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EVS-EN 62433-3:2017
Hind 22,15 EUR
Identne IEC 62433-3:2017; EN 62433-3:2017
EMC IC modelling - Part 3: Models of Integrated Circuits for EMI behavioural simulation - Radiated emissions modelling (ICEM-RE)
IEC 62433-3:2017 provides a method for deriving a macro-model to allow the simulation of the radiated emission levels of an Integrated Circuit (IC). This model is commonly called Integrated Circuit Emission Model - Radiated Emission, ICEM-RE. The model is intended to be used for modelling a complete IC, with or without its associated package, a functional block and an Intellectual Property (IP) block of both analogue and digital ICs (input/output pins, digital core and supply), when measured or simulated data cannot be directly imported into simulation tools.

EVS-EN 62949:2017
Hind 12,51 EUR
Identne IEC 62949:2017; EN 62949:2017
Particular safety requirements for equipment to be connected to information and communication networks
IEC 62949:2017 applies to the interface of equipment designed and intended to be connected as a communication terminal to an information and communication technology (ICT) network termination. This document does not apply to: - equipment covered by IEC 62368-1; or - interfaces to other networks. This document specifies the safety requirements of the interface to the ICT network only. Requirements additional to those specified in this document may be necessary for equipment intended for operation while exposed, for example, to extremes of temperature, to excessive dust, moisture, or vibration, to flammable gases, to corrosive or explosive atmospheres and electro medical applications with physical connections to the patient. The following requirements are not covered by this document: - functional safety of equipment; - functional reliability of equipment; - communication facilities with remote supply using hazardous voltage; - protection of equipment connected to ICT networks from functional damage.

EVS-EN 61000-4-39:2017
Hind 15,40 EUR
Identne IEC 61000-4-39:2017; EN 61000-4-39:2017
Electromagnetic Compatibility (EMC) - Part 4-39: Testing and measurement techniques - Radiated fields in close proximity - Immunity test
IEC 61000-4-39:2017 specifies immunity requirements for electrical and electronic equipment when it is exposed to radiated electromagnetic energy from RF transmitters used in close proximity. It establishes test levels and the required test procedures. The applicable frequency range is 9 kHz to 6 GHz. It has the status of a basic EMC publication in accordance with IEC Guide 107.

EVS-EN 62325-451-1:2017
Hind 16,10 EUR
Identne IEC 62325-451-1:2017; EN 62325-451-1:2017
Framework for energy market communications - Part 451-1: Acknowledgement business process and contextual model for CIM European market
IEC 62325-451-1:2017 specifies a UML package for the acknowledgment business process and its associated document contextual model, assembly model and XML schema for use within the European style electricity markets. The relevant aggregate core components (ACCs) defined in IEC 62325-351 have been contextualized into aggregated business information entities (ABIEs) to satisfy the requirements of the European style market acknowledgment business process. The contextualized ABIEs have been assembled into the acknowledgment document contextual model. This new edition includes the following significant technical changes with respect to the previous edition: - addition of an optional attribute ProcessType to the acknowledgement document to ease routing of incoming acknowledgement document instances to the appropriate application; - clarification of the activity diagram for the acknowledgement process; - addition of the list of constraints on datatypes.

EVS-EN 61291-5-2:2017
Hind 10,19 EUR
Identne IEC 61291-5-2:2017; EN 61291-5-2:2017
Optical amplifiers - Part 5-2: Qualification specifications - Reliability qualification for optical fibre amplifiers
IEC 61291-5-2:2017 applies to optical amplifiers (OAs) and optically amplified, elementary sub-systems for terrestrial applications, using active fibres (optical fibre amplifiers (OFAs)) containing rare-earth dopants, which are commercially available. The black box approach is used in this document. The black box approach is adopted in order to give product specifications which are independent of OA implementation details. For reliability qualification purposes, some information about the internal components is needed; these internal parts are themselves treated as black boxes. This document gives requirements for the evaluation of OA reliability by combining the reliability of such internal black boxes. The object of this document is to specify the minimum list of reliability qualification tests, requirements on failure criteria during testing and on reliability predictions, and give the relevant normative references to establish a standard method for the assessment of the reliability of OFA devices and sub-systems in order to minimize risks and to promote product development and reliability qualification. This second edition cancels and replaces the first edition published in 2002. It constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) removal of the contents on the relating quality management system from scope, terms and definitions, and the reliability requirements; b) moving fit-rate calculation to Annex B (informative); c) change of requirements for shock test; d) amendment of abbreviations related to changes a) and b).

