INTEGRATED DEVELOPMENT ENVIRONMENT
(IDE) 678 APPENDIX F: ASCII CODE TABLE 680 APPENDIX G: NUMBER SYSTEMS
(EE BASIC) 681 * APPENDIX H: MECHANISMS FOR MECHATRONICS (ME BASIC) 691
INDEX 706
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APPLIED MECHATRONICS A. SMAILI MECHANICAL ENGINEERING AND MEEHATRONICS
DEPARTMENT HARIRI CANADIAN UNIVERSITY * MESHREF F.MRAD ELECTRICAL AND
COMPUTER ENGINEERING DEPARTMENT AMERICAN UNIVERSITY OF BEIRUT * BEIRUT,
LEBANON ULB DARMSTADT IIIIIIIIIIIII 16929590 NEW YORK OXFORD OXFORD
UNIVERSITY PRESS 2008 CONTENTS PREFACE XX ACKNOWLEDGMENTS XXI 1.
MEEHATRONICS: AN INTRODUCTION 1 OBJECTIVES 1 1.1 WHAT IS MECHATRONICS? 1
1.2 ESSENTIAL SKILLS FOR MECHATRONICS 2 1.3 WHY IS MECHATRONICS
IMPORTANT? 2 1.4 COMPONENTS OF A MECHATRONIC SYSTEM 2 1.5 BRAIN FOR
MECHATRONICS 4 RELATED READING 5 QUESTIONS 5 PROBLEMS 5 PROJECT 6 2.
ELEMENTS AND ANALYSIS OF ELECTRIC CIRCUITS 7 OBJECTIVES 7 2.1
INTRODUCTION 7 *2.2 ELECTRIC FIELD (EE AND ME BASIC) 7 *2.3 CURRENT AND
VOLTAGE (EE AND ME BASIC) 8 *2.4 ELEMENTS OF AN ELECTRIC CIRCUIT (EE AND
ME BASIC) 2.4.7 CIRCUIT CONDITIONS 10 2.4.2 ELECTRIC CIRCUIT SOURCES 10
2.4.3 CIRCUIT LOAD 11 2.4.4 CIRCUIT GROUND 11 2.5 CIRCUIT ANALYSIS (EE
AND ME BASIC) 12 2.5.1 CIRCUIT ELEMENTS IN SERIES AND IN PARALLEL 12 10
SECTIONS SUMMARIZING INFORMATION FROM COURSES PREREQUISITE TO
MECHATRONICS ARE MARKED IN THE TABLE OF CONTENTS. READERS SHOULD FOCUS
MORE ON THE SECTIONS THAT ARE NEW TO THEM. * = EE AND ME BASIC: FROM
GENERAL ENGINEERING SCIENCES T = EE BASIC: MECHANICAL ENGINEERS SHOULD
SPEND MORE TIME STUDYING THESE SECTIONS T = ME BASIC: ELECTRICAL
ENGINEERS SHOULD SPEND MORE TIME WITH THESE SECTIONS VI CONTENTS 2.5.2
KIRCHHOFF'S LAWS 13 2.5.3 EQUIVALENT CIRCUIT REPRESENTATION 14 *2.6
RESISTOR (EE AND ME BASIC) 15 2.6.7 VOLTAGE DIVIDER 76 2.6.2 BRIDGE
CIRCUIT 18 2.6.3 SMALL-SIGNAL RESISTANCE 19 2.6.4 RESISTANCE-BASED
SENSORS 79 2.6.5 MEASURING ELECTRICAL RESISTANCE 79 *2.7 CAPACITOR (EE
AND ME BASIC) 20 2.Z7 CAPACITOR APPLICATIONS 25 *2.8 INDUCTOR (EE AND ME
BASIC) 25 2.8.7 MAGNETIC EFFECT OF AN ELECTRIC CURRENT 25 2.8.2
ELECTROMAGNETIC FORCE 28 2.8.3 SELF-INDUCTANCE 28 2.8.4 INDUCTOR-BASED
DEVICES 29 *2.9 ALTERNATING CURRENT (EE AND ME BASIC) 33 2.9.7
STEADY-STATE AND FREQUENCY RESPONSE 34 2.9.2 COMPLEX NUMBER
REPRESENTATION OF VOLTAGE AND CURRENT 34 *2.10 IMPEDANCE (EE AND ME
BASIC) 35 2.70.7 GENERALIZED VOLTAGE DIVIDER 36 2.10.2 CIRCUIT LOADING
37 2.10.3 IMPEDANCE MATCHING 38 + 2.11 POWER (EE BASIC) 39 2.77.7
AVERAGE POWER 40 2.11.2 REACTIVE POWER 42 2.11.3 POWER FACTOR 42 + 2.12
SIGNALS AND SIGNAL SOURCES (EE BASIC) 42 2.72.7 SIGNAL SOURCES 43 + 2.13
TIME DOMAIN ANALYSIS (EE BASIC) 44 2.73.7 DIFFERENTIATORS 46 2.13.2
