Verfügbarkeit: Automotive High Speed Communication Technologies

Automotive High Speed Communication Technologies: SerDes and Ethernet for Sensor and Display Applications

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Bibliographische Detailangaben
Hauptverfasser:	Matheus, Kirsten 1965- (VerfasserIn), Kaindl, Michael (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	München Carl Hanser Verlag [2023]
Schlagworte:	Ethernet Kommunikationstechnik Kraftfahrzeugelektronik Datenübertragung Hochgeschwindigkeitskommunikation FBMBFAHR: Fahrzeugtechnik ELEK2021
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XLVI, 394 Seiten Illustrationen, Diagramme 25 cm
ISBN:	9783446469181 3446469184

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MARC


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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE ................................................................................................................. XIII TIMELINE ............................................................................................................... XVI ABBREVIATIONS AND GLOSSARY ......................................................................... XXVIII 1 INTRODUCTION AND BACKGROUND ................................................................ 1 1.1 THE DISTINCTIVE PROPERTIES OF HIGH-SPEED SENSOR AND DISPLAY USE CASES ........... 3 1.2 BACKGROUND TO AUTOMOTIVE SERDES ......................................................................... 6 1.2.1 THE ORIGIN OF SERDES ............................................................................... 6 1.2.2 AUTOMOTIVE SERDES TERMINOLOGY ............................................................... 8 1.2.3 THE STATUS OF AUTOMOTIVE SERDES ............................................................. 11 1.3 BACKGROUND TO AUTOMOTIVE ETHERNET ...................................................................... 13 1.3.1 THE ORIGIN OF ETHERNET ....................................................... 13 1.3.2 ETHERNET IN THE AUTOMOTIVE INDUSTRY ........................................................ 16 1.3.3 INTRODUCTION TO HIGH-SPEED (HS) AUTOMOTIVE ETHERNET ............................ 17 1.4 BIBLIOGRAPHY ............................................................................................................. 19 2 THE AUTOMOTIVE USE CASES ....................................................................... 21 2.1 DISPLAYS ..................................................................................................................... 21 2.1.1 A BRIEF HISTORY OF DISPLAYS IN CARS ............................................................ 22 2.1.2 DISPLAY BASICS AND TERMINOLOGY ................................................................ 24 2.1.3 DISPLAY ARCHITECTURES .................................................................................. 29 2.1.4 TYPICAL COMMUNICATION RELATED REQUIREMENTS OF DISPLAYS .................. 32 2.2 CAMERAS ..................................................................................................................... 34 2.2.1 A BRIEF HISTORY OF CAMERAS IN CARS .......................................................... 34 2.2.2 CAMERA BASICS AND TERMINOLOGY ................................................................ 35 2.2.3 CAMERA ARCHITECTURES ................................................................................ 39 2.2.4 CAMERA SOFTWARE, SAFETY, AND SECURITY ...................................................... 41 2.2.4.1 SOFTWARE ......................................................................................... 41 2.2.4.2 SAFETY ............................................................................................. 42 2.2.4.3 SECURITY ......................................................................................... 43 2.2.5 TYPICAL COMMUNICATION RELATED REQUIREMENTS FOR CAMERAS ................ 45 2.3 OTHER SENSORS .......................................................................................................... 46 2.3.1 RELEVANT SENSOR TYPES ................................................................................. 47 2.3.1.1 SOUND NAVIGATION AND RANGING (SONAR)/ULTRASONIC SENSORS .. 48 2.3.1.2 RADIO DETECTION AND RANGING (RADAR) ....................................... 50 2.3.1.3 LIGHT DETECTION AND RANGING (LIDAR) ......................................... 52 2.3.1.4 TIME OF FLIGHT (TOF) CAMERAS ..................................................... 54 2.3.2 OVERALL COMPARISON AND ARCHITECTURE CONSIDERATIONS FOR SENSORS ........ 55 2.4 OTHER USE CASES ........................................................................................................ 