EVS-EN 61300-2-55:2017
Hind 9,49 EUR
Identne IEC 61300-2-55:2017; EN 61300-2-55:2017
Fibre optic interconnecting devices and passive components - Basic test and measurement procedures - Part 2-55: Tests - Strength of mounted adaptor
IEC 61300-2-55: 2017 describes the test procedure to measure the mounting strength of an optical adaptor or receptacle to a fixture.  Keywords: mounting strength of an optical adaptor

EVS-EN 300 220-1 V3.1.1:2017
Hind 20,74 EUR
Identne EN 300 220-1 V3.1.1
Short Range Devices (SRD) operating in the frequency range 25 MHz to 1 000 MHz; Part 1: Technical characteristics and methods of measurement
The present document specifies technical characteristics and test methods to be used in the conformance assessment of Short Range Device equipment in the frequency range 25 MHz to 1 GHz.

EVS-EN 300 220-2 V3.1.1:2017
Hind 14,69 EUR
Identne EN 300 220-2 V3.1.1
Raadiosagedusvahemikus 25 MHz kuni 1000 MHz kasutamiseks mõeldud lähitoimeseadmed (SRD); Osa 2: Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies technical characteristics and methods of measurements for Non-specific Short Range Devices category equipment types. Non specific SRDs category is defined by the EU Commission Decision 2013/752/EU [i.3] as: "The non-specific short-range device category covers all kinds of radio devices, regardless of the application or the purpose, which fulfil the technical conditions as specified for a given frequency band. Typical uses include telemetry, telecommand, alarms, data transmissions in general and other applications". The present document covers equipment intended for fixed, mobile or nomadic use, including: • stand-alone radio equipment; • plug-in radio devices intended for use with or within a variety of host systems; • plug-in radio devices intended for use within combined equipment. These radio equipment types are capable of operating in all or any part of the frequency bands given in table 1. Table 1: SRDs frequency ranges Short Range Devices frequency ranges Transmit and receive 26,957 MHz to 27,283 MHz Transmit and receive 40,660 MHz to 40,700 MHz Transmit and receive 138,2 MHz to 138,45 MHz Transmit and receive 169,4 MHz to 169,8125 MHz Transmit and receive 433,040 MHz to 434,790 MHz Transmit and receive 863 MHz to 876 MHz Transmit and receive 915 MHz to 921 MHz NOTE: It should be noted that not all frequency bands in table 1 are implemented in all European countries. Annex B provides an overview of radio interfaces which are harmonised in the European Union. Annex C provides an overview of national radio interfaces not harmonised in the European Union. It is noted that in the European Commission Decision on Short Range Devices [i.3], some harmonised frequency bands may be subject to usage restrictions such as the exclusion of video or audio use. Equipment transmitting voice with analog modulation are excluded from the present document. The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.2] under the conditions identified in annex A.

EVS-EN 300 220-4 V1.1.1:2017
Hind 11,67 EUR
Identne EN 300 220-4 V1.1.1
Raadiosagedusvahemikus 25 MHz kuni 1000 MHz kasutamiseks mõeldud lähitoimeseadmed (SRD); Osa 4: Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oliliste nõuete alusel; Sagedustel 169,400 MHz kuni 169,475 MHz töötavad mõõteseadmed
The present document specifies technical characteristics and methods of measurements for Metering Devices category equipment types: • Metering devices category is defined by the EU Commission Decision 2013/752/EU [i.2] as: "The metering device category covers radio devices that are part of bidirectional radio communications systems which allow remote monitoring, measuring and transmission of data in smart grid infrastructures, such as electricity, gas and water". The present document covers equipment intended for fixed, mobile or nomadic use, e.g.: • stand-alone radio equipment; • plug-in radio devices intended for use with or within a variety of host systems; • plug-in radio devices intended for use within combined equipment. These radio equipment types are capable of operating in the metering designated frequency band given in table 1. Table 1: Metering SRDs frequency band Metering Short Range Devices frequency range Transmit and receive 169,400 MHz to 169,475 MHz The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.1] under the conditions identified in annex A.