INTEGRATORS 47 2.14 PASSIVE FILTERS 47 2.74.7 LOW-PASS FILTERS (LPFS) 49
2.14.2 HIGH-PASS FILTERS (HPFS) 51 2.14.3 BAND-PASS AND BAND-REJECT
FILTERS 53 2.14.4 NOTCH AND TRAP FILTERS 55 2.15 NOISE AND INTERFERENCE
IN CIRCUITS 55 2.75.7 GUARDING AGAINST ELECTROMAGNETIC INTERFERENCE
(EMI) 55 2.15.2 BYPASS CAPACITORS 56 2.16 GROUNDING 56 2.76.7 GROUND
LOOPS 56 CONTENTS VII 2.76.2 GROUNDING TECHNIQUES 57 2.16.3 GALVANIC
ISOLATION 58 2.17 SUMMARY 59 RELATED READING 59 QUESTIONS 60 PROBLEMS 60
LABORATORY PROJECTS 63 3. DIODE, TRANSISTOR, AND THYRISTOR CIRCUITS 64
OBJECTIVES 64 F 3.1 SEMICONDUCTORS (EE BASIC) 64 +3.2 DIODES (EE BASIC)
65 3.3 DIODE APPLICATIONS 67 3.3.7 RECTIFICATION 67 3.3.2 DIODE LIMITER,
OR CLIPPER 70 3.3.3 DIODE CLAMP 70 3.3.4 INDUCTIVE LOAD AND DIODE
PROTECTION 71 3.3.5 TEMPERATURE SENSOR 72 3.3.6 VARACTOR 72 3.4 ZENER
DIODES 72 3.5 LIGHT-EMITTING DIODE (LED) 74 3.6 PHOTODIODE 75 + 3.7
TRANSISTORS (EE BASIC) 76 + 3.8 BIPOLAR JUNCTION TRANSISTOR (BJT) (EE
BASIC) 76 3.8.7 TRANSISTOR CHARACTERISTICS 78 3.8.2 TRANSISTOR STATES 79
3.8.3 DC BIASING OF THE BJTS 81 3.8.4 BASIC BJT CIRCUITS 83 3.9
PHOTOTRANSISTOR 86 +3.10 FIELD-EFFECT TRANSISTOR (FET) (EE BASIC) 87
3.70.7 JFETS 87 3.10.2 MOSFETS 88 3.11 MAIN FEATURES OF FETS AND BJTS 91
3.12 POWER TRANSISTORS 91 3.72.7 PACKAGES 92 3.12.2 POWER BIPOLAR
TRANSISTORS 92 3.12.3 DARLINGTONS 93 3.12.4 POWER MOSFETS 94 3.12.5
INSULATED GATE BIPOLAR TRANSISTORS (IGBTS) 96 3.13 THYRISTORS 97 3.73.7
SILICON-CONTROLLED RECTIFIERS (SCRS) 97 VIII CONTENTS 3.73.2 GATE
TURN-OFF (GTO) 100 3.13.3 TRIAC 100 3.14 OPTOCOUPLERS 101 3.15 SUMMARY
102 RELATED READING 102 QUESTIONS 103 PROBLEMS 103 LABORATORY PROJECTS
105 4. OPERATIONAL AMPLIFIER (OP-AMP) CIRCUITS 106 OBJECTIVES 106 4.1
INTRODUCTION 106 *4.2 OP-AMP BASIC SYMBOL (EE AND ME BASIC) 108 *4.3
CIRCUIT MODEL (EE AND ME BASIC) 108 4.4 IDEAL OP-AMP BEHAVIOR 110 4.5
COMMON OP-AMP ICS 110 4.6 BASIC OP-AMP CIRCUITS 112 4.6.7 INVERTING
AMPLIFIER 112 4.6.2 NONINVERTING AMPLIFIER 113 4.6.3 FOLLOWER 114 4.6.4
DIFFERENTIAL AMPLIFIER 114 4.6.5 INSTRUMENTATION AMPLIFIER 116 4.7
LINEAR CIRCUIT APPLICATIONS 118 4.7.1 SUMMING AMPLIFIER (ADDERS) 118
4.7.2 INTEGRATORS 119 4.7.3 DIFFERENTIATORS 120 4.8 NONLINEAR OP-AMP
CIRCUITS 121 4.8.7 COMPARATORS 121 4.8.2 SCHMITT TRIGGERS 122 4.8.3
RECTIFIERS 123 4.8.4 LIMITERS 124 4.9 NONIDEAL OP-AMP BEHAVIOR 125 4.9.7
FEEDBACK WITH FINITE-GAIN AMPLIFIERS 125 4.9.2 OFFSET VOLTAGE AND BIAS
CURRENTS 126 4.10 ACTIVE FILTERS 128 4.70.7 FILTER CIRCUITS AND
FREQUENCY CHARACTERISTICS 130 4.10.2 FILTER TYPES 130 4.11 POWER OP-AMPS
133 4.12 SUMMARY 133 RELATED READING 133 QUESTIONS 134 PROBLEMS 134
LABORATORY PROJECTS 137 CONTENTS IX 5. DIGITAL LOGIC AND LOGIC FAMILIES
138 OBJECTIVES 138 + 5.1 DIGITAL SIGNALS (EE BASIC) 138 F 5.2
