1、Ecodesign for power drivesystems, motor starters, powerelectronics - Part 2: Energy efficiency indicators for power drive systems and motor starters; - Part 3: Quantitative ecodesign approach through life cycle assessment including product category rules and the content of environmental declarations
2、. The CLC/TC 22X/WG 06 is the enabled task force for dealing with the mandate M/476 from European Commission for the standardization in the field of variable speed drives and/or power drive system products. It has been set a close collaboration with several other technical committees (i.e. CLC/TC 2;
3、 CLC/TC 17B) in order to provide a comprehensive standard for energy efficiency and ecodesign requirements together with a pilot stakeholder committee CEN/TC 197 from the customers side. Key points: Clear requirements how to achieve an energy efficient driven equipment using a motor system; Requirem
4、ents and limits for IE-classes for power electronic converters; Requirements and limits for IES-classes for power drive systems (PDS); Loss determination of the PDS and requirements for the link to the driven equipment in order to determine the energy efficiency classification/evaluation of the exte
5、nded product; BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)22 Requirements how to achieve the environmentally conscious design and environmental declaration of a motor system. It is the intention of the working group that this document, once finalized as a European Standard series, will be
6、further processed to an international consensus in IEC according to the UAP procedure agreement between CENELEC and IEC. Foreword to amendment A1 This document (EN 50598-2:2014/A1:2016) has been prepared by CLC/TC 22X “Power electronics“. The following dates are fixed: latest date by which this docu
7、ment has to be implemented at national level by publication of an identical national standard or by endorsement (dop) 2017-06-28 latest date by which the national standards conflicting with this document have to be withdrawn (dow) 2019-06-28 Attention is drawn to the possibility that some of the ele
8、ments of this document may be the subject of patent rights. CENELEC and/or CEN shall not be held responsible for identifying any or all such patent rights. This document has been prepared under a mandate given to CENELEC by the European Commission and the European Free Trade Association, and support
9、s essential requirements of EU Directive(s).For the relationship with EU Directive(s) see informative Annex ZZ, which is an integral part of this document. BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)3Annex ZZ (informative) Relationship between this European Standard and the ecodesign requ
10、irements of Commission Regulation (EC) No 640/2009 aimed to be covered This European standard has been prepared under a Commissions standardisation request, M/476 Mandate to CEN, CENELEC and ETSI for Standardisation in the field of variable speed drives and/or Power Drive System products, to provide
11、 one voluntary means of conforming to ecodesign requirements of Commission Regulation (EC) No 640/2009 of 22 July 2009 implementing Directive 2005/32/EC of the European Parliament and of the Council with regard to ecodesign requirements for electric motors OJ L 191/26. Once this standard is cited in
12、 the Official Journal of the European Union under that Regulation, compliance with the normative clauses of this standard given in Table ZZ.1 confers, within the limits of the scope of this standard, a presumption of conformity with the corresponding ecodesign requirements of that Regulation, and as
13、sociated EFTA Regulations. Table ZZ.1 Correspondence between this European Standard and Commission Regulation (EC) No 640/2009 of 22 July 2009 implementing Directive 2005/32/EC of the European Parliament and of the Council with regard to ecodesign requirements for electric motors OJ L 191/26 and Com
14、missions standardisation request M/476 Mandate to CEN, CENELEC and ETSI for Standardisation in the field of variable speed drives and/or Power Drive System products Ecodesign requirements of Regulation (EC) No 640/2009 OJ L 191/26 Clause(s) / sub-clause(s) of this EN Remarks / Notes Article 3.2.: fr
15、om 1 January 2015: motors with a rated output of 7,5-375 kW shall not be less efficient than the IE3 efficiency level, as defined in Annex I, point 1, or meet the IE2 efficiency level, as defined in Annex I, point 1, and be equipped with a variable speed drive. Article 3.3.: from 1 January 2017: mot
16、ors with a rated output of 0,75-375 kW shall not be less efficient than the IE3 efficiency level, as defined in Annex I, point 1, or meet the IE2 efficiency level, as defined in Annex I, point 1, and be equipped with a variable speed drive. Clause 4.1 and 4.2 set the definitions for the concept of r
17、eference losses and for the optional relevant “torque versus speed operating points (including part load conditions)”. Clause 4.3 set the workflow requirements to analyse the variable speed drive in combination with driven equipment. The clauses 4.4. - 4.8 set the IE and the IES classification syste
18、m for converters and variable speed drives. Clause 9 sets the requirements for determination and type testing to verify the efficiency classes. The option to use an IE2 motor in a variable speed application instead of an IE3 motor depends mainly on the torque versus speed characteristic of the drive
19、n equipment and how it is applied. In order to do the right optional decision for maximum energy savings, EN 50598-2 gives the fundamental requirements, the workflows and the classification system for variable speed drives to do the fundamental assessment in the power range of 0,12 kW up to 1000 kW.