58 2.5 BIBLIOGRAPHY .............................................................................................................. 59 3 THE AUTOMOTIVE ENVIRONMENT ................................................................... 67 3.1 THE AUTOMOTIVE INDUSTRY AS SUCH ........................................................................... 67 3.1.1 THE AUTOMOTIVE PRODUCT .............................................................................. 68 3.1.2 THE AUTOMOTIVE DEVELOPMENT AND PRODUCTION ....................................... 69 3.1.2.1 IMPACT WITH RESPECT TO THE SUPPLY CHAIN ................................ 69 3.1.2.2 IMPACT WITH RESPECT TO THE PRODUCT LIFE CYCLE (PLC) .............. 73 3.2 GENERAL AUTOMOTIVE REQUIREMENTS ......................................................................... 75 3.2.1 USE-RELATED REQUIREMENTS ......................................................................... 76 3.2.2 REGULATORY REQUIREMENTS ......................................................................... 78 3.2.2.1 GOVERNMENT DRIVEN REQUIREMENTS ............................................. 78 3.2.2.2 INSURANCE DRIVEN REQUIREMENTS ................................................ 80 3.3 AUTOMOTIVE SEMICONDUCTORS ................................................................................... 81 3.3.1 SEMICONDUCTOR QUALITY ....................................................................... 81 3.3.2 SEMICONDUCTOR PERFORMANCE ..................................................................... 83 3.3.3 SEMICONDUCTOR SUPPLY ............................................................................... 84 3.4 BIBLIOGRAPHY ............................................................................................................. 85 4 THE ELECTROMAGNETIC ENVIRONMENT IN CARS ........................................... 89 4.1 ELECTROMAGNETIC COMPATIBILITY (EMC) ................................................................... 89 4.1.1 BASIC PRINCIPLE OF ELECTROMAGNETIC INTERFERENCE ...................................... 91 4.1.2 RELEVANT EMC LEVELS ................................................................................. 92 4.1.3 OVERVIEW ON EMC TEST METHODS ............................................................... 94 4.1.4 IMPACT OF A SHIELD ON EMC ......................................................................... 99 4.1.4.1 EMC FOR SHIELDED CABLES ............................................................ 99 4.1.4.2 SHIELD CONNECTION AT THE CASE .................................................. 102 4.1.4.3 INTERRELATION BETWEEN SHIELD AND GROUND ................................ 103 4.2 ELECTROSTATIC DISCHARGE (ESD) ................................................................................. 105 4.2.1 UNPOWERED ESD .......................................................................................... 106 4.2.1.1 ESD PROTECTION IN THE PRODUCTION PROCESS ................................ 106 4.2.1.2 ESD PROTECTION TESTS ....................................................... 107 4.2.1.3 TRANSMISSION LINE PULSE MEASUREMENT (TLP) .......................... 109 4.2.2 POWERED ESD ............................................................................................... 110 4.2.3 HOW TO ACHIEVE ESD PROTECTION ................................................................. 112 4.3 BIBLIOGRAPHY ............................................................................................................. 116 5 THE AUTOMOTIVE CHANNEL ........................................................................... 119 5.1 CHANNEL DEFINITION ................................................................................................... 120 5.2 CHANNEL DESCRIPTION ................................................................................................. 122 5.2.1 IMPEDANCE ................................................................................................... 123 5.2.2 SCATTERING-PARAMETERS ............................................................................... 124 5.2.3 CHANNEL PARAMETERS ................................................................................... 126 5.2.3.1 TRANSMISSION RELATED IMPAIRMENTS ........................................... 126 5.2.3.2 SELF-NOISE PARAMETERS THAT DISTORT THE SIGNAL ........................... 128 5.2.3.3 EMC RELATED CHANNEL PARAMETERS AND OTHER NOISE ................ 131 5.2.3.4 TRANSMISSION CHANNEL INTERFERENCE MODEL .............................. 134 5.3 CABLES AND CONNECTORS ............................................................................................ 