COMBINATIONAL AND SEQUENTIAL LOGIC CIRCUITS (EE BASIC) 139 5.3 CLOCK
SIGNALS 140 F 5.4 BOOLEAN ALGEBRA AND LOGIC GATES (EE BASIC) 141 5.4.7
BASIC FUNCTIONS AND GATES 141 5.4.2 BOOLEAN LAWS AND THEOREMS 143 5.4.3
KARNAUGH MAPS 146 5.4.4 DESIGN OF COMBINATIONAL LOGIC CIRCUITS 147 5.5
INTEGRATED CIRCUITS AND LOGIC FAMILIES 148 5.5.7 LOGIC LEVELS 149 5.5.2
NOISE IMMUNITY 149 5.5.3 FAN-OUT 149 5.5.4 POWER DISSIPATION 150 5.5.5
PROPAGATION DELAY 150 5.6 TTL LOGIC FAMILY 151 5.6.7 TTL DESIGNATIONS
151 5.6.2 TTL VERSIONS 151 5.6.3 OUTPUT CONFIGURATIONS 151 5.6.4 TTL
CHARACTERISTICS 154 5.7 THE CMOS FAMILY 155 5.8 INTERFACING CMOS AND TTL
156 5.8.7 INTERFACING TTL TO CMOS 157 5.8.2 INTERFACING CMOS TO TTL 158
5.9 FLIP-FLOPS 158 5.9.7 SET-RESET (SR) FLIP-FLOP 158 5.9.2 TRIGGER (OR
J) FLIP-FLOP 159 5.9.3 CLOCKED D FLIP-FLOP 160 5.9.4 J-K FLIP-FLOP 161
5.10 BUFFERS AND DRIVERS 162 5.70.7 BUS DRIVE AND TERMINATION 163 5.11
COUNTERS AND REGISTERS 164 5.12 DECODERS AND ENCODERS 165 5.13
MULTIPLEXERS AND DEMULTIPLEXERS 166 5.14 THE 555 TIMER 167 5.74.7
OPERATING MODES 168 5.15 PHASE-LOCKED LOOP (PLL) 170 5.16 GLOSSARY OF
LOGIC TERMS 171 5.17 SUMMARY 173 X CONTENTS RELATED READING 173
QUESTIONS 174 PROBLEMS 174 LABORATORY PROJECTS 175 6. MICROCONTROLLERS
AND PROGRAMMING 177 OBJECTIVES 177 + 6.1 COMPUTERS AND COMPUTER PROGRAMS
(EE BASIC) 177 6.7.7 MICROPROCESSOR OR MICROCONTROLLER 178 6.2 OVERVIEW
OF THE 9S12C MCUS 180 6.2.7 CENTRAL PROCESSING UNIT (CPU12) 182 6.2.2
SYSTEM BUS 183 6.2.3 SYSTEM CLOCKS 185 6.2.4 OPERATING MODES 185 6.2.5
MEMORY MAP 187 6.2.6 PROGRAMMING BASICS 188 6.2.7 CPU12 PROGRAMMING
REGISTERS 192 6.2.8 INSTRUCTION QUEUE 197 6.3 ADDRESSING MODES 198 6.3.7
INHERENT (INH) MODE 799 6.3.2 IMMEDIATE (IMM) MODE 199 6.3.3 EXTENDED
(EXT) MODE 200 6.3.4 DIRECT (DIR) MODE 200 6.3.5 RELATIVE (RED MODE 200
6.3.6 INDEXED MODE 201 6.4 INSTRUCTION SET OF THE CPU12 207 6.4.7
DATA-HANDLING INSTRUCTIONS 207 6.4.2 ARITHMETIC INSTRUCTIONS 213 6.4.3
SPECIAL MATH INSTRUCTIONS 218 6.4.4 LOGIC INSTRUCTIONS 220 6.4.5
DATA-COMPARE AND -TESTING INSTRUCTIONS 220 6.4.6 CONDITION CODE REGISTER
INSTRUCTIONS 221 6.4.7 PROGRAM-CONTROL INSTRUCTIONS 222 6.4.8
MISCELLANEOUS INSTRUCTIONS 230 6.5 ASSEMBLER DIRECTIVES 230 6.5.7
SECTION DEFINITION DIRECTIVES 231 6.5.2 CONSTANT DEFINITION DIRECTIVES
231 6.5.3 DATA ALLOCATION DIRECTIVES 232 6.5.4 ASSEMBLY CONTROL
DIRECTIVES 232 6.5.5 LISTING FILE CONTROL 232 6.5.6 CONDITIONAL ASSEMBLY
233 6.5.7 MACRO CONTROL 233 CONTENTS XI 6.6 DEVELOPMENT OF AN ASSEMBLY
LANGUAGE PROGRAM 233 6.6.7 PROGRAM STRATEGIES 234 6.6.2 SOURCE CODE
STRUCTURE 235 6.6.3 CONVERSION FROM ASSEMBLY CODE TO MACHINE CODE 236
6.6.4 DEBUGGING TOOLS 237 6.7 HIGH-LEVEL LANGUAGE 237 6.Z7 C-PROGRAMMING