EVS-EN 300 330 V2.1.1:2017
Hind 20,74 EUR
Identne EN 300 330 V2.1.1
Lähitoimeseadmed (SRD); Raadiosagedusalas 9 kHz kuni 25 MHz töötavad raadioseadmed ja sagedusalas 9 kHz kuni 30 MHz töötavad induktiivseadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel.
The present document specifies technical characteristics and methods of measurements for the following Short Range Device major equipment types: 1) Generic Short range Devices including transmitters and receivers operating in the range from 9 kHz to 25 MHz; and 2) inductive loop transmitters and receivers operating from 9 kHz to 30 MHz including Radio Frequency Identification (RFID), Near Field Communication (NFC) and Electronic Article Surveillance (EAS) operating in LF and HF ranges. Also the present document covers fixed, mobile and portable stations. NOTE: If a system includes transponders, these are measured together with the transmitter. These radio equipment types are capable of operating in the permitted frequency bands within the 9 kHz to 30 MHz range as specified in table 1. Table 1: Short Range Devices within the 9 kHz to 30 MHz permitted frequency bands Frequency Bands/frequencies Applications Transmit and Receive 9 kHz to 90 kHz Inductive devices, Generic use Transmit and Receive 90 kHz to 119 kHz Inductive devices, Generic use Transmit and Receive 119 kHz to 140 kHz Inductive devices, Generic use Transmit and Receive 140 kHz to 148,5 kHz Inductive devices, Generic use Transmit and Receive 148,5 kHz to 5 MHz Inductive devices, Generic use Transmit and Receive 400 kHz to 600 kHz RFID only Transmit and Receive 5 MHz to 30 MHz Inductive devices, Generic use Transmit and Receive 3 155 kHz to 3 400 kHz Inductive devices, Generic use Transmit and Receive 984 kHz to 7 484 kHz (Note 3, Centre frequency is 4 234 kHz) Inductive devices, Railway applications Transmit and Receive 4 516 kHz Inductive devices, Railway applications Transmit and Receive 6 765 kHz to 6 795 kHz Inductive devices, Generic use Transmit and Receive 7 400 kHz to 8 800 kHz Inductive devices, Generic use Transmit and Receive 10 200 kHz to 11,000 MHz Inductive devices, Generic use Transmit and Receive 11,810 MHz to 15,310 MHz (Centre frequency is 13,56 MHz) RFID only Transmit and Receive 12,5 MHz to 20 MHz Inductive devices, Wireless healthcare Transmit and Receive 13,553 MHz to 13,567 MHz Inductive devices, Generic use Transmit and Receive 26,957 MHz to 27,283 MHz Inductive devices, Generic use Transmit and Receive 27,090 MHz to 27,100 MHz Inductive devices, Railway applications NOTE 1: In addition, it should be noted that other frequency bands may be available in a country within the frequency range 9 kHz to 30 MHz. NOTE 2: On non-harmonised parameters, national administrations may impose certain conditions such as the type of modulation, frequency, channel/frequency separations, maximum transmitter radiated power, duty cycle, and the inclusion of an automatic transmitter shut-off facility, as a condition for the issue of an Individual Rights for use of spectrum or General Authorization, or as a condition for use under "licence exemption" as it is in most cases for Short Range Devices. NOTE 3: Transmitting only on receipt of a Balise/Eurobalise tele-powering signal from a train. The frequency ranges and limits of the present document are based on the European Commission Decision for SRDs [i.10], CEPT/ERC/REC 70-03 [i.1]. When selecting parameters for new SRDs, which may have inherent safety of human life implications, manufacturers and users should pay particular attention to the potential for interference from other systems operating in the same or adjacent bands. The radio equipment, covered by the present document is divided into several classes which are dependent on the antenna used (see annex B). Three types of measuring methods are defined in the present document due to the varied nature of the antenna types for equipment used in this band. One method measures the RF carrier current, another measures the radiated H-field and the third conducted power. The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.4] under the conditions identified in annex A.

EVS-EN 300 338-1 V1.4.1:2017
Hind 16,10 EUR
Identne EN 300 338-1 V1.4.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 1: Common requirements
The present document states the minimum requirements for equipment to be used for generation, transmission and reception of Digital Selective Calling (DSC) for use on board ships. DSC is intended to be used in the Medium Frequency (MF), High Frequency (HF) and Very High Frequency (VHF) bands of the Maritime Mobile Service (MMS), for distress, urgency and safety communication and general communications. The present document is a multipart deliverable that covers the requirements to be fulfilled by: - DSC equipment integrated with a transmitter and/or a receiver; - DSC equipment not integrated with a transmitter and/or a receiver. These requirements include the relevant provisions of the ITU Radio Regulations [i.17] and Recommendations ITU-R, the International Convention for the Safety Of Life At Sea (SOLAS) [i.16], and the relevant resolutions of the International Maritime Organization (IMO). Equipment for generation, transmission and reception of DSC designed according to the following equipment classes: • Class A: includes all the facilities defined in annex 1 of Recommendation ITU-R M.493-14 [2] and complies with the IMO Global Maritime Distress and Safety System (GMDSS) carriage requirements for MF/HF installations and/or VHF installations. • Class B: provides minimum facilities for equipment on ships not required to use class A equipment and complies with the minimum IMO GMDSS carriage requirements for MF and/or VHF installations. This equipment should provide for: - alerting, acknowledgement and relay facilities for distress purposes; - calling and acknowledgement for general communication purposes; and - calling in connection with semi-automatic/automatic services, as defined in Recommendation ITU-R M.493-14 [2], annex 2, clause 3. • Class D: provides minimum facilities for VHF DSC distress, urgency and safety as well as routine calling and reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the GMDSS. • Class E: provides minimum facilities for MF and/or HF DSC distress, urgency and safety as well as routine calling and reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the GMDSS. • Class H: provides minimum facilities for handheld VHF DSC distress, urgency and safety as well as routine calling and reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the GMDSS. • Class M: provides minimum facilities for VHF Man Overboard devices as defined in Recommendation ITU-R M.493-14 [2]. NOTE 1: Class A and Class B equipment may support the optional semi-automatic/automatic service in accordance with Recommendations ITU-R M.689-3 [4], M.1082-1 [5] and M.493-14 [2], tables 4.10.1 and 4.10.2 and are encouraged to do so. NOTE 2: Class D and Class E equipment may also support the optional semi-automatic/automatic service

