BS EN IEC 61800-2:2021

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Adjustable speed electrical power drive system – General requirements. Rating specifications for adjustable speed AC power drive systems

Published By	Publication Date	Number of Pages
BSI	2021	124

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Categories: 29.160.30 - Motors, BSI

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Description

IEC 61189-5-301:2021 specifies methods for testing the characteristics of soldering paste using fine solder particles (hereinafter referred to as solder paste). This document is applicable to the solder paste using fine solder particle such as type 6, type 7 specified in IEC 61190-1-2 or finer particle sizes. This type of solder paste is used for connecting wiring and components in high-density printed circuit boards which are used in electronic or communication equipment and such, equipping fine wiring (e.g., minimum conductor widths and minimum conductor gaps of 60 µm or less). Test methods for the characteristics of solder paste in this document are considering the effect of surface activation force due to the fine sized solder particles which could affect the test result by existing test methods.

PDF Catalog

PDF Pages	PDF Title
2	undefined
6	Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
11	English CONTENTS
15	FOREWORD
18	INTRODUCTION
20	1 Scope
21	2 Normative references
23	3 Terms and definitions Tables Table 1 – List of general terms
24	Table 2 – List of input ratings of BDM/CDM/PDS Table 3 – List of output ratings of BDM/CDM/PDS
25	Table 4 – List of motor speed and torque ratings
27	Figures Figure 1 – BDM/CDM/PDS manufacturer/customer relationship
29	Figure 2 – Operating quadrants
30	Table 5 – Basic classification of PDS by voltage
35	Figure 3 – Example of a power drive system
41	4 Guidance for specification of BDM/CDM/PDS and methodologies for compliance 4.1 General 4.2 Methodology for compliance 4.2.1 Agreement between customer and manufacturer
42	4.2.2 Methodology to state compliance without customer input
43	Table 6 – Selection of equipment rating, performance, functionalityby responsible parties with corresponding test specification
47	4.3 Applicable standards 5 Performance and functionality criteria 5.1 General
48	5.2 BDM/CDM/PDS characteristics and topology 5.2.1 General 5.2.2 BDM/CDM/PDS characteristics
49	5.2.3 Basic topology for BDM/CDM/PDSs Figure 4 – Typical BDM/CDM/PDS
50	Figure 5 – Common DC link BDM/CDM/PDS
51	5.2.4 Cooling topology Figure 6 – BDM/CDM/PDS with brake Figure 7 – BDM/CDM/PDS with AIC
52	5.2.5 Bypass and redundant configurations
53	5.3 Ratings 5.3.1 General Figure 8 – Bypass configuration for system with indirect converter Figure 9 – Load commutation inverters LCI-synchronous motorin a partly redundant configuration
54	5.3.2 Input ratings Table 7 – Overview of input and output ratings of the BDM/CDM/PDS
55	5.3.3 Output ratings
56	Figure 10 – Example of operating region of a PDS
57	5.3.4 Operating quadrants Figure 11 – Overload cycle example Table 8 – Example of reduced maximumcontinuous load as a function of an overload
58	5.3.5 Ratings and functionality of the control equipment 5.3.6 Special ratings related to BDM/CDM/PDS or motor
65	Figure 12 – Insulation stressing types
66	Figure 13 – Definition of the transient voltage at the terminals of the motor Figure 14 – Admissible pulse voltage (including voltage reflection anddamping) at the motor terminals as a function of the peak rise time ta
67	Table 9 – Limiting parts and typical voltage stress capabilityof the motor insulation system
68	5.4 Performance 5.4.1 Operational
69	Figure 15 – Deviation band
70	Table 10 – Maximum deviation bands (percent)
72	Figure 16 – Time response following a step change of reference input –No change in operating variables
73	Figure 17 – Time response following a changein an operating variable – No reference change Figure 18 – Time response following a reference change at specified rate
75	Figure 19 – Frequency response of the control – Reference value as stimulus
77	5.4.2 Fault supervision
78	Table 11 – PDS protection functions
79	5.4.3 Minimum status indication required 5.4.4 I/O devices
81	5.5 General safety 5.6 Functional safety 5.7 EMC 5.8 Ecodesign 5.8.1 General
82	5.8.2 Energy efficiency and power losses 5.8.3 Environmental impact 5.9 Environmental condition for service, transport and storage 5.9.1 General 5.9.2 Operation
83	Table 12 – Environmental service conditions