FOR THE 9S12C MCUS 238 6.8 DEVELOPMENT TOOLS FOR THE MC9S12C 242 6.8.7
BACKGROUND DEBUG MODE (BDM) 243 6.9 16-KBYTE FLASH MODULE 244 6.9.7
SECURITY 244 6.9.2 FLASH PROTECTION 245 6.9.3 FLASK CLOCK 246 6.9.4
FLASH CONFIGURATION (FCNFG) 246 6.9.5 FLASH OPERATIONS 246 6.10
MICROCHIP PIC MICROCONTROLLERS 248 6.70.7 ARCHITECTURAL OVERVIEW OF THE
MICROCHIP PIC 18F452 MCU 249 6.10.2 INSTRUCTION SET 249 6.10.3
PIPELINING 250 6.10.4 CLOCKING SCHEME 250 6.10.5 MEMORY ORGANIZATION 250
6.10.6 ADDRESSING MODES 250 6.10.7 I/O PORTS 250 6.10.8 TIMERS 251
6.10.9 COMPARE/CAPTURE/PWM (CCP) MODULE 251 6.10.10 ANALOG-TO-DIGITAL
CONVERSION (ADC) MODULE 251 6.10.11 INTERRUPT STRUCTURE 251 6.10.12 PIC
DEVELOPMENT SUITE 252 6.11 SUMMARY 252 RELATED READING 252 QUESTIONS 253
PROBLEMS 253 LABORATORY PROJECTS 255 7. PARALLEL I/O AND INTERRUPT
MECHANISM 256 OBJECTIVES 256 7.1 INTRODUCTION 256 7.2 PARALLEL
INPUT/OUTPUT (I/O) 257 7:2.7 COMMON PORT FEATURES 258 7.2.2 SPECIFIC
PORT FEATURES 259 XII CONTENTS 7.3 MECHANICAL SWITCHES 262 Z3.7
INTERFACING BINARY SWITCHES 263 7.3.2 SWITCH DEBOUNCE 264 7.4
INTERFACING KEYBOARDS 265 Z4.7 HARDWARE DECODING 266 7.5 DISPLAYS 267
Z5.7 LIGHT-EMITTING DIODES (LEDS) 268 7.6 INTERFACING LED DISPLAYS 271
7.6.7 SOFTWARE DECODING 272 7.6.2 MULTIPLEXED DISPLAYS 277 7.6.3
HARDWARE DECODING 279 7.7 LCD DISPLAYS 279 7.8 INTERRUPT MECHANISM 280
Z8.7 MASKABLE AND NONMASKABLE INTERRUPTS 281 7.8.2 INTERRUPT PROCESS 281
7.8.3 VECTORED PRIORITY INTERRUPT 282 7.8.4 INTERRUPT AND RESET VECTORS
284 7.8.5 STACKING THE REGISTERS 284 7.9 RESETS 285 Z9.7 EXTERNAL PIN
RESET 285 7.9.2 POWER-ON RESET 286 7.9.3 COP FAILURE RESET 286 7.9.4
CLOCK MONITOR RESET (CMR) 287 7.9.5 RESET SEQUENCE 287 7.10 NONMASKABLE
INTERRUPT (XIRQ) 288 7.11 MASKABLE INTERRUPTS 289 7.12 SUMMARY 292
RELATED READING 292 QUESTIONS 292 PROBLEMS 293 LABORATORY PROJECTS 294
8. SERIAL INTERFACE FACILITY 295 OBJECTIVES 295 8.1 INTRODUCTION 295 8.2
SERIAL COMMUNICATION INTERFACE (SCI) 296 8.2.7 COMMUNICATIONS PROTOCOL
(FRAMING) 296 8.2.2 DATA TRANSFER (BAUD) RATE 297 8.3 SCI REGISTERS 298
8.3.7 DATA REGISTER 298 8.3.2 SCI CONTROL REGISTERS 299 8.3.3 SCI STATUS
REGISTERS 301 CONTENTS XIII 8.4 SCI OPERATION 302 8.4.7 SCI
CONFIGURATION 302 8.4.2 TRANSMIT OPERATION 303 8.4.3 RECEIVE OPERATION
304 8.5 INTERFACING THE 9S12C WITH THE RS232 PORT 306 8.6 SERIAL
PERIPHERAL INTERFACE (SPI) 307 8.6.7 PORT M DATA DIRECTION REGISTER
(DDRM) 308 8.6.2 SPI BAUD RATE REGISTER (SPIBR) 308 8.7 SPI REGISTERS
309 8.Z7 SPI DATA REGISTER (SPIDR) 309 8.7.2 SPI CONTROL REGISTERS 309
8.7.3 SPI STATUS REGISTER (SPISR) 311 8.8 SPI TOPOLOGIES 311 8.9 SPI
OPERATION 313 8.10 I/O EXPANSION OF THE 9S12C 315 8.70.7 OUTPUT PORT