EVS-EN 300 338-2 V1.4.1:2017
Hind 17,08 EUR
Identne EN 300 338-2 V1.4.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 2: Class A/B DSC
The present document states the minimum requirements for equipment to be used for generation, transmission and reception of Class A or B Digital Selective Calling (DSC) for use on board ships. DSC is intended to be used in the Medium Frequency (MF), High Frequency (HF) and Very High Frequency (VHF) bands of the Maritime Mobile Service (MMS), for both distress, safety and general communications. The present document is part 2 of a multi-part deliverable that covers the requirements to be fulfilled by equipment that is either integrated with a transmitter and/or a receiver or equipment that is a stand-alone DSC terminal and has the following class of DSC: • Class A: includes all the facilities defined in annex 1 of Recommendation ITU-R M.493-14 [3] and complies with the IMO Global Maritime Distress and Safety System (GMDSS) carriage requirements for MF/HF installations and/or VHF installations; • Class B: provides minimum facilities for equipment on ships not required to use class A equipment and complies with the minimum IMO GMDSS carriage requirements for MF and/or VHF installations. This equipment should provide for: - alerting, acknowledgement and relay facilities for distress purposes; - calling and acknowledgement for general communication purposes; and - calling in connection with semi-automatic/automatic services, as defined in Recommendation ITU-R M.493-14 [3], annex 2, clause 3. These requirements include the relevant provisions of the ITU Radio Regulations [2] and Recommendations ITU-R, the International Convention for the Safety Of Life At Sea (SOLAS), and the relevant resolutions of the International Maritime Organization (IMO).

EVS-EN 300 338-3 V1.2.1:2017
Hind 16,10 EUR
Identne EN 300 338-3 V1.2.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 3: Class D DSC
The present document states the minimum requirements for general communication for shipborne fixed installations using DSC - class D. Class D DSC is intended be used in the Very High Frequency (VHF) band of the Maritime Mobile Service (MMS), for distress, urgency and safety communication and general communications using telephony for subsequent communications. The present document is part 3 of a multi-part deliverable that covers the requirements to be fulfilled by equipment that is either integrated with a transmitter and/or a receiver or equipment that is a stand-alone DSC terminal. These requirements include the relevant provisions and the guidelines of the IMO as detailed in MSC/Circ.803 [i.1] for non-SOLAS vessels participating in the GMDSS as well as Commission Decision of 4 September 2003 (2004/71/EC [i.5]).

EVS-EN 300 338-4 V1.2.1:2017
Hind 16,10 EUR
Identne EN 300 338-4 V1.2.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 4: Class E DSC
The present document states the minimum requirements for general communication for shipborne fixed installations using DSC - class E. Class E DSC is intended to be used in the Medium Frequency (MF) and/or High Frequency (HF) bands of the Maritime Mobile Service (MMS), for distress, urgency and safety communication and general communications and uses telephony for subsequent communications. The present document is part 4 of a multi-part deliverable that covers the requirements to be fulfilled by equipment that is either integrated with a transmitter and/or a receiver or equipment that is a stand-alone DSC terminal. These requirements include the relevant provisions and the guidelines of the IMO as detailed in MSC/Circ.803 [i.1] for non-SOLAS vessels participating in the GMDSS as well as Commission Decision of 4 September 2003 (2004/71/EC [i.3]).

EVS-EN 300 338-5 V1.2.1:2017
Hind 16,10 EUR
Identne EN 300 338-5 V1.2.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 5: Handheld VHF Class H DSC
The present document states the minimum requirements for general communication for handheld VHF radios using the handheld class H DSC for shipborne use. Class H DSC may be used in the Very High Frequency (VHF) Maritime Mobile Service (MMS), for distress, urgency and safety communication and general communications using telephony for subsequent communications. The present document is part 5 of a multi-part deliverable that covers the requirements to be fulfilled by equipment that is integrated with a handheld transceiver. These requirements include the relevant provisions and the guidelines of the IMO as detailed in MSC/Circ.803 [i.1] for non-SOLAS vessels participating in the GMDSS.

EVS-EN 300 338-6 V1.1.1:2017
Hind 8,72 EUR
Identne EN 300 338-6 V1.1.1
Technical characteristics and methods of measurement for equipment for generation, transmission and reception of Digital Selective Calling (DSC) in the maritime MF, MF/HF and/or VHF mobile service; Part 6: Class M DSC
The present document states the minimum requirements for devices using Digital Selective Calling (DSC) Class M, for Man Overboard (MOB). The present document defines the requirements for equipment that uses DSC alerting and signalling in the maritime mobile bands and particularly the GMDSS distress and safety channels. Such equipment is not intended to provide any subsequent communications or telephony facilities. The present document is part 6 of a multi-part deliverable that covers the channel access rules and technical requirements applicable to these devices.