137 5.3.1 CABLES ......................................................................................................... 139 5.3.1.1 UNSHIELDED TWISTED PAIR (UTP) CABLES ...................................... 139 5.3.1.2 SHIELDED TWISTED PAIR (STP) CABLES .......................................... 141 5.3.1.3 STAR-QUAD (STQ) CABLES .............................................................. 141 5.3.1.4 SHIELDED PARALLEL PAIR (SPP) CABLES .......................................... 142 5.3.1.5 COAXIAL CABLES .............................................................................. 143 5.3.1 ,6 OTHER MULTI-PORT CABLES .............................................................. 145 5.3.1.7 AGING AND MECHANICAL STRESS OF CABLES .................................... 148 5.3.2 CONNECTORS .................................................................................................... 150 5.3.2.1 CONNECTORS FOR UTP CABLES ......................................................... 151 5.3.2.2 CONNECTORS FOR STQ CABLES ......................................................... 152 5.3.2.3 CONNECTORS FOR SDP (STP AND SPP) CABLES ................................. 152 5.3.2.4 CONNECTORS FOR COAXIAL CABLES ................................................... 152 5.3.3 QUOVADIS? .................................................................................................... 155 5.4 PRINTED CIRCUIT BOARDS (PCBS) ................................................................................. 156 5.5 BIBLIOGRAPHY ............................................................................................................. 159 6 POWER .......................................................................................................... 164 6.1 SUPPLYING POWER WITH THE COMMUNICATION ........................................................... 165 6.1.1 GENERAL CONSIDERATIONS FOR POWER-OVER .................................................... 166 6.1.1.1 THEBIAS-T .................................................................................... 166 6.1.1.2 VOLTAGE REGULATORS ...................................................................... 167 6.1.1.3 FAILURE DETECTION AND PROTECTION ................................................ 170 6.1.2 POWER OVER DIFFERENTIAL (POD) CABLES ........................................................ 171 6.1.3 POWER OVER COAXIAL CABLES .......................................................................... 173 6.1.3.1 REQUIRED INDUCTIVE ELEMENTS ..................................................... 174 6.1.3.2 BIAS-T EXAMPLE ............................................................................. 178 6.1.3.3 POWER LIMIT ................................................................................... 179 6.1.3.4 POC STABILITY ................................................................................. 182 6.1.3.5 POC COMPENDIUM ......................................................................... 186 6.2 POWER (SAVING) MODES ............................................................................................... 188 6.2.1 TRANSITIONING BETWEEN (POWER) MODES ...................................................... 190 6.2.2 LOW POWER MODES ........................................................................................ 191 6.2.2.1 DEEP SLEEP (AND WAKE-UP) ........................................................... 192 6.2.2.2 LIGHT SLEEP ........................................................................... 194 6.3 BIBLIOGRAPHY ............................................................................................................. 196 7 AUTOMOTIVE SERDES TECHNOLOGIES .......................................................... 199 7.1 ANALOGUE TRANSMISSION .......................................................................................... 200 7.2 LOW VOLTAGE DIFFERENTIAL SIGNALING (LVDS) ............................................................. 201 7.3 PROPRIETARY AUTOMOTIVE SERDES TECHNOLOGIES ...................................................... 202 7.3.1 TL S FLAT PANEL DISPLAY (FPD) LINK ............................................................ 203 7.3.2 ANALOGUE DEVICE S GIGABIT MULTIMEDIA SERIAL LINK (GMSL) .................... 207 7.3.3 INOVA S AUTOMOTIVE PIXEL LINK (APIX) ...................................................... 210 7.3.4 SONY S GIGABIT VIDEO INTERFACE (GVIF) ...................................................... 212 7.4 MIPIA-PHY/IEEE 2977 ........................................................................................... 214 7.4.1 A-PHY OVERVIEW AND TERMINOLOGY ............................................................ 