EXPANSION 315 8.10.2 INPUT PORT EXPANSION 317 8.11 SUMMARY 319 RELATED
READING 319 QUESTIONS 319 PROBLEMS 320 LABORATORY PROJECTS 320 9.
PROGRAMMABLE TIMER FACILITY 321 OBJECTIVES 321 9.1 INTRODUCTION 321 9.2
TIMER MODULE IN THE 9S12C MCU 322 9.2.7 FREE-RUNNING COUNTER (TCNT) 323
9.2.2 TIMER OVERFLOW 324 9.2.3 CLEARING THE TIMER FLAG 324 9.3 OUTPUT
COMPARE 324 9.3.7 OUTPUT COMPARE REGISTERS 325 9.3.2 GENERAL SETUP FOR
THE OUTPUT COMPARE OPERATION 326 9.3.3 OPERATION OF THE OC7 330 9.3.4
FORCED OUTPUT COMPARE 332 9.4 INPUT CAPTURE FACILITY 333 9.4.7 INPUT
CAPTURE PINS AND REGISTERS 333 9.5 PULSE ACCUMULATOR 337 9.5.7 PULSE
ACCUMULATOR COUNT REGISTER (PACNT) 337 9.5.2 PA ENABLE AND ACTIVE EDGE
DETECTION 338 9.5.3 PA OPERATING MODES 338 XIV CONTENTS 9.6 REAL-TIME
CLOCK 341 9.7 PULSE-WIDTH MODULATION (PWM) 342 9.8 SUMMARY 348 RELATED
READING 349 QUESTIONS 349 PROBLEMS 349 LABORATORY PROJECTS 350 10.
ANALOG-TO-DIGITAL (A/D) AND DIGITAL-TO-ANALOG (D/A) CONVERSION 351
OBJECTIVES 351 10.1 INTRODUCTION 351 10.2 FUNDAMENTALS OF A/D CONVERSION
352 70.2.7 RESOLUTION 353 10.2.2 I/O MAPPING 353 10.2.3 ALIASING 356
10.2.4 AMPLITUDE UNCERTAINTY 357 10.2.5 SAMPLE AND HOLD (S/H) 358 10.2.6
MULTIPLE SENSOR INPUTS 360 10.3 A/D CONVERSION TECHNIQUES 360 70.3.7
INTEGRATING ADCS 360 10.3.2 SUCCESSIVE-APPROXIMATION ADC 363 10.3.3
FLASH ADC 364 10.4 ADC FACILITY OF THE 9S12CMCU 365 70.4.7 VOLTAGE
REFERENCES 365 10.4.2 ATD REGISTERS 366 10.4.3 ATD SETUP 366 10.4.4
CONVERSION TIME 368 10.4.5 CHANNEL SELECTION 368 10.4.6 CHANNEL SAMPLING
AND CONVERSION RESULTS 369 10.4.7 INPUT SIGNAL RANGE 373 10.5
DIGITAL-TO-ANALOG CONVERSION (DAC) 376 70.5.7 COMPONENTS OF A D/A
CONVERTER (DAC) 377 10.5.2 OUTPUT VOLTAGE 377 10.5.3 RANGE 378 10.5.4
RESOLUTION 379 10.5.5 ACCURACY 379 10.5.6 BIPOLAR DACS 380 10.5.7 DAC
ICS 381 10.6 SUMMARY 382 RELATED READING 382 QUESTIONS 382 PROBLEMS 383
LABORATORY PROJECTS 384 CONTENTS XV 11. SENSORS AND THEIR INTERFACE 385
OBJECTIVES 385 11.1 INTRODUCTION 385 11.2 CLASSIFICATION OF SENSORS 386
11.3 SMART SENSORS 387 11.4 SENSOR MODELS AND RESPONSE CHARACTERISTICS
388 11.5 SENSOR CHARACTERISTICS 390 11.6 SIGNAL CONDITIONING 392 77.6.7
AMPLIFICATION 393 11.6.2 CONVERSION 393 11.6.3 FILTERING 393 11.6.4
IMPEDANCE BUFFERING 394 11.6.5 MODULATION/DEMODULATION 394 11.6.6
LINEARIZATION 394 11.6.7 GROUNDING AND ISOLATION 395 11.7 POTENTIOMETER
SENSORS (POT) 396 11.8 LIGHT DETECTORS 398 77.8.7 MATERIALS FOR LIGHT
DETECTORS 400 11.8.2 TYPES AND MODES OF OPERATION OF LIGHT DETECTORS 400
11.8.3 APPLICATIONS OF LIGHT DETECTORS 400 11.9 PHOTORESISTOR
(PHOTOCELL) 400 77.9.7 MATERIALS FOR PHOTOCELLS 401 11.9.2 INTERFACING A
PHOTOCELL TO THE 9S12C 401 11.10 PHOTODIODE 402 77.70.7 PHOTODIODE TYPES
402 11.10.2 PHOTODIODE CHARACTERISTICS 403 11.10.3 OPERATING MODES 403