EVS-EN 300 422-2 V2.1.1:2017
Hind 19,05 EUR
Identne EN 300 422-2 V2.1.1
Raadiomikrofonid; Audio PMSE kuni 3 GHz; Osa 2: Klass B vastuvõtjad; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies the technical characteristics and methods of measurement for the following types of equipment: a) Assistive Listening Devices (ALDs); b) Radio Microphones; c) In-Ear Monitoring Systems; d) Wireless Multichannel Audio Systems (WMAS); e) Tour Guide Systems; with Class B receivers which have reduced performance requirements with respect to sensitivity, adjacent channel selectivity, and receiver blocking compared to those with Class A receivers. It does not necessarily include all the characteristics that may be required by a user, nor does it necessarily represent the optimum performance achievable. Equipment with Class B receivers will support the operation of fewer wireless audio channels in a given amount of spectrum than Class A receivers. The present document applies to equipment operating on radio frequencies up to 3 GHz (as shown in table 1) using analogue, digital and hybrid (using both analogue and digital) modulation. The maximum power recommended for equipment covered by this multi-part deliverable is 250 mW for radio microphones and 10 mW for ALDs. An exception to this are the Public Hearing Aids defined in the CEPT Report 004 [i.7] and subsequent EC Decision 2005/928/EC [i.9] and EC Decision 2006/771/EC [i.8] on the ex ERMES band (169,4 MHz to 169,8125 MHz) where 500 mW is defined. The present document covers the essential requirements of Article 3.2 of Directive 2014/53/EU under the conditions identified in annex A. The present document also covers radio microphones used in the 863 MHz to 865 MHz band, with a maximum power of 10 mW. Electromagnetic Compatibility (EMC) requirements are covered by ETSI EN 301 489-9 [i.4]. National regulations on: 1) maximum power output; 2) licensing status; will take precedence or those detailed in the latest version of: • EC Decision 2005/928/EC [i.9]; • ECC/DEC/(05)02 [i.10]; • the EC SRD Decision [i.8]; or • CEPT/ERC/REC 70-03 [i.6], annex 10 (see http://www.erodocdb.dk/); • EC Decision 2014/641/EU [i.11]. Unless otherwise stated in the EC SRD Decision, ECC Decision or National Interfaces, Radio Microphones can be subject to individual licence. Table 1: Radiocommunications service frequency bands Radiocommunications service frequency bands Transmit up to 3 000 MHz Receive up to 3 000 MHz

EVS-EN 300 220-3-2 V1.1.1:2017
Hind 10,90 EUR
Identne EN 300 220-3-2 V1.1.1
Raadiosagedusvahemikus 25 MHz kuni 1000 MHz kasutamiseks mõeldud lähitoimeseadmed (SRD); Osa 3-2: Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Juhtmevabad häireseadmed LDC/HR sagedustel 868,60 MHz to 868,70 MHz, 869,25 MHz to 869,40 MHz, 869,65 MHz to 869,70 MHz
The present document specifies technical characteristics and methods of measurements for LDC/HR wireless alarm equipment types: • LDC/HR category is defined by the EU Commission Decision 2013/752/EU [i.2] as: "The low duty cycle/high reliability device category covers radio devices that rely on low overall spectrum utilisation and low duty cycle spectrum access rules to ensure highly reliable spectrum access and transmissions in shared bands. Typical uses include alarm systems that use radio". The present document covers equipment intended for fixed, mobile or nomadic use, e.g.: • stand-alone radio equipment; • plug-in radio devices intended for use with or within a variety of host systems; • plug-in radio devices intended for use within combined equipment. These radio equipment types are capable of operating in the LDC/HR designated frequency bands given in table 1. Table 1: Wireless alarm LDC/HR designated frequency bands Frequency band Transmit and Receive 868,600 to 868,700 MHz Transmit and Receive 869,250 to 869,400 MHz Transmit and Receive 869,650 to 869,700 MHz The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.1] under the conditions identified in annex A.

