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Uued standardid


EVS-EN 60966-2-5:2017
Hind 6,47 EUR
Identne IEC 60966-2-5:2016; EN 60966-2-5:2017
Radio frequency and coaxial cable assemblies - Part 2-5: Detail specification for cable assemblies for radio and TV receivers - Frequency range 0 MHz to 1 000 MHz, IEC 61169-2 connectors
IEC 60966-2-5:2016 is a detail specification which applies to flexible coaxial cables described in the IEC 61196 series. It relates to cable assemblies for radio and TV receivers, and in particular to the cable assemblies subfamily 9,52 (see IEC 61169-2). These cable assemblies are used as described in IEC 60728-4. This part of IEC 60966 gives subfamily requirements and severities which shall be applied. This edition includes the following significant technical changes with respect to the previous edition: a) the return loss requirements and insertion loss requirements are matched to the relevant cables, b) screening effectiveness shall be measured according to IEC 62153-4-7, triaxial method, c) screening class B was cancelled. This publication is to be read in conjunction with IEC 60966-1:1999, IEC 60966-2-1:2008 and IEC 60966-2-2:2003

EVS-EN 60966-2-6:2017
Hind 6,47 EUR
Identne IEC 60966-2-6:2016; EN 60966-2-6:2017
Radio frequency and coaxial cable assemblies - Part 2-6: Detail specification for cable assemblies for radio and TV receivers - Frequency range 0 MHz to 3 000 MHz, IEC 61169-24 connectors
IEC 60966-2-6:2016 is a detail specification which applies to coaxial cables described in the IEC 61196 series. It relates to cable assemblies for radio and TV receivers, and in particular to the cable assemblies subfamily F (see IEC 61169-24). These cable assemblies are used as described in IEC 60728-4. This part of IEC 60966 gives subfamily requirements and severities which shall be applied. This edition includes the following significant technical changes with respect to the previous edition: a) the return loss requirements and the insertion loss requirements are matched to the relevant cables, b) screening effectiveness shall be measured according to IEC 62153-4-7, triaxial method, c) screening class A+ was introduced. This publication is to be read in conjunction with IEC 60966-1:1999, IEC 60966-2-1:2008 and IEC 60966-2-2:2003

EVS-EN 55025:2017
Hind 26,50 EUR
Identne CISPR 25:2016; EN 55025:2017
Vehicles, boats and internal combustion engines - Radio disturbance characteristics - Limits and methods of measurement for the protection of on-board receivers
This International Standard contains limits and procedures for the measurement of radio disturbances in the frequency range of 150 kHz to 2 500 MHz. The standard applies to any electronic/electrical component intended for use in vehicles, trailers and devices. Refer to International Telecommunications Union (ITU) publications for details of frequency allocations. The limits are intended to provide protection for receivers installed in a vehicle from disturbances produced by components/modules in the same vehicle. The method and limits for a complete vehicle (whether connected to the power mains for charging purposes or not) are in Clause 5 and the methods and limits for components/modules are in Clause 6. Only a complete vehicle test can be used to determine the component compatibility with respect to a vehicle’s limit.

EVS-EN 61643-351:2017
Hind 12,51 EUR
Identne IEC 61643-351:2016; EN 61643-351:2017
Components for low-voltage surge protective devices - Part 351: Performance requirements and test methods for telecommunications and signalling network surge isolation transformers (SIT)
IEC 61643-351:2016 defines test circuits and test methods for determining and verifying the SIT surge parameters. Preferred performance values for key parameters are given. Surge isolation transformers (SITs) are used for signal transformer applications with signal levels up to 400 V peak to peak. SITs are transformers, with or without an internal-winding screen, with a rated impulse withstand voltage greater than the peak voltage of the expected common-mode surge environment. SITs are applicable to components for surge protection against indirect and direct effects of lightning or other transient overvoltage. SITs are used to mitigate the onward propagation of common-mode voltage surges. This part of IEC 61643 does not cover SIT operation under differential-mode lightning surge conditions. Keywords: Surge isolation transformers (SITs)

EVS-EN 61000-4-31:2017
Hind 16,10 EUR
Identne EN 61000-4-31:2017; IEC 61000-4-31:2016
Electromagnetic Compatibility (EMC) - Part 4-31: Testing and measurement techniques - AC mains ports broadband conducted disturbance immunity test
This part of IEC 61000 relates to the conducted immunity of electrical and electronic equipment to electromagnetic disturbances coming from intended and/or unintended broadband signal sources having frequency contributions in the frequency range 150 kHz up to 80 MHz. The object of this standard is to establish a common reference to evaluate the immunity of electrical and electronic equipment when subjected to conducted disturbances caused by intended and/or unintended broadband signal sources (such as power line telecommunication systems) on AC mains ports. The test method documented in this part of IEC 61000 describes a consistent method to assess the immunity of an equipment or system against a defined phenomenon.

EVS-EN 62351-11:2017
Hind 15,40 EUR
Identne IEC 62351-11:2016; EN 62351-11:2017
Power systems management and associated information exchange – Data and communications security - Part 11: Security for XML documents
IEC 62351-11:2016 specifies schema, procedures, and algorithms for securing XML documents that are used within the scope of the IEC as well as documents in other domains. This part is intended to be referenced by standards if secure exchanges are required, unless there is an agreement between parties in order to use other recognized secure exchange mechanisms. This part of IEC 62351 utilizes well-known W3C standards for XML document security and provides profiling of these standards and additional extensions.

EVS-EN 61757-1-1:2017
Hind 17,08 EUR
Identne IEC 61757-1-1:2016; EN 61757-1-1:2017
Fibre optic sensors - Part 1-1: Strain measurement - Strain sensors based on fibre Bragg gratings
IEC 61757-1-1:2016(E) defines detail specifications for fibre optic sensors using one or more fibre Bragg gratings (FBG) as the sensitive element for strain measurements. Generic specifications for fibre optic sensors are defined in IEC 61757-1:2012. This standard specifies the most important features and characteristics of a fibre optic sensor for strain measurements based on use of an FBG as the sensitive element, and defines the procedures for their determination. Furthermore, it specifies basic performance parameters and characteristics of the corresponding measuring instrument to read out the optical signal from the FBG. This standard refers to the measurement of static and dynamic strain values in a range of frequencies. A blank detail specification is provided in Annex B. Keywords: Bragg gratings (FBG), strain measurement of fibre optic sensors This publication is to be read in conjunction with IEC 61757-1:2012.

EVS-EN 50332-3:2017
Hind 8,72 EUR
Identne EN 50332-3:2017
Helisüsteemide seadmed: personaalsete muusikamängijate kõrvaklapid ja kuularid. Maksimaalse helirõhutaseme mõõtmismetoodika. Osa 3: Heli doosi juhtimise mõõtmismetoodika
This part 3 of EN 50332 specifies sound dose measurement, and the alerts associated, to reduce the risk of listeners developing hearing impairment when using a Personal Music Player (PMP). The standard does not cover exposure from other sources than PMPs.

IEC 61291-5-2:2017
Hind 65,35 EUR
Optical amplifiers - Part 5-2: Qualification specifications - Reliability qualification for optical fibre amplifiers
IEC 61291-5-2:2017(E) 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) b).
Asendab IEC 61291-5-2:2002

IEC 60793-1-1:2017 RLV
Hind 84,96 EUR
Optical fibres - Part 1-1: Measurement methods and test procedures - General and guidance
IEC 60793-1-1:2017 RLV contains the International Standard and its Redline version. The Redline version is available in English only. The