11.10.4 APPLICATIONS 404 11.11 PHOTOTRANSISTOR 405 77.77.7
PHOTOTRANSISTOR CHARACTERISTICS 405 11.11.2 APPLICATIONS 406 11.12 IR
EMITTER/DETECTOR PACKAGES 407 77.72.7 OPTICAL INTERRUPTER 407 11.12.2
OPTICAL COUPLER (OPTICAL ISOLATOR) 408 11.12.3 OPTICAL REFLECTORS 408
11.12.4 NIR RECEIVER/DEMODULATOR SENSORS 409 11.13 OPTICAL ENCODER 410
11.14 PYROELECTRIC SENSOR 412 77.74.7 SIGNAL CONDITIONING 414 11.15
THERMAL DETECTORS 414 77.75.7 THERMOCOUPLE 415 11.15.2 THERMOPILES 418
XVI CONTENTS 77.75.3 THEREMORESISITIVE DEVICES 418 11.15.4 THERMODIODE
423 11.15.5 THERMOTRANSISTOR 424 11.16 HEAT FLUX SENSOR 425 11.17
MAGNETIC SENSORS 426 77.7Z7 MAGNETIC REED SWITCH 426 11.17.2 HALL-EFFECT
DEVICE 427 11.18 STRAIN GAUGES 430 77.78.7 BRIDGE CIRCUIT 431 11.18.2
STRAIN-GAUGE MEASUREMENT 433 11.19 ACOUSTIC MEASUREMENT 434 77.79.7
PROPERTIES OF WAVE PROPAGATION 434 11.19.2 ACOUSTIC SENSORS 436 11.19.3
TYPES OF TRANSDUCER ELEMENT 437 11.19.4 TYPES OF MEASUREMENTS 440 11.20
PIEZOELECTRICITY 443 77.20.7 PIEZOELECTRIC EFFECT 443 11.20.2
PIEZOELECTRIC USE IN MEMS 444 11.20.3 CONSTITUTIVE RELATIONS IN ONE
DIMENSION 444 11.20.4 PIEZOELECTRIC SENSOR 445 11.20.5 PIEZOELECTRIC
MASS-SENSITIVE CHEMICAL SENSOR 447 11.21 RESOLVER 448 11.22 TACHOMETER
449 * 11.23 CAPACITIVE SENSORS 449 11.24 INDUCTIVE SENSORS 451 77.24.7
MOTION-DETECTION SENSOR 451 11.24.2 LINEAR VARIABLE DIFFERENTIAL
TRANSFORMER (LVDT) 451 11.25 FOUR- TO 20-MA TRANSMITTERS 453 77.25.7
VOLTAGE-TO-CURRENT CONVERTER 454 11.26 SUMMARY 454 RELATED READING 455
QUESTIONS 455 PROBLEMS 456 LABORATORY PROJECTS 459 12. ELECTRIC
ACTUATORS 460 OBJECTIVES 460 12.1 ACTUATORS 460 12.2 DC MOTORS 461
72.2.7 PRINCIPLES OF OPERATION OF A DC MOTOR 461 12.2.2 MODELING OF DC
MOTOR BEHAVIOR 465 12.2.3 HEAT DISSIPATION IN DC MOTORS 472 CONTENTS
XVII 72.2.4 VELOCITY PROFILE OPTIMIZATION 473 12.2.5 INERTIA MATCHING
474 12.2.6 MOTOR SELECTION 476 12.2.7 SERVO AMPLIFIERS 479 12.2.8 DC
MOTOR SERVO DRIVE 482 12.2.9 INTERFACING DC MOTORS TO THE 9S12C 485
12.2.10 DC SERVOS 490 12.3 STEPPER MOTORS 491 72.3.7 CHARACTERISTICS OF
A STEPPER MOTOR 491 12.3.2 CLASSIFICATION OF STEPPER MOTORS 491 12.3.3
PRINCIPLE OF OPERATION 494 12.3.4 STEP ANGLE 498 12.3.5 ELECTRICAL MODEL
OF AN ENERGIZED COIL 499 12.3.6 DRIVE METHODS 501 12.3.7 STEPPER MOTOR
PERFORMANCE 503 12.3.8 INTERFACING STEPPER MOTORS TO THE 9S12C MCU 509
12.4 AC INDUCTION MOTORS 515 72.4.7 THREE-PHASE MOTORS 516 12.4.2 SPEED
CONTROL OF THE INDUCTION MOTOR 519 12.5 SUMMARY 524 RELATED READING 524
QUESTIONS 524 PROBLEMS 525 LABORATORY PROJECTS 526 13. CONTROL SCHEMES
527 OBJECTIVES 527 13.1 INTRODUCTION 527 73.7.7 HISTORY OF CONTROL 527
13.1.2 OPEN-LOOP CONTROL 529 13.1.3 CLOSED-LOOP CONTROL 529 13.2