20、 BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)4Annex I, point 2: Information on the mandatory requirement to equip motors, which do not meet the IE3 efficiency level with a variable speed drive, shall be visibly displayed on the rating plate, technical documentation of the motor Clause 8 se
21、ts the requirements for the documentation that shall be provided by the manufacturers of the electronic frequency converters and the variable speed drives. All energy efficiency related equipment labels (IE as well as IES classes) are addressed, in order to ensure a classification of the CDM, PDS. A
22、lso the provisions of sufficient information are fixed, to recognize this classification for the final application and/or system, where the converters or variable speed drives are used as components. Annex I, point 2: Manufacturers shall provide information in the technical documentation on any spec
23、ific precautions that must be taken when motors are assembled, installed, maintained or used with variable speed drives, including information on how to minimise electrical and magnetic fields from variable speed drives. Clause 8.4 sets requirements for the determination of additional energy losses
24、and part load conditions depending on the BDM/CDM/PDS architecture and the possible use of options for compliance to other performance or environmental requirements. Clause 2 sets the relevant information how to minimise electrical and magnetic fields from variable speed drives and the specific info
25、rmation by a reference to EN 61800-3 “Electromagnetic Compatibility Requirements and specific test methods”. Annexes B 3.1 and B 3.2 describe the use of high frequency electromagnetic interference filters and low frequency line harmonics filters to minimise electrical and magnetic fields from variab
26、le speed drive systems. Electromagnetic compatibility (EMC) requirements are specific items for variable speed drives and are provided by the dedicated product standard EN 61800-3. Following those requirements leads to a fully compliant operation of variable speed drives since decades. WARNING 1: Pr
27、esumption of conformity stays valid only as long as a reference to this European standard is maintained in the list published in the Official Journal of the European Union. Users of this standard should consult frequently the latest list published in the Official Journal of the European Union. WARNI
28、NG 2: Other Union legislation may be applicable to the motor systems falling within the scope of this standard. BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)5Contents Page Foreword.2 Introduction 12 1 Scope . 14 2 Normative references . 14 3 Terms, definitions, symbols and abbreviations 15
29、3.1 Terms and definitions . 15 3.2 Symbols and abbreviations 18 4 Concept of the reference PDS (RPDS), the reference CDM (RCDM) and the reference motor (RM) . 24 4.1 General 24 4.2 Predefinition of the speed versus torque loss points of a RPDS, a RCDM, a RM and the associated power losses 25 4.3 Com
30、bining the PDS losses with the driven equipment 27 4.4 IE Classes of a line fed motor (IE1 up to IE9) 29 4.5 IE Classes of a converter fed motor (IE1 up to IE9) 29 4.6 IE Classes of a converter (complete drive module, CDM) (IE0 up to IE9) 29 4.7 IES Classes of a PDS (IES0 up to IES9) . 30 4.8 Consis
31、tency of IE, IES classes 30 4.9 Determination of the IES class of a resulting PDS by application of “reference“ and “test“ devices and guidance for the manufacturers . 31 5 Mathematical model of the CDM, motor and PDS . 32 5.1 General 32 5.2 CDM . 33 5.3 Reference motor (RM) . 45 5.4 Reference PDS (
32、RPDS) . 51 5.5 PDS losses for regenerative operation 54 6 Power losses of motor starters . 54 7 Limits for IE and IES classes 55 7.1 General 55 7.2 CDM . 55 7.3 Motor 57 7.4 PDS 58 8 Requirements for the users documentation 60 8.1 General 60 8.2 Information for selection . 62 8.3 Information for det
33、ermination of energy efficiency classes 62 8.4 Information on the determination of additional energy losses and part load conditions. 62 9 Type testing 63 BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)69.1 General 63 9.2 Type testing of CDM for IE classification . 63 9.3 Type testing of PDS
34、for IES classification . 64 9.4 Determination procedures for CDM and PDS losses in part load operation . 65 9.5 Power loss calculations for CDM . 65 9.6 Power loss calculations for PDS 65 9.7 Input-output measurement method 66 9.8 Calorimetric measurement of CDM losses 69 9.9 Testing conditions for