84	Table 13 – Definitions of pollution degree Table 14 – Environmental vibration limits for fixed installation
85	Table 15 – Installation vibration limits Table 16 – Environmental shock limits for fixed installation
87	5.9.3 Storage and transport of equipment 5.9.4 Mechanical conditions Table 17 – Storage and transport limits
88	5.9.5 Specific storage hazards Table 18 – Transportation vibration limits Table 19 – Transportation limits of free fall
89	5.9.6 Environmental service tests (type test) 5.10 Types of load duty profiles Table 20 – Environmental service tests
90	5.11 Generic interface and use of profiles for PDS
91	5.12 Voltage on power interface Figure 20 – Example of relationship of IEC 61800-7 (all parts) to controlsystem software and the BDM/CDM/PDS
92	5.13 Driven equipment interface 5.13.1 Critical speeds 5.13.2 Torsion analysis
93	5.14 Explosive environment 5.15 Earthing requirements Figure 21 – Example of protective earthing and interconnection of main components
94	6 Test 6.1 General 6.2 Items of individual PDS component tests 6.3 Overview of standards and tests for PDS components 6.4 Performance of tests
95	6.5 Standard tests for BDM/CDM/PDS 6.5.1 General 6.5.2 Current source converter zero power factor test 6.6 Test specifications 6.6.1 Visual inspections (type test, sample test and routine test) 6.6.2 Supply system earthing conditions
96	6.6.3 Static performance and rating test
97	Figure 22 – Measuring circuit of PDS
103	6.6.4 Electrical safety 6.6.5 Functional safety 6.6.6 EMC
104	6.6.7 Ecodesign 6.6.8 Environmental condition tests
105	Table 21 – Shock test
106	6.6.9 Communication profiles 6.6.10 Explosive atmosphere environment 7 Information and marking requirements 7.1 General 7.2 Marking on product
107	7.3 Information to be supplied with the PDS or BDM/CDM 7.4 Information to be supplied or made available 7.5 Safety and warning 7.5.1 Safety and warning labels
108	7.5.2 Additional safety considerations of a PDS
109	Annex A (informative)Classification of PDS into low-voltagesystem and high-voltage system A.1 General A.2 Classification of PDS by voltage Figure A.1 – Basic configuration of PDS
110	A.3 Examples A.3.1 PDS with a supply transformer A.3.2 PDS with an active infeed converter Figure A.2 – Example of low-voltage PDS with a supply transformer Table A.1 – Basic classification of PDS by voltage
111	A.3.3 PDS with an output transformer Figure A.3 – Example of low-voltage PDS with an active infeed converter Figure A.4 – Example of high-voltage PDS with an active infeed converter Figure A.5 – Example of high-voltage PDS with an output transformer
112	A.3.4 PDS with a common DC link Figure A.6 – Example of low-voltage PDS with a common DC link
113	A.3.5 PDS with a step-up chopper A.3.6 PDS with parallel-connected line-side converters Figure A.7 – Example of high-voltage PDS with a common DC link Figure A.8 – Example of high-voltage PDS with a step-up chopper
114	A.3.7 PDS with series-connected line-side converters Figure A.9 – Example of low-voltage PDS with parallel-connected rectifiers Figure A.10 – Example of high-voltage PDSwith parallel-connected line-side converters
115	A.3.8 PDS with star-connected inverters Figure A.11 – Example of high-voltage PDS with series-connected rectifiers Figure A.12 – Example of high-voltage PDS with series-connected rectifiers
116	A.3.9 PDS with a multilevel inverter Figure A.13 – Example of high-voltage PDS with star-connected inverters
117	Figure A.14 – Example of high-voltage PDS with a multilevel inverter Figure A.15 – Example of a power module
118	A.3.10 Multiple PDSs with a common supply transformer
119	Figure A.16 – Example of multiple low-voltage/high-voltage PDSswith a common supply transformer
120	Annex B (informative)Determination of the input current of BDM/CDM/PDS Figure B.1 – Example of distortion effect of the input currentaffected by a three-phase converter with capacitive load
122	Bibliography

Additional information

Status	Definitive
Pages	124
Publication Date	2021-04-16
ISBN	978 0 580 52367 0
Standard Number	BS EN IEC 61800-2:2021
Title	Adjustable speed electrical power drive system – General requirements. Rating specifications for adjustable speed AC power drive systems
Identical National Standard Of	EN IEC 61189-5-301:2021, EN IEC 61800-2:2021, IEC 61800-2:2021, IEC 61189-5-301:2021
Replaces	BS EN 61800-2:2015
Descriptors	Power rating, Electric power systems, AC, Speed, Electrical equipment
Publisher	BSI
Committee	PEL/22
ICS Codes	29.160.30 - Motors

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