CLASSICAL CONTROL 530 73.2.7 MATHEMATICAL MODELING 530 13.2.2 TRANSFER
FUNCTION 532 13.2.3 TRANSIENT AND STEADY-STATE ANALYSES 533 13.2.4 ROOT
LOCUS 537 13.2.5 FREQUENCY RESPONSE 543 13.2.6 LAG-LEAD COMPENSATOR 549
13.2.7 PROPORTIONAL-INTEGRAL-DERIVATIVE (PID) CONTROLLER DESIGN 557 13.3
STATE-SPACE-BASED CONTROL STRATEGIES 565 XVIII CONTENTS 13.4 ADAPTIVE
CONTROL 571 73.4.7 GAIN SCHEDULING 571 13.4.2 MODEL-REFERENCE ADAPTIVE
CONTROL (MRAC) 572 13.4.3 SELF-TUNING REGULATORS 573 13.5 DIGITAL
CONTROL 574 73.5.7 DISCRETIZATION TECHNIQUES 574 13.5.2 EMULATION 575
13.5.3 DIRECT DIGITAL CONTROL 575 13.6 INTELLIGENT CONTROL 576 73.6.7
FUZZY LOGIC CONTROL DESIGN 576 13.7 ADAPTIVE FUZZY LOGIC CONTROLLERS 583
73.Z7 INTRODUCTION 583 13.7.2 FUZZY MODEL-REFERENCE ADAPTIVE CONTROLLER
583 13.7.3 MEMBERSHIP-TUNING ADAPTIVE CONTROLLER 586 13.8 EXPERIMENTAL
COMPARATIVE ANALYSIS 591 73.8.7 HARDWARE PLATFORM 13.8.2 DIGITAL CONTROL
WORKSTATION 591 13.9 CONCLUSION 599 RELATED READING 599 QUESTIONS 600
PROBLEMS 601 14. CASE STUDIES 603 OBJECTIVES 603 14.1 INTRODUCTION 603
14.2 CASE STUDY 1: AUTONOMOUS MOBILE ROBOT 604 74.2.7 INTRODUCTION 604
14.2.2 MECHANICAL DESIGN ALTERNATIVES 605 14.2.3 DESIGN SPECIFICATIONS
606 14.2.4 ELECTRONIC CIRCUITS AND INTERFACING 612 14.2.5 SOFTWARE
DESIGN 618 14.2.6 CASE OUTCOMES 620 REFERENCES 621 14.3 CASE STUDY 2:
WIRELESS SURVEILLANCE BALLOON 621 74.3.7 PROBLEM DEFINITION 621 14.3.2
DESIGN 621 14.3.3 PARTS 626 14.3.4 CASE OUTCOMES 635 REFERENCES 636 14.4
CASE STUDY 3: FIREFIGHTING ROBOT 636 74.4.7 PROBLEM STATEMENT 636 14.4.2
DESIGN ALTERNATIVES 638 CONTENTS XIX 74.4.3 IMPLEMENTATION 639 14.4.4
CASE OUTCOMES 647 REFERENCES 649 14.5 CASE STUDY 4: PIEZO SENSORS AND
ACTUATORS IN CANTILEVER BEAM VIBRATION CONTROL 649 74.5.7 INTRODUCTION
649 14.5.2 MODELING OF THE CANTILEVER BEAM AND PZT ACTUATOR 650 14.5.3
BEAM EXPERIMENTAL SETUP 652 14.5.4 INSTRUMENTATION SETUP 654 14.5.5
CONTROLLER AND SOFTWARE 658 14.5.6 SIMULATION AND EXPERIMENTAL PID
RESULTS 661 14.5.7 SIMULATION AND EXPERIMENTAL FUZZY RESULTS 665 14.5.8
CONCLUSIONS 668 14.5.9 CASE OUTCOMES 668 ''APPENDIX A: DC POWER SUPPLY
(EE BASIC) 670 APPENDIX B: PINOUT OF SELECTED ICS 672 APPENDIX C:
INSTRUCTION SET, ADDRESSING MODES, AND EXECUTION TIMES FOR THE MC9SI2C
674 APPENDIX D: MC9S12C REGISTERS AND CONTROL BIT ASSIGNMENTS 676
APPENDIX E: USING THE CODEWARRIOR INTEGRATED DEVELOPMENT ENVIRONMENT
(IDE) 678 APPENDIX F: ASCII CODE TABLE 680 ''APPENDIX G: NUMBER SYSTEMS
(EE BASIC) 681 * APPENDIX H: MECHANISMS FOR MECHATRONICS (ME BASIC) 691
INDEX 706 |
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| building | Verbundindex |
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| callnumber-first | T - Technology |
| callnumber-label | TJ163 |
