PDH for Telecommunication Network
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作者 孙玉 著
出版社 人民邮电出版社
出版时间 2017-09
版次 1
装帧 精装
货号 R26
上书时间 2024-11-02
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图书标准信息
作者
孙玉 著
出版社
人民邮电出版社
出版时间
2017-09
版次
1
ISBN
9787115446756
定价
198.00元
装帧
精装
开本
其他
纸张
胶版纸
页数
386页
字数
444千字
正文语种
简体中文
丛书
孙玉院士技术全集
【内容简介】
This book is a basic work specialized on modern digital communication, which consists of plesiochronous digital hierarchy, digital multiplexing principle, essential realization technology, relevant recommendations of ITU, CCITT/TSS and the application design of typical engineering project. It is intended for communication engineers and technicians as well as teachers and students of the universities and colleges.
【作者简介】
1962年毕业于清华大学,后被分配到中国电子科技集团第54研究所工作至今。其间,从事军事通信设备研制和通信系统总体工程设计;领导创建了电信网络专业和数字家庭专业;出版电信科技著作13部。1995年当选中国工程院院士。现任,国防电信网络重点实验室科技委主任;兼任,中央军委科技委顾问。
【目录】
Chapter 1 Introduction 1 1.1 DIGITAL MULTIPLEX CONCEPT 1 1.2 DIGITAL MULTIPLEX HIERARCHY 3 1.3 CCITT RECOMMENDATIONS 5 1.4 CONTENT OF THE BOOK 6 Chapter 2 Synchronous Multiplexing 7 2.1 SYNCHRONOUS MULTIPLEXING EQUIPMENT COMPOSITION 7 2.2 FRAME STRUCTURE 9 2.3 FRAME ALIGNMENT 11 2.4 SYNCHRONIZATION ACQUISITION METHOD 13 2.5 THE CODE TYPE OF FRAME ALIGNMENT SIGNALS 15 2.6 AVERAGE ACQUISITION TIME 16 2.7 OPTIMUM LENGTH OF FRAME ALIGNMENT SIGNAL 20 2.8 SYNCHROMIZATION STATUS PROTECTION 24 2.9 ACQUISITION PROCEDURE CHECKING 27 2.10 FRAME ALIGNMENT PROTECTION PARAMETERS 31 2.11 AVERAGE OUT-OF-FRAME TIME AND AVERAGE SYNCHRONIZATION TIME 34 2.12 THE BIT ERRORS OF SYNCHRONIZATION OUT-OF-FRAME 35 2.13 FRAME ALIGNMENT ACQUISITION/ MAINTENANCE LOGIC 37 2.14 GUARANTEEING THE SYNCHRONIZATION CIRCUMSTANCE 41 2.15 CCITT RECOMMENDATIONS 44 Chapter 3 Positive Justification 49 3.1 PLESIOCHRONOUS MULTIPLEX 49 3.2 PRINCIPLE OF POSITIVE JUSTIFICATION 50 3.3 BASIC FORMULA OF POSITIVE JUSTIFICATION 52 3.4 JUSTIFICATION DESIGN 54 3.5 JUSTIFICATION TRANSITION PROCESS 57 3.6 THE CHANGE RANGE OF THE READ/WRITE TIME DIFFERENCE IN A STABLE JUSTIFICATION PROCESS 61 3.7 CLASSIFICATION OF JUSTIFICATION TRANSITION PROCESS 64 3.8 BIT RATE RECOVERY DESIGN 66 3.9 PHASE-LOCK PARAMETERS DESIGN 69 3.10 VOLTAGE CONTROLLED OSCILLATOR DESIGN 73 3.11 BUFFER SIZE 76 3.12 CCITT Recommendations 78 Chapter 4 Impairment of Positive Justification 82 4.1 STUFFING JITTER 82 4.1.1 Physical Concept of Stuffing Jitter 82 4.1.2 Signal justification process justifying only q times in p frames 84 4.1.3 Justifying q times in p frames with a residue 88 4.1.4 The relationship between the number of code justification detectors and stuffing jitter 95 4.1.5 Distribution of stuffing jitter 99 4.2 STUFFING ERROR 104 4.2.1 Physical Concept of Stuffing Error 104 4.2.2 Calculation of stuffing error 104 4.2.3 Suppression of