ДСТУ EN IEC 62657-2:2023 Промышленные коммуникационные сети. Беспроводные сети. Часть 2. Управление сосуществованием (EN IEC 62657-2:2022, IDT; IEC 62657-2:2022, IDT)
ПІДТВЕРДЖУВАЛЬНЕ ПОВІДОМЛЕННЯ
Державне підприємство
«Український науково-дослідний і навчальний центр
проблем стандартизації, сертифікації та якості»
(ДП «УкрНДНЦ»)
Наказ від 04.12.2023 № 330
EN IEC 62657-2:2022
Industrial networks - Coexistence of wireless systems -
Part 2: Coexistence management
прийнято як національний стандарт
методом «підтвердження» за позначенням
ДСТУ EN IEC 62657-2:2023
(EN IEC 62657-2:2022, IDT; IEC 62657-2:2022, IDT)
Промислові комунікаційні мережі. Бездротові мережі зв'язку.
Частина 2. Управління співіснуванням
З наданням чинності від 2023-12-08
Не є офіційним виданням.
Офіційне видання розповсюджує національний орган стандартизації
(ДП «УкрНДНЦ» http://uas.gov.ua)
CONTENTS
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms, definitions, abbreviated terms and conventions
3.1 Terms and definitions
3.2 Abbreviated terms
3.3 Conventions
4 Coexistence concept in industrial automation
4.1 Overview
4.2 Objective
4.3 Necessity to implement a coexistence management
4.4 Interference potential
4.5 Ancillary conditions
4.6 Requirements to wireless devices for support of coexistence management
4.7 Concepts
4.8 Best practices to achieve coexistence
4.9 Coexistence conceptual model
4.10 Coexistence management and selection of a wireless solution
4.11 Coexistence management system
5 Coexistence management parameters
5.1 General
5.2 Adjacent channel selectivity
5.3 Antenna gain
5.4 Antenna radiation pattern
5.5 Antenna type
5.6 Communication availability
5.7 Communication reliability
5.8 Bit rate of physical link
5.9 Blocked frequency list
5.10 Centre frequency
5.11 Area of operation
5.12 Communication load
5.13 Cut-off frequency
5.14 Data throughput
5.15 Distance between wireless devices
5.16 Duty cycle
5.17 Dwell time
5.18 Equivalent isotropic radiated power
5.19 Equivalent radiated power
5.20 Frequency band
5.21 Frequency bandwidth
5.22 Frequency channel
5.23 Frequency hopping sequence
5.24 Future expansion plan
5.25 Geographical dimension of the plant
5.26 Infrastructure device
5.27 Initiation of data transmission
5.28 Interference type
5.29 Intervisibility
5.30 ISM application
5.31 Length of user data per transfer interval
5.32 Limitation from neighbours of the plant
5.33 Maximum number of retransmissions
5.34 Mechanism for adaptivity
5.35 Medium access control mechanism
5.36 Medium utilization factor
5.37 Message
5.38 Modulation
5.39 Natural environmental condition
5.40 Network topology
5.41 Number of consecutive lost messages
5.42 Object movement
5.43 Operating time between failures
5.44 Message loss ratio
5.45 Position of wireless devices
5.46 Power spectral density
5.47 Purpose of the automation application
5.48 Receiver blocking
5.49 Receiver maximum input level
5.50 Receiver sensitivity
5.51 Regional radio regulations
5.52 Relative movement
5.53 Response time
5.54 Security level
5.55 Spatial coverage of the wireless communication system
5.56 Spatial extent of the application
5.57 Spurious response
5.58 Survival time
5.59 Total radiated power
5.60 Transfer interval
5.61 Transmission gap
5.62 Transmission time
5.63 Transmitter output power
5.64 Transmitter sequence
5.65 Transmitter spectral mask
5.66 Update time
5.67 Wireless device density
5.68 Wireless device type information
5.69 Wireless communication solution density
5.70 Wireless technology or standard
6 Coexistence management information structures
6.1 General
6.2 General plant characteristic
6.3 Application communication requirements
6.4 Wireless system type and wireless device type
6.5 Wireless solution
6.6 Application related characteristic parameters
7 Coexistence management process
7.1 General
7.2 Establishment of a coexistence management system
7.3 Maintaining coexistence management system
7.4 Phases of a coexistence management process
8 Coexistence parameter templates
Bibliography
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