215 7.4.2 A-PHY CHANNEL .......................................................................................... 217 7.4.3 A-PHY PHYSICAL LAYER .................................................................................. 220 7.4.4 A-PHY DATA LINK AND HIGHER LAYERS ......................... 230 7.5 ASA MOTION LINK (ASAML) ..................................................................................... 232 7.5.1 ASAML CHANNEL ......................................................................................... 234 7.5.2 ASAML PHYSICAL LAYER ............................................................................... 236 7.5.3 ASAML DATA LINK LAYER ............................................................................. 240 7.5.4 ASAML SAFETY AND SECURITY ....................................................................... 241 7.5.5 ASAML APPLICATION STREAM ENCAPSULATION PROTOCOLS (ASEPS) ............. 243 7.6 BIBLIOGRAPHY ............................................................................................................. 245 8 HIGH-SPEED (HS) AUTOMOTIVE ETHERNET .................................................... 251 8.1 PHYSICAL (PHY) LAYER TECHNOLOGIES ......................................................................... 253 8.1.1 IEEE 802.3CH FOR 2.5, 5, AND 10 GBPS ........................................................ 253 8.1.1.1 THE IEEE 802.3CH CHANNEL(S) .................................................... 253 8.1.1.2 TECHNICAL DESCRIPTION OF IEEE 802.3CH ...................................... 255 8.1.2 IEEE 802.3CY FOR 25 GBPS .......................................................................... 261 8.1.2.1 THE IEEE 802.3CY CHANNEL ........................................................ 261 8.1.2.2 TECHNICAL DESCRIPTION OF IEEE 802.3CY ...................................... 262 8.1.3 IEEE 802.3CZ FOR 2.5 TO 50 GBPS OVER OPTICAL MEDIA ................................ 263 8.1.3.1 THE IEEE 802.3CZ CHANNEL ........................................................ 265 8.1.3.2 TECHNICAL DESCRIPTION OF IEEE 802.3CZ ...................................... 266 8.1.4 ASYMMETRIC ETHERNET ................................................................................. 268 8.2 RELATED PROTOCOLS ...................................................................................................... 272 8.2.1 POWERSAVING ............................................................................................... 272 8.2.1.1 ENERGY EFFICIENT ETHERNET (EEE) ................................................. 273 8.2.1.2 WAKE-UP AND SLEEP ...................................................................... 275 8.2.2 QUALITY OF SERVICE (QOS) WITH TIME SENSITIVE NETWORKING (TSN) .......... 276 8.2.2.1 IEEE 1722 .................................................................................... 278 8.2.2.2 SYNCHRONIZATION/TIMING WITH IEEE 802.1AS ............................ 279 8.2.2.3 TRAFFIC SHAPING WITH IEEE 802.1QAV AND QCR .......................... 281 8.2.2.4 INGRESS POLICING AND FILTERING WITH IEEE 8O2.1QCI .................. 282 8.2.2.5 OTHER TSN PROTOCOLS .................................................................... 283 8.2.3 SECURITY ........................................................................................................ 285 8.3 AUTOMOTIVE ETHERNET VERSUS AUTOMOTIVE SERDES ................................................... 287 8.3.1 PRINCIPLE COMPARISON .................................................................................. 288 8.3.2 SPECIFIC COMPARISON .................................................................................... 290 8.4 BIBLIOGRAPHY ............................................................................................................. 295 9 RELATED STANDARDS AND PROTOCOLS ........................................................... 302 9.1 COLOR FORMATS ........................................................................................................... 302 9.2 VIDEO COMPRESSION FORMATS ................................................................................... 304 9.2.1 (M)JPEG ........................................................................................................ 305 9.2.2 MPEG ALIAS H.26X ........................................................................................ 307 9.2.2.1 H.262, MPEG-2 ............................................................................ 308 9.2.2.2 H.264, MPEG-4, AVC .................................................................. 310 9.2.2.3 H.265, MPEG-H PART 2, HEVC .................................................... 310 9.2.3 VESA DISPLAY COMPRESSION CODECS .......................................................... 311 9.3 CONTENT PROTECTION ................................................................................................... 313 9.4 AUDIO INTERFACES ....................................................................................................... 315 9.5 CONTROL INTERFACES ..................................................................................................... 316 9.5.1 GENERAL PURPOSE INPUT/OUTPUT (GPI/O) .................................................... 317 9.5.2 SERIAL PERIPHERAL INTERFACE (SPI) ................................................................ 317 9.5.3 INTER-IC BUS (I2C) ........................................................................................ 320 9.5.3.1 12 C PHYSICAL LAYER ...................................................................... 320 9.5.3.2 I2C CHANNEL ACCESS .................................................................... 322 9.5.3.3 I2C EXTENSIONS AND DERIVATES .................................................... 323 9.5.4 MIPI IMPROVED INTER-IC BUS (I3C) .............................................................. 324 9.5.5 USING A MEMORY MAP INSTEAD ............................................................. 325 9.6 CAMERA PROTOCOLS ..................................................................................................... 329 9.6.1 MIPI CSI-2 .................................................................................................... 330 9.6.2 MIPI D-PHY AND C-PHY ............................................................................... 331 9.6.3 MIPI CCS AND CSE ...................................................................................... 333 9.7 DISPLAY PROTOCOLS ...................................................................................................... 333 9.7.1 OPEN LVDS DIGITAL INTERFACE (OPENLDI) .................................................... 334 9.7.2 DIGITAL VISUAL INTERFACE (DVI) .................................................................... 335 9.7.3 HIGH DEFINITION MULTIMEDIA INTERFACE (HDMI) .......................................... 337 9.7.4 MIPI DISPLAY SERIAL INTERFACE (DSI-2) ........................................................ 340 9.7.5 DISPLAYPORT (DP) AND EMBEDDED DISPLAYPORT (EDP) ................................. 341 9.7.6 V-BY-ONE ...................................................................................................... 344 9.7.7 UNIVERSAL SERIAL BUS (USB) - C .................................................................. 346 9.7.8 OVERVIEW AND COMPARISON .......................................................................... 346 9.8 BIBLIOGRAPHY ........................................................................................................... 348 10 TEST AND QUALIFICATION ............................................................................ 355 10.1 DEVELOPMENT METHODS AND TESTING ....................................................................... 356 10.1.1 WATERFALL MODEL ............................................................................................ 356 10.1.2 V-MODEL ........................................................................................................ 357 10.1.3 AGILE DEVELOPMENT ...................................................................................... 358 10.2 DESIGNED FOR TESTABILITY ......................................................................................... 359 10.2.1 BUILT-IN STATUS REGISTERS AND QUALITY INDICATORS ...................................... 360 10.2.2 ACCESSIBILITY OF INFORMATION ...................................................................... 361 10.2.3 SCANLINES FOR TESTING .................................................................................. 363 10.2.4 LOOPBACK TESTING ........................................................................................ 364 10.2.5 BUILT-IN SELF-TESTS (BISTS) ............................................................................ 365 10.3 TEST CHARACTERISTICS ................................................................................................. 365 10.3.1 TEST METRICS ................................................................................................ 366 10.3.2 DEVICES UNDER TEST (DUTS) ........................................................................ 366 10.4 TEST SPECIFICATIONS ................................................................................................... 367 10.4.1 ISO 9646 CONFORMANCE TESTING METHODOLOGY .......................................... 