stuffing errors 109 Chapter 5 Positive/Negative Justification 111 5.1 THE PRINCIPLE OF POSITIVE/NEGATIVE JUSTIFICATION 111 5.2 JUSTIFICATION BY FIX ED DECISION CONTROL 113 5.3 ADAPTIVE JUSTIFICATION CONTROL 116 5.4 POSITIVE/NEGATIVE JUSTIFICATION CONTROL CIRCUIT 124 5.5 TRANSITION PROCESS OF JUSTIFICATION 126 5.6 PARAMETER DESIGN OF JUSTIFICATION 128 5.7 ENVIRONMENT DESIGN OF JUSTIFICATION 131 5.8 THE TECHNICAL APPLICATION OF THE POSITIVE/NEGATIVE JUSTIFICATION 135 5.9 EXAMPLE OF POSITIVE/NEGATIVE JUSTIFICATION DESIGN 136 5.10 CHARACTERISTIC COMPAISON OF JUSTIFICATIONS 142 5.11 RECOMMENDATION OF CCITT 143 Chapter 6 Positive/0/Negative Justification 145 6.1 CONCEPT OF POSITIVE/0/NEGATIVE JUSTIFICATION 145 6.2 THE PRINCIPLES OF DELTA CONTROLLED POSITIVE/0/NEGATIVE JUSTIFICATION 146 6.3 DIGITAL SMOOTH POSITIVE/0/NEGATIVE JUSTIFICATION PRINCIPLES 147 6.4 FRAME STRUCTURE 149 6.5 JUSTIFICATION AND RECOVERY CONTROL 153 6.6 JUSTIFICATION TRANSITION PROCESS 156 6.7 DIGITAL SMOOTH 162 6.8 PULSE SMOOTHLY PRINCIPLE OF WEST GERMAN PCM30D 163 6.9 AUSTRALlA 2/8Mbit/s MULTIPLEXER PULSE SMOOTH PRINCIPLE 166 6.10 ENGINEERING APPLICATIONS OF POSITIVE/0/NEGATIVE JUSTIFICATION 169 Chapter 7 Measurement Techniques of Justification 170 7.1 MEASUREMENT OF STUFFING JITTER 170 7.1.1 Characteristics of stuffing jitter 170 7.1.2 Measurement range and precision requirement 172 7.1.3 Measurement equipment 173 7.1.4 Measurement method 176 7.1.5 Example of measurement 181 7.2 MEASUREMENT OF MULTIPLEX CODE ERROR 183 7.2.1 Characteristics of multiplex code error 183 7.2.2 Requirements of code error meter 184 7.2.3 Design of Special code error meter 186 7.2.4 Design of analog channel 189 7.2.5 Example of measurement 190 7.3 MEASUREMENT CHARACTERISTICS OF THE PHASE-LOCKED LOOP OF THE CODE RECOVERY 192 7.3.1 Tracing error measurement 192 7.3.2 Measurement of jitter suppression characteristics 194 Chapter 8 Frame Adjustment Principle 195 8.1 GENERAL 195 8.2 FRAME REGULATION CATEGORIES 198 8.3 THE WORKING PRINCIPLE OF PRE-BUFFER FRAME REGUL ATOR 199 8.4 2048kbit/s FRAME REGULATOR DESIGN 203 8.5 THE ADDITIONAL FUNCTION OF FRAME REGULATOR 210 Chapter 9 PDH/SDH Interface 211 9.1 GENERAL 211 9.2 HIGHER ORDER GROUP SDH 211 9.3 THE GENERAL ARRANGEMENT OF PDH/SDH INTERFACE 214 9.4 THE ARRANGEMENT DESIGN FOR C-4 TO ENTER STM-1 217 9.5 THE ARRANGEMENT DESIGN FOR C-3 ENTERING STM-1 221 9.6 THE ARRANGEMENT DESIGN FOR TUG ENTERING HIGH ORDER VC 224 9.7 BASIC CONTAINER ENTERING TUG 227 9.8 STM-N MULTIPLEXING 231 9.9 PAYLOAD CONTAINER INTERFACE IN CCITT REC 234 9.10 THE IMPROVED DESIGN OF PAYLOAD CONTAINER INTERFACE 240 Chapter 10 Anti Fading Frame Synchronization 248 10.1 THE PRINCIPLES OF ANTI FADING FRAME SYNCHRONIZATION 248 10.2 FRAME SYNCHRONIZATION AVERAGE KEEPING TIME 253 10.2.1 Scheme (1) 253 10.2.2 