35、CDM testing 70 9.10 Testing conditions for PDS testing . 71 Annex A (informative) Losses of the RCDM, RM and RPDS . 72 Annex B (informative) Description of the elements of an extended product using PDS with regard to their impact on losses . 76 B.1 General 76 B.2 Losses in the mains cabling and feed
36、ing section 76 B.3 Input filter . 78 B.3.1 High frequency EMI filter 78 B.3.2 Low frequency line harmonics filter 78 B.4 Input converter . 79 B.4.1 Diode rectifier 79 B.4.2 Active infeed converter . 79 B.4.3 Power factor of the input converter . 81 B.5 DC link 82 B.6 Output inverter . 83 B.7 Output
37、filter and motor cables 84 B.7.1 General . 84 B.7.2 Sine wave filters 85 B.7.3 dV/dt filters and motor chokes 86 B.7.4 High frequency EMI motor filters 86 B.7.5 Motor cables . 86 B.8 Motor 86 B.9 Mechanical load . 86 B.10 Control and standby losses 86 B.11 Cooling losses 87 B.11.1 Primary cooling lo
38、sses 87 B.11.2 Secondary cooling losses . 87 Annex C (informative) Converter topology . 88 C.1 General 88 C.2 Voltage source output inverter topologies different from those mathematically described in 5.2.2 . 88 C.3 Voltage source input converter topologies different from those mathematically descri
39、bed in 5.2.3 . 88 C.4 CDM topologies different from voltage source type . 88 Annex D (informative) Basic Torque and Power vs. speed profiles, operating points over time . 90 D.1 General 90 BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)7D.2 Basic Torque and Power vs. Speed Profile . 90 D.3 Op
40、erating points over time . 91 D.4 Definition of the operating points over time . 91 D.4.1 General . 91 D.4.2 Calculation of the energy consumption based on the duty profile 92 D.4.3 Example of loss calculation for different operating points over time 93 Annex E (informative) Typical standardized ser
41、vo application. 96 E.1 General 96 E.2 Cycle 97 E.3 Calculation of motor losses .100 E.4 Losses of the servo CDM . 102 E.5 Losses of the servo PDS . 102 Annex F (informative) Additional information to 5.3 . 103 Annex G (informative) Application example for loss calculations of a CDM and a PDS 122 G.1
42、 General 122 G.2 CDM loss determination . 122 G.2.1 General . 122 G.2.2 Loss determination by maximum losses of neighbouring loss points 123 G.2.3 Loss determination by two-dimensional interpolation of losses of neighbouring loss points . 123 G.2.4 Loss determination by the mathematical model descri
43、bed in 5.2. 126 G.3 Loss determination of the motor 129 G.4 Loss determination of the PDS 130 Annex H (informative) Uncertainty of loss determination method 131 H.1 General 131 H.2 Calculation of uncertainty at randomly occurring errors 131 H.3 Typical uncertainties for loss determination methods 13
44、1 Annex I (informative) Calorimetric measurement for CDM losses . 133 I.1 General 133 I.2 Calorimeter with two chambers with air as a cooling medium . 133 I.3 Calorimeter with one chamber with air as a cooling medium 134 I.4 Calorimeter with liquid as a cooling medium . 135 Annex J (informative) Flo
45、wchart of determination of IE/IES classification for CDM/PDS and loss determination for part load operating points . 136 Bibliography . 138 Figure 1 Illustration of controversial requirements for the energy related product (ErP) standardization 12 Figure 2 Illustration of the extended product with i
46、ncluded motor system 16 Figure 3 Illustration of the operating points for speed versus torque to determine the relative power losses of the power drive system (RPDS) 25 Figure 4 Illustration of the operating points for speed versus torque to determine the relative power losses of the reference motor
47、 (RM) 26 BS EN 50598-2:2014+A1:2016 EN 50598-2:2014+A1:2016 (E)8Figure 5 Illustration of the operating points of the RCDM depending on the relative torque-producing current and the relative motor stator frequency, to determine the losses of reference complete drive module (RCDM) 26 Figure 6 Illustra
48、tion of the workflow to determine the energy efficiency index (EEI) of an extended product . 27 Figure 7 Illustration how to combine different data sources to determine the energy efficiency index (EEI) of an extended product . 28 Figure 8 Three points of relative losses and shaded area of interest
49、for the pump manufactures while defining the EEI (Energy Efficiency Index) of a pump unit 28 Figure 9 Metrical relation of IE, IES classes . 31 Figure 10 Guidance for CDM and Motor manufacturers for the usage of “test“ and “reference“ devices to determine the IE-/IES classes . 32 Figure 11 Illustration of the CDM and the test load 33 Figure 12 Relative losses pL,CDMof the 9,95kVA RCDM 44 Figure 13 Example of the relative power losses of PDS as function of speed and torque . 53 Figure 14 Example of the relative power losses versus switc