EVS-EN 300 422-3 V2.1.1:2017
Hind 19,05 EUR
Identne EN 300 422-3 V2.1.1
Raadiomikrofonid; Audio PMSE kuni 3 GHz; Osa 3: Klass C vastuvõtjad; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies the technical characteristics and methods of measurement for the following types of equipment: 1) Assistive Listening Devices; 2) Radio Microphones; 3) In-ear Monitoring Systems; 4) WMAS (Wireless Multichannel Audio Systems; 5) Tour Guide Systems; with Class C receivers which have significantly reduced performance requirements with respect to sensitivity, adjacent channel selectivity, and receiver blocking compared to those with Class A receivers. It does not necessarily include all the characteristics that may be required by a user, nor does it necessarily represent the optimum performance achievable. Equipment with Class C receivers will support the operation of fewer wireless audio channels in a given amount of spectrum than Class A or Class B receivers. The present document applies to equipment operating on radio frequencies up to 3 GHz (as shown in table 1) using analogue, digital and hybrid (using both analogue and digital) modulation. The maximum power recommended for equipment covered by this multi-part deliverable is 250 mW for radio microphones and 10 mW for ALDs. An exception to this are the Public Hearing Aids defined in the CEPT Report 004 [i.7] and subsequent EC Decision 2005/928/EC [i.9] and EC Decision 2006/771/EC [i.8] on the ex ERMES band (169,4 MHz to 169,8125 MHz) where 500 mW is defined. The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU under the conditions identified in annex A. The present document also covers radio microphones used in the 863 MHz to 865 MHz band, with a maximum power of 10 mW. Electromagnetic Compatibility (EMC) requirements are covered by ETSI EN 301 489-9 [i.4]. National regulations on: 1) maximum power output; 2) licensing status; will take precedence or those detailed in the latest version of: • EC Decision 2005/928/EC [i.9]; • ECC/DEC/(05)02 [i.10]; • the EC SRD Decision [i.8]; or • CEPT/ERC/REC 70-03 [i.6], annex 10 (see http://www.erodocdb.dk/); • EC Decision 2014/641/EU [i.11]. Unless otherwise stated in the EC SRD Decision, ECC Decision or National Interfaces, Radio Microphones can be subject to individual licence. Table 1: Radiocommunications service frequency bands Radiocommunications service frequency bands Transmit up to 3 000 MHz Receive up to 3 000 MHz

EVS-EN 301 091-3 V1.1.1:2017
Hind 11,67 EUR
Identne EN 301 091-3 V1.1.1
Lähitoimeseadmed; Transpordi ja liikluse telemaatika (TTT); Raadiosagedusvahemikus 76 GHz kuni 77 GHz töötavad radarseadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 3: Raudtee/maantee ülesõidukoha takistuse tuvastussüsteemi rakendused
The present document specifies technical characteristics and methods of measurements for the following types of equipment: • radar equipment for obstacle detection applications in the frequency range from 76 GHz to 77 GHz at the road crossing of a railway track and references CEPT/ECC ERC Recommendation 70-03 [i.1] Annex 4; • Short Range Devices (SRD) intended for the use at road crossing of a railway track. It covers integrated transceivers and separate transmit/receive modules. The present document does not necessarily include all the characteristics which may be required by a user, nor does it necessarily represent the optimum performance achievable. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 303 396 [1], the provisions of the present document take precedence. These radio equipment types are capable of operating in all or part of the frequency bands given in table 1. Table 1: Permitted range of operation [i.1] Permitted range of operation Transmit 76 GHz to 77 GHz Receive 76 GHz to 77 GHz The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.2] under the conditions identified in annex A.

EVS-EN 302 194 V2.1.1:2017
Hind 18,00 EUR
Identne EN 302 194 V2.1.1
Siseveekogudel kasutatavad navigatsiooni radarid; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies technical characteristics and methods of measurements for equipment: 1) X band Radar and its associated primary navigational display intended for the navigation of vessels on inland waterways subject to the requirements of the Central Commission for the Navigation on the Rhine (CCNR) and the Danube Commission (DC). The present document contains the minimum technical, operational and functional requirements, describes the tests and the conditions under which the tests take place in order to establish that the equipment meets these minimum requirements. Additional facilities, which may be provided on this equipment, e.g. Inland ECDIS functions, automatic steering functions or additional interfaces, are not covered by the present document, and other appropriate standards may apply. The installation of radar equipment intended for the navigation on inland waterways is subject to additional conditions which are described in annex E. These radio equipment types are capable of operating in all or any part of the frequency bands given in table 1. Table 1: Radio navigation service frequencies Radio navigation service frequencies Transmit 9 300 MHz to 9 500 MHz Receive 9 300 MHz to 9 500 MHz The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.1] under the conditions identified in annex A.