Scheme (2) 255 10.2.3 Scheme (3) 257 10.2.4 Scheme (4) 261 10.2.5 Scheme (5) 265 10.2.6 Scheme (6) 269 10.3 FRAME LOSS AVERAGE KEEPING TIME 273 10.3.1 Frame Loss deciding Time 273 10.3.2 Frame Synchronization Search Time 275 10.3.3 Frame Synchronization Deciding Time 278 10.3.4 Frame Synchronization Reset Delay 285 10.3.5 Frame Loss Keeping Time 286 10.4 COMPARISON OF FRAME SYNCHRONIZATION SCHEMES 286 10.4.1 Frame Synchronization Average Keeping Time 286 10.4.2 Frame Loss Average Keeping Time 289 10.4.3 The Synthetical Criterion of the Frame Synchronization System 293 Chapter 11 Engineering Application Design 296 11.1 GENERAL PLESIOCHRONOUS GROUP MULTIPLEX DESIGN 296 11.1.1 Elementary Parameters Design 296 11.1.2 Transition Process Design 300 11.1.3 Frame Loss Probability and Search Characteristics Design 300 11.1.4 Partition of the Basic Units 301 11.1.5 Design Examples 302 11.2 STANDARD/NON-STANDARD RATES TOLERANCE DESIGN 307 11.2.1 Introduction 307 11.2.2 Transmission of Non-Standard Binary Digits through Standard Channels 308 11.2.3 Design Examples 309 11.2.4 Compatible Multiplex of Different Tributary Rates 310 11.3 PLESIOCHRONOUS/SYNCHRONOUS COMPATIBLE DESIGN 313 11.3.1 Introduction 313 11.3.2 Instruction Justification Compatible method 313 11.3.3 Multiframe Fixed Control Compatible Method 316 11.4 2/34Mbit/s MULTIPLEX DESIGN 320 11.4.1 2/34Mbit/s Multiplex Scheme Comparison 320 11.4.2 Model B 2/34Mbit/s Multiplexer Design 323 11.4.3 CCITT Recommendations 329 11.5 DESIGN OF BRANCH IN GROUP TRUNK TRANSMISSION 329 11.5.1 Introduction 329 11.5.2 Trunk Branch Simplified Scheme One 331 11.5.3 Trunk Branch Simplified Scheme Two 331 11.5.4 Trunk Branch Simplified Scheme Three 332 11.5.5 Design of Branch Control Signals 335 11.5.6 Function Supplement 337 11.5.7 CCITT Recommendations 339 11.6 INTERNETWORK MULTIPLEX DESIGN 341 11.6.1 2048-6312kbit/s Interconnection Multiplex Design 341 11.6.2 44 736-139 264kbit/s Interconnection Multiplex Design 343 11.7 SUBGROUP MULTIPLEX DESIGN 346 11.7.1 Subgroup Rate Selection 346 11.7.2 Subframe Structure Arrangement 349 11.7.3 Examples of Subgroup Frame Structure Design 355 11.8 ISDN USERS/NETWORK INTERFACE MULTIPLEX DESIGN 360 11.8.1 2B+D Interface Multiplex Design 360 11.8.2 2048kbit/s Primary Interface Multiplex Design 362 11.8.3 Multiplex Design of Entering 64kbit/s Channel 363 11.8.4 Multiplex Design of X1 Rate Entering 8/16kbit/s 363 11.8.5 Design of V Rate Multiplexed into Middle Rate 366 11.9 DESIGN OF MULTIPLEX SYSTEM MAINTENANCE 371 11.9.1 Introduction 371 11.9.2 Maintenance Principles 371 11.9.3 Multiplexer Maintenance Requirements 373 11.9.4 System Consideration of Maintenance Design 375 11.9.5 Examples of Maintenance Design 376 Bibliography 382 出集出版后记 386
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