368 10.4.2 TEST SPECIFICATIONS FOR AUTOMOTIVE ETHERNET ............................................ 370 10.4.3 TEST SPECIFICATIONS FOR AUTOMOTIVE SERDES ................................................ 371 10.5 TOOLS ........................................................................................................................ 372 10.5.1 TOOLS FOR CHANNEL TESTS .............................................................................. 373 10.5.2 TOOLS FOR TRANSMITTER/TRANSCEIVER TESTS .................................................. 375 10.5.3 TOOLS FOR EVALUATING THE DATA CONTENT ...................................................... 376 10.6 EXPERIENCES WITH TESTING ....................................................................................... 378 10.6.1 THE PITFALL OF TEST SEQUENCES ...................................................................... 378 10.6.2 UNEXPECTED SYSTEM BEHAVIOR .................................................................... 379 10.6.3 NO ERROR FOUND ........................................................................................ 380 10.7 BIBLIOGRAPHY .......................................................................................................... 380 INDEX ..................................................................................................................... 383
adam_txt	CONTENTS PREFACE . XIII TIMELINE . XVI ABBREVIATIONS AND GLOSSARY . XXVIII 1 INTRODUCTION AND BACKGROUND . 1 1.1 THE DISTINCTIVE PROPERTIES OF HIGH-SPEED SENSOR AND DISPLAY USE CASES . 3 1.2 BACKGROUND TO AUTOMOTIVE SERDES . 6 1.2.1 THE ORIGIN OF " SERDES " . 6 1.2.2 AUTOMOTIVE SERDES TERMINOLOGY . 8 1.2.3 THE STATUS OF AUTOMOTIVE SERDES . 11 1.3 BACKGROUND TO AUTOMOTIVE ETHERNET . 13 1.3.1 THE ORIGIN OF " ETHERNET " . 13 1.3.2 ETHERNET IN THE AUTOMOTIVE INDUSTRY . 16 1.3.3 INTRODUCTION TO HIGH-SPEED (HS) AUTOMOTIVE ETHERNET . 17 1.4 BIBLIOGRAPHY . 19 2 THE AUTOMOTIVE USE CASES . 21 2.1 DISPLAYS . 21 2.1.1 A BRIEF HISTORY OF DISPLAYS IN CARS . 22 2.1.2 DISPLAY BASICS AND TERMINOLOGY . 24 2.1.3 DISPLAY ARCHITECTURES . 29 2.1.4 TYPICAL COMMUNICATION RELATED REQUIREMENTS OF DISPLAYS . 32 2.2 CAMERAS . 34 2.2.1 A BRIEF HISTORY OF CAMERAS IN CARS . 34 2.2.2 CAMERA BASICS AND TERMINOLOGY . 35 2.2.3 CAMERA ARCHITECTURES . 39 2.2.4 CAMERA SOFTWARE, SAFETY, AND SECURITY . 41 2.2.4.1 SOFTWARE . 41 2.2.4.2 SAFETY . 42 2.2.4.3 SECURITY . 43 2.2.5 TYPICAL COMMUNICATION RELATED REQUIREMENTS FOR CAMERAS . 45 2.3 OTHER SENSORS . 46 2.3.1 RELEVANT SENSOR TYPES . 47 2.3.1.1 SOUND NAVIGATION AND RANGING (SONAR)/ULTRASONIC SENSORS . 48 2.3.1.2 RADIO DETECTION AND RANGING (RADAR) . 50 2.3.1.3 LIGHT DETECTION AND RANGING (LIDAR) . 52 2.3.1.4 TIME OF FLIGHT (TOF) CAMERAS . 54 2.3.2 OVERALL COMPARISON AND ARCHITECTURE CONSIDERATIONS FOR SENSORS . 55 2.4 OTHER USE CASES . 58 2.5 BIBLIOGRAPHY . 59 3 THE AUTOMOTIVE ENVIRONMENT . 67 3.1 THE AUTOMOTIVE INDUSTRY AS SUCH . 67 3.1.1 THE AUTOMOTIVE PRODUCT . 68 3.1.2 THE AUTOMOTIVE DEVELOPMENT AND PRODUCTION . 69 3.1.2.1 IMPACT WITH RESPECT TO THE SUPPLY CHAIN . 69 3.1.2.2 IMPACT WITH RESPECT TO THE PRODUCT LIFE CYCLE (PLC) . 73 3.2 GENERAL AUTOMOTIVE REQUIREMENTS . 75 3.2.1 USE-RELATED REQUIREMENTS . 76 3.2.2 REGULATORY REQUIREMENTS . 78 3.2.2.1 GOVERNMENT DRIVEN REQUIREMENTS . 78 3.2.2.2 INSURANCE DRIVEN REQUIREMENTS . 80 3.3 AUTOMOTIVE SEMICONDUCTORS . 81 3.3.1 SEMICONDUCTOR QUALITY . 81 3.3.2 SEMICONDUCTOR PERFORMANCE . 83 3.3.3 SEMICONDUCTOR SUPPLY . 84 3.4 BIBLIOGRAPHY . 85 4 THE ELECTROMAGNETIC ENVIRONMENT IN CARS . 89 4.1 ELECTROMAGNETIC COMPATIBILITY (EMC) . 89 4.1.1 BASIC PRINCIPLE OF ELECTROMAGNETIC INTERFERENCE . 91 4.1.2 RELEVANT EMC LEVELS . 92 4.1.3 OVERVIEW ON EMC TEST METHODS . 94 4.1.4 IMPACT OF A SHIELD ON EMC . 99 4.1.4.1 EMC FOR SHIELDED CABLES . 99 4.1.4.2 SHIELD CONNECTION AT THE CASE . 102 4.1.4.3 INTERRELATION BETWEEN SHIELD AND GROUND . 103 4.2 ELECTROSTATIC DISCHARGE (ESD) . 105 4.2.1 UNPOWERED ESD . 106 4.2.1.1 ESD PROTECTION IN THE PRODUCTION PROCESS . 106 4.2.1.2 ESD PROTECTION TESTS . 107 4.2.1.3 TRANSMISSION LINE PULSE MEASUREMENT (TLP) . 109 4.2.2 POWERED ESD . 110 4.2.3 HOW TO ACHIEVE ESD PROTECTION . 112 4.3 BIBLIOGRAPHY . 116 5 THE AUTOMOTIVE CHANNEL . 119 5.1 CHANNEL DEFINITION . 120 5.2 CHANNEL DESCRIPTION . 122 5.2.1 IMPEDANCE . 123 5.2.2 SCATTERING-PARAMETERS . 124 5.2.3 CHANNEL PARAMETERS . 126 5.2.3.1 TRANSMISSION RELATED IMPAIRMENTS . 126 5.2.3.2 SELF-NOISE PARAMETERS THAT DISTORT THE SIGNAL . 128 5.2.3.3 EMC RELATED CHANNEL PARAMETERS AND OTHER NOISE . 131 5.2.3.4 TRANSMISSION CHANNEL INTERFERENCE MODEL . 134 5.3 CABLES AND CONNECTORS . 137 5.3.1 CABLES . 139 5.3.1.1 UNSHIELDED TWISTED PAIR (UTP) CABLES . 139 5.3.1.2 SHIELDED TWISTED PAIR (STP) CABLES . 141 5.3.1.3 STAR-QUAD (STQ) CABLES . 141 5.3.1.4 SHIELDED PARALLEL PAIR (SPP) CABLES . 142 5.3.1.5 COAXIAL CABLES . 143 5.3.1 ,6 OTHER MULTI-PORT CABLES . 145 5.3.1.7 AGING AND MECHANICAL STRESS OF CABLES . 148 5.3.2 CONNECTORS . 150 5.3.2.1 CONNECTORS FOR UTP CABLES . 151 5.3.2.2 CONNECTORS FOR STQ CABLES . 152 5.3.2.3 CONNECTORS FOR SDP (STP AND SPP) CABLES . 152 5.3.2.4 CONNECTORS FOR COAXIAL CABLES . 152 5.3.3 QUOVADIS? . 155 5.4 PRINTED CIRCUIT BOARDS (PCBS) . 156 5.5 BIBLIOGRAPHY . 159 6 POWER . 164 6.1 SUPPLYING POWER WITH THE COMMUNICATION . 165 6.1.1 GENERAL CONSIDERATIONS FOR POWER-OVER . 166 6.1.1.1 THEBIAS-T . 166 6.1.1.2 VOLTAGE REGULATORS . 167 6.1.1.3 FAILURE DETECTION AND PROTECTION . 170 6.1.2 POWER OVER DIFFERENTIAL (POD) CABLES . 171 6.1.3 POWER OVER COAXIAL CABLES . 173 6.1.3.1 REQUIRED INDUCTIVE ELEMENTS . 174 6.1.3.2 BIAS-T EXAMPLE . 178 6.1.3.3 POWER LIMIT . 179 6.1.3.4 POC STABILITY . 182 6.1.3.5 POC COMPENDIUM . 186 6.2 POWER (SAVING) MODES . 188 6.2.1 TRANSITIONING BETWEEN (POWER) MODES . 190 6.2.2 LOW POWER MODES . 191 6.2.2.1 DEEP SLEEP (AND WAKE-UP) . 192 6.2.2.2 LIGHT SLEEP . 194 6.3 BIBLIOGRAPHY . 196 7 AUTOMOTIVE SERDES TECHNOLOGIES . 199 7.1 ANALOGUE TRANSMISSION . 200 7.2 LOW VOLTAGE DIFFERENTIAL SIGNALING (LVDS) . 201 7.3 PROPRIETARY AUTOMOTIVE SERDES TECHNOLOGIES . 202 7.3.1 TL ' S FLAT PANEL DISPLAY (FPD) LINK . 203 7.3.2 ANALOGUE DEVICE ' S GIGABIT MULTIMEDIA SERIAL LINK (GMSL) . 207 7.3.3 INOVA ' S AUTOMOTIVE PIXEL LINK (APIX) . 210 7.3.4 SONY ' S GIGABIT VIDEO INTERFACE (GVIF) . 212 7.4 MIPIA-PHY/IEEE 2977 . 214 7.4.1 A-PHY OVERVIEW AND TERMINOLOGY . 215 7.4.2 A-PHY CHANNEL . 217 7.4.3 A-PHY PHYSICAL LAYER . 220 7.4.4 A-PHY DATA LINK AND HIGHER LAYERS . 230 7.5 ASA MOTION LINK (ASAML) . 232 7.5.1 ASAML CHANNEL . 234 7.5.2 ASAML PHYSICAL LAYER . 236 7.5.3 ASAML DATA LINK LAYER . 240 7.5.4 ASAML SAFETY AND SECURITY . 241 7.5.5 ASAML APPLICATION STREAM ENCAPSULATION PROTOCOLS (ASEPS) . 243 7.6 BIBLIOGRAPHY . 245 8 HIGH-SPEED (HS) AUTOMOTIVE ETHERNET . 251 8.1 PHYSICAL (PHY) LAYER TECHNOLOGIES . 253 8.1.1 IEEE 802.3CH FOR 2.5, 5, AND 10 GBPS . 253 8.1.1.1 THE IEEE 802.3CH CHANNEL(S) . 253 8.1.1.2 TECHNICAL DESCRIPTION OF IEEE 802.3CH . 255 8.1.2 IEEE 802.3CY FOR 25 GBPS . 261 8.1.2.1 THE IEEE 802.3CY CHANNEL . 261 8.1.2.2 TECHNICAL DESCRIPTION OF IEEE 802.3CY . 262 8.1.3 IEEE 802.3CZ FOR 2.5 TO 50 GBPS OVER OPTICAL MEDIA . 263 8.1.3.1 THE IEEE 802.3CZ CHANNEL . 265 8.1.3.2 TECHNICAL DESCRIPTION OF IEEE 802.3CZ . 266 8.1.4 ASYMMETRIC ETHERNET . 268 8.2 RELATED PROTOCOLS . 272 8.2.1 POWERSAVING . 272 8.2.1.1 ENERGY EFFICIENT ETHERNET (EEE) . 273 8.2.1.2 WAKE-UP AND SLEEP . 275 8.2.2 QUALITY OF SERVICE (QOS) WITH TIME SENSITIVE NETWORKING (TSN) . 276 8.2.2.1 IEEE 1722 . 278 8.2.2.2 SYNCHRONIZATION/TIMING WITH IEEE 802.1AS . 279 8.2.2.3 TRAFFIC SHAPING WITH IEEE 802.1QAV AND QCR . 281 8.2.2.4 INGRESS POLICING AND FILTERING WITH IEEE 8O2.1QCI . 282 8.2.2.5 OTHER TSN PROTOCOLS . 283 8.2.3 SECURITY . 285 8.3 AUTOMOTIVE ETHERNET VERSUS AUTOMOTIVE SERDES . 287 8.3.1 PRINCIPLE COMPARISON . 288 8.3.2 SPECIFIC COMPARISON . 290 8.4 BIBLIOGRAPHY . 295 9 RELATED STANDARDS AND PROTOCOLS . 302 9.1 COLOR FORMATS . 302 9.2 VIDEO COMPRESSION FORMATS . 304 9.2.1 (M)JPEG . 305 9.2.2 MPEG ALIAS H.26X . 307 9.2.2.1 H.262, MPEG-2 . 308 9.2.2.2 H.264, MPEG-4, AVC . 310 9.2.2.3 H.265, MPEG-H PART 2, HEVC . 310 9.2.3 VESA DISPLAY COMPRESSION CODECS . 311 9.3 CONTENT PROTECTION . 313 9.4 AUDIO INTERFACES . 315 9.5 CONTROL INTERFACES . 316 9.5.1 GENERAL PURPOSE INPUT/OUTPUT (GPI/O) . 317 9.5.2 SERIAL PERIPHERAL INTERFACE (SPI) . 317 9.5.3 INTER-IC BUS (I2C) . 320 9.5.3.1 12 C PHYSICAL LAYER . 320 9.5.3.2 I2C CHANNEL ACCESS . 322 9.5.3.3 I2C EXTENSIONS AND DERIVATES . 323 9.5.4 MIPI IMPROVED INTER-IC BUS (I3C) . 324 9.5.5 USING A MEMORY MAP INSTEAD . 325 9.6 CAMERA PROTOCOLS . 329 9.6.1 MIPI CSI-2 . 330 9.6.2 MIPI D-PHY AND C-PHY . 331 9.6.3 MIPI CCS AND CSE . 333 9.7 DISPLAY PROTOCOLS . 333 9.7.1 OPEN LVDS DIGITAL INTERFACE (OPENLDI) . 334 9.7.2 DIGITAL VISUAL INTERFACE (DVI) . 335 9.7.3 HIGH DEFINITION MULTIMEDIA INTERFACE (HDMI) . 337 9.7.4 MIPI DISPLAY SERIAL INTERFACE (DSI-2) . 340 9.7.5 DISPLAYPORT (DP) AND EMBEDDED DISPLAYPORT (EDP) . 341 9.7.6 V-BY-ONE . 344 9.7.7 UNIVERSAL SERIAL BUS (USB) - C . 346 9.7.8 OVERVIEW AND COMPARISON . 346 9.8 BIBLIOGRAPHY . 348 10 TEST AND QUALIFICATION . 355 10.1 DEVELOPMENT METHODS AND TESTING . 356 10.1.1 WATERFALL MODEL . 356 10.1.2 V-MODEL . 357 10.1.3 AGILE DEVELOPMENT . 358 10.2 DESIGNED FOR TESTABILITY . 359 10.2.1 BUILT-IN STATUS REGISTERS AND QUALITY INDICATORS . 360 10.2.2 ACCESSIBILITY OF INFORMATION . 361 10.2.3 SCANLINES FOR TESTING . 363 10.2.4 LOOPBACK TESTING . 364 10.2.5 BUILT-IN SELF-TESTS (BISTS) . 365 10.3 TEST CHARACTERISTICS . 365 10.3.1 TEST METRICS . 366 10.3.2 DEVICES UNDER TEST (DUTS) . 366 10.4 TEST SPECIFICATIONS . 367 10.4.1 ISO 9646 CONFORMANCE TESTING METHODOLOGY . 368 10.4.2 TEST SPECIFICATIONS FOR AUTOMOTIVE ETHERNET . 370 10.4.3 TEST SPECIFICATIONS FOR AUTOMOTIVE SERDES . 371 10.5 TOOLS . 372 10.5.1 TOOLS FOR CHANNEL TESTS . 373 10.5.2 TOOLS FOR TRANSMITTER/TRANSCEIVER TESTS . 375 10.5.3 TOOLS FOR EVALUATING THE DATA CONTENT . 376 10.6 EXPERIENCES WITH TESTING . 378 10.6.1 THE PITFALL OF TEST SEQUENCES . 378 10.6.2 UNEXPECTED SYSTEM BEHAVIOR . 379 10.6.3 " NO ERROR FOUND " . 380 10.7 BIBLIOGRAPHY . 380 INDEX . 383
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author	Matheus, Kirsten 1965- Kaindl, Michael
author_GND	(DE-588)1235888665 (DE-588)1279763043
author_facet	Matheus, Kirsten 1965- Kaindl, Michael
author_role	aut aut
author_sort	Matheus, Kirsten 1965-
author_variant	k m km m k mk
building	Verbundindex
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classification_tum	VER 085
ctrlnum	(OCoLC)1288573531 (DE-599)DNB1247126897
dewey-full	629.272
dewey-hundreds	600 - Technology (Applied sciences)
dewey-ones	629 - Other branches of engineering
dewey-raw	629.272
dewey-search	629.272
dewey-sort	3629.272
dewey-tens	620 - Engineering and allied operations
discipline	Verkehrstechnik Verkehr / Transport
discipline_str_mv	Verkehrstechnik Verkehr / Transport
format	Book
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spelling	Matheus, Kirsten 1965- Verfasser (DE-588)1235888665 aut Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications Kirsten Matheus, Michael Kaindl München Carl Hanser Verlag [2023] © 2023 XLVI, 394 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Ethernet (DE-588)4127501-9 gnd rswk-swf Kommunikationstechnik (DE-588)4031888-6 gnd rswk-swf Kraftfahrzeugelektronik (DE-588)4191569-0 gnd rswk-swf Datenübertragung (DE-588)4011150-7 gnd rswk-swf Hochgeschwindigkeitskommunikation (DE-588)4277027-0 gnd rswk-swf FBMBFAHR: Fahrzeugtechnik ELEK2021 Kraftfahrzeugelektronik (DE-588)4191569-0 s Hochgeschwindigkeitskommunikation (DE-588)4277027-0 s Kommunikationstechnik (DE-588)4031888-6 s Datenübertragung (DE-588)4011150-7 s Ethernet (DE-588)4127501-9 s DE-604 Kaindl, Michael Verfasser (DE-588)1279763043 aut Erscheint auch als Online-Ausgabe 978-3-446-47042-2 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033930320&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20211208 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Matheus, Kirsten 1965- Kaindl, Michael Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications Ethernet (DE-588)4127501-9 gnd Kommunikationstechnik (DE-588)4031888-6 gnd Kraftfahrzeugelektronik (DE-588)4191569-0 gnd Datenübertragung (DE-588)4011150-7 gnd Hochgeschwindigkeitskommunikation (DE-588)4277027-0 gnd
subject_GND	(DE-588)4127501-9 (DE-588)4031888-6 (DE-588)4191569-0 (DE-588)4011150-7 (DE-588)4277027-0
title	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications
title_auth	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications
title_exact_search	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications
title_exact_search_txtP	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications
title_full	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications Kirsten Matheus, Michael Kaindl
title_fullStr	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications Kirsten Matheus, Michael Kaindl
title_full_unstemmed	Automotive High Speed Communication Technologies SerDes and Ethernet for Sensor and Display Applications Kirsten Matheus, Michael Kaindl
title_short	Automotive High Speed Communication Technologies
title_sort	automotive high speed communication technologies serdes and ethernet for sensor and display applications
title_sub	SerDes and Ethernet for Sensor and Display Applications
topic	Ethernet (DE-588)4127501-9 gnd Kommunikationstechnik (DE-588)4031888-6 gnd Kraftfahrzeugelektronik (DE-588)4191569-0 gnd Datenübertragung (DE-588)4011150-7 gnd Hochgeschwindigkeitskommunikation (DE-588)4277027-0 gnd
topic_facet	Ethernet Kommunikationstechnik Kraftfahrzeugelektronik Datenübertragung Hochgeschwindigkeitskommunikation
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033930320&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT matheuskirsten automotivehighspeedcommunicationtechnologiesserdesandethernetforsensoranddisplayapplications AT kaindlmichael automotivehighspeedcommunicationtechnologiesserdesandethernetforsensoranddisplayapplications

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