EVS-EN 302 571 V2.1.1:2017
Hind 17,08 EUR
Identne EN 302 571 V2.1.1
Intelligentsed transpordisüsteemid (ITS); Sagedusvahemikus 5855 MHz kuni 5925 MHz töötavad raadioseadmed; Harmoneeritud EN direktiivi 2014/53/EU artikli 3.2 oluliste nõuete alusel
The present document specifies technical characteristics and methods of measurement for radio transmitters and receivers operating in the frequency range 5 855 MHz to 5 925 MHz. The spectrum usage conditions are set out in ECC Decision (08)01 [i.1] for the frequency range 5 875 MHz to 5 925 MHz (with 5 905 MHz to 5 925 MHz considered as a future ITS extension) and in ECC Recommendation (08)01 [i.2] for the frequency range 5 855 MHz to 5 875 MHz. The Commission Decision 2008/671/EC [i.3] mandates a harmonised use of the frequency band 5 875 MHz to 5 905 MHz dedicated to safety-related applications of ITS throughout the member states of the European Union. Table 1 outlines the 5 GHz ITS frequency band segmentation. Table 1: 5 GHz ITS frequency band segmentation Frequency range Usage Regulation 5 855 MHz to 5 875 MHz ITS non-safety applications ECC Recommendation (08)01 [i.2] 5 875 MHz to 5 905 MHz ITS road safety Commission Decision 2008/671/EC [i.3], ECC Decision (08)01 [i.1] 5 905 MHz to 5 925 MHz Future ITS applications ECC Decision (08)01 [i.1] The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.4] under the conditions identified in annex A. Interference mitigation techniques

EVS-EN 303 360 V1.1.1:2017
Hind 12,51 EUR
Identne EN 303 360 V1.1.1
Lähitoimeseadmed; Transpordi ja liikluse telemaatika (TTT); Raadiosagedusvahemikus 76 GHz kuni 77 GHz töötavad radarseadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Mehitatud tiivikõhusõiduki takistuse tuvastusradarid
The present document specifies technical characteristics and methods of measurements for the following type of equipment: • Radar equipment for obstacle detection for rotorcraft use fitted with integral antennas operating in the frequency range from 76 GHz to 77 GHz and references CEPT/ERC/ECC Recommendation 70-03 [i.1], Annex 5 and Commission Decision 2006/771/EC [i.2] as amended. NOTE 1: The use of the radar equipment is limited to manned rotorcraft for which certification specifications CS-27 [i.9] for small rotorcraft or CS-29 [i.10] for large rotorcraft apply (since pilots need to verify visually the information directly by themselves). • Short Range Devices (SRD) intended for the use on board rotorcrafts with the application to detect obstacles. NOTE 2: The intention of the application is to detect obstacles to increase safety for aircrew, passengers and persons on ground by reducing risk of collision with obstacles. It is not considered as a safety of life application. NOTE 3: Protection to the Radio Astronomy Service as detailed in Annex B is applicable for obstacle detection radars for rotorcraft use as described in the present document. It covers integrated transceivers. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 303 396 [1], the provisions of the present document take precedence. The present document does not necessarily include all the characteristics which may be required by a user, nor does it necessarily represent the optimum performance achievable. These radio equipment types are capable of operating in all or part of the frequency bands given in table 1. Table 1: Permitted range of operation (Commission Decision 2006/771/EC [i.2]) Permitted range of operation Transmit 76 GHz to 77 GHz Receive 76 GHz to 77 GHz The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.3] under the conditions identified in Annex A.

EVS-EN 303 406 V1.1.1:2017
Hind 13,92 EUR
Identne EN 303 406 V1.1.1
Lähitoimeseadmed (SRD); Raadiosagedusvahemikus 25 MHz kuni 1000 MHz töötavad sotsiaalalarmseadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel.
The present document specifies technical characteristics and methods of measurements for social alarm systems operating on a range of frequencies that may be shared with other equipment types. Social alarms are defined in Commission Decision 2013/752/EU [i.3] as: "Social alarm devices" are radio communications systems that allow reliable communication for a person in distress in a confined area to initiate a call for assistance. Typical uses of social alarm are to assist elderly or disabled people. These radio equipment types are capable of operating, for transmission or reception, in all or part of the frequency bands given in table 1. Table 1: Frequency bands and usage information Frequency band Usage information 169,400 MHz to 169,8125 MHz This band is shared with other SRD equipment 868,600 MHz to 868,700 MHz This band is shared with other SRD alarm equipment 869,250 MHz to 869,400 MHz This band is shared with other SRD alarm equipment 869,650 MHz to 869,700 MHz This band is shared with other SRD alarm equipment 863,000 MHz to 870,000 MHz This band is shared with other SRD equipment, except as noted above 870,000 MHz to 876,000 MHz This band is shared with other SRD equipment 915,000 MHz to 921,000 MHz This band is shared with other SRD equipment NOTE 1: The probability of interference may be different when operating in bands shared with other short range devices compared to bands from which other short range devices are excluded. NOTE 2: Social alarms operating in a designated band are covered in ETSI EN 300 220-3-1 [i.5]. The present document covers the essential requirements of article 3.2 of Directive 2014/53/EU [i.2] under the conditions identified in annex A.