| callnumber-raw | TJ163.12 |
| callnumber-search | TJ163.12 |
| callnumber-sort | TJ 3163.12 |
| callnumber-subject | TJ - Mechanical Engineering and Machinery |
| classification_rvk | ZQ 7000 |
| ctrlnum | (OCoLC)70668899 (DE-599)DNB 2006049473 |
| dewey-full | 621 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
| dewey-raw | 621 |
| dewey-search | 621 |
| dewey-sort | 3621 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik |
| discipline_str_mv | Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik |
| format | Book |
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| id | DE-604.BV022499835 |
| illustrated | Illustrated |
| index_date | 2024-07-02T17:55:03Z |
| indexdate | 2024-07-09T20:58:57Z |
| institution | BVB |
| isbn | 019530702X 9780195307023 |
| language | English |
| lccn | 2006049473 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015706918 |
| oclc_num | 70668899 |
| open_access_boolean | |
| owner | DE-703 DE-573 DE-634 |
| owner_facet | DE-703 DE-573 DE-634 |
| physical | XXII, 713 S. graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Oxford Univ. Press |
| record_format | marc |
| spelling | Smaili, Ahmad Verfasser aut Applied mechatronics A. Smaili ; F. Mrad New York [u.a.] Oxford Univ. Press 2008 XXII, 713 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Mecatrónica - Libros de texto Mechatronics Textbooks Mechatronik (DE-588)4238812-0 gnd rswk-swf Mechatronik (DE-588)4238812-0 s DE-604 Mrad, Fouad Verfasser aut http://www.loc.gov/catdir/enhancements/fy0725/2006049473-t.html Table of contents only HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015706918&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Smaili, Ahmad Mrad, Fouad Applied mechatronics Mecatrónica - Libros de texto Mechatronics Textbooks Mechatronik (DE-588)4238812-0 gnd |
| subject_GND | (DE-588)4238812-0 |
| title | Applied mechatronics |
| title_auth | Applied mechatronics |
| title_exact_search | Applied mechatronics |
| title_exact_search_txtP | Applied mechatronics |
| title_full | Applied mechatronics A. Smaili ; F. Mrad |
| title_fullStr | Applied mechatronics A. Smaili ; F. Mrad |
| title_full_unstemmed | Applied mechatronics A. Smaili ; F. Mrad |
| title_short | Applied mechatronics |
| title_sort | applied mechatronics |
| topic | Mecatrónica - Libros de texto Mechatronics Textbooks Mechatronik (DE-588)4238812-0 gnd |
| topic_facet | Mecatrónica - Libros de texto Mechatronics Textbooks Mechatronik |
| url | http://www.loc.gov/catdir/enhancements/fy0725/2006049473-t.html http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015706918&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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