Asendatud või tühistatud standardid


EVS-EN 61291-5-2:2003
Identne IEC 61291-5-2:2002; EN 61291-5-2:2002
Optical amplifiers - Part 5-2: Qualification specifications - Reliability qualification for optical fibre amplifiers
Applicable to optical amplifiers (OAs) and optically amplified, elementary sub-systems for terrestrial applications, using active fibres (optical fibre amplifiers, OFAs), containing rare-earth dopants, which are commercially available
Keel: Inglise

EVS-EN 41003:2009
Identne EN 41003:2008
Erinõuded telekommunikatsioonivõrku ja/või kaabeljaotussüsteemi ühendatavate seadmete ohutusele
This European Standard applies to equipment designed and intended to be connected as a terminal to a TELECOMMUNICATION NETWORK and/or a CABLE DISTRIBUTION SYSTEM termination. It does not apply to equipment covered by EN 60950-1 and EN 60065. This European Standard specifies the safety requirements of the interface to the TELECOMMUNICATION NETWORK and/or the CABLE DISTRIBUTION SYSTEM only and it does not specify any other safety requirements. It applies regardless of ownership or responsibility for installation or maintenance of the equipment, and regardless of the source of power.
Keel: Inglise
Asendatud EVS-EN 62949:2017

EVS-EN 62325-451-1:2014
Identne IEC 62325-451-1:2013; EN 62325-451-1:2013
Framework for energy market communications -- Part 451-1: Acknowledgement business process and contextual model for CIM European market
IEC 62351-451-1:2013 specifies a UML package for the acknowledgment business process and its associated document contextual model, assembly model and XML schema for use within the European style electricity markets, on the basis of the European style market contextual model (IEC 62325-351). The relevant aggregate core components (ACCs) defined in IEC 62325-351 have been contextualised into aggregated business information entities (ABIEs) to satisfy the requirements of the European style market acknowledgment business process. The contextualised ABIEs have been assembled into the acknowledgment document contextual model.
Keel: Inglise

Kavandite arvamusküsitlus


FprEN 50364:2017
Tähtaeg 16.08.2017
Product standard for human exposure to electromagnetic fields from devices operating in the frequency range 0 Hz to 300 GHz, used in Electronic Article Surveillance (EAS), Radio Frequency Identification (RFID) and similar applications
This product standard applies to devices operating within the frequency range 0 Hz to 300 GHz, used in electronic article surveillance (EAS), radio frequency identification (RFID) and similar applications, in relation to exposure to electromagnetic fields The object of this generic standard is to provide a route for evaluation of such equipment against limits on human exposure to electric, magnetic and electromagnetic fields, and induced and contact current. NOTE Other standards can apply to products covered by this document. In particular this document is not designed to evaluate the electromagnetic compatibility with other equipment; nor does it reflect any product safety requirements other than those specifically related to human exposure to electromagnetic fields.
Keel: Inglise

EN 55016-2-3:2017/prA1:2017
Identne CISPR 16-2-3:2016/A1:201X; EN 55016-2-3:2017/prA1:2017
Tähtaeg 16.08.2017
Specification for radio disturbance and immunity measuring apparatus and methods - Part 2-3: Methods of measurement of disturbances and immunity - Radiated disturbance measurements
No scope available
Keel: Inglise

prEN 62343-5-2:2017
Identne IEC 62343-5-2:201X; prEN 62343-5-2:2017
Tähtaeg 16.08.2017
Dynamic modules - Part 5-2: Test methods - 1xN fixed-grid WSS - Dynamic crosstalk measurement
This part of the 62343 series describes the measurement methods of dynamic crosstalk during port switching for 1xN fixed-grid wavelength selective switches (WSSs). The objective of this part of IEC 62343 is to establish a standard test method for different channel dynamic crosstalk and same-channel dynamic crosstalk that occur when a particular optical channel signal is switched to the specific branching port against a common port in ITU-T 50 GHz and 100 GHz fixed grid 1xN (N≥3) WSSs.
Keel: Inglise

prEN 62087-7:2017
Identne IEC 62087-7:201X; prEN 62087-7:2017
Tähtaeg 16.08.2017
Audio, video and related equipment - Methods of measurement for power consumption - Part 7: Computer Monitors
This Part of IEC 62087 specifies the determination of the power consumption of computer monitors including, but is not limited to, those with CRT, LCD, PDP or OLED technologies. Computer monitors that include touch screen functionality are included in the scope of this document. This standard is limited to computer monitors that bepowered from a main power source other than a battery. Computer monitors that are powered from a battery source are not covered by this standard. However mains-powered computer monitors may include any number of auxiliary batteries. Computer monitors could be connected with video signal cables like DVD and HDMI cables 86 without network and wireless connection are considered in this standard. A computer monitor is a display device that does not include a TV tuner and is intended to be used to display the video signals from a computer. These video signals are produced from software programs that are operating within the computer and can consist of static and moving images. As such test procedures using static patterns, dynamic video and Web based video are specified. The test methods specified in this standard can be applied to computer monitors of any size, however, this standard is not applicable to specialized monitors associated with medical equipment, publishing and other professional, commercial or industrial uses. The various modes of operation which are relevant for measuring power consumption are also defined. The measuring conditions in this standard represent the normal use of the equipment and may differ from specific conditions, for example as specified in safety standards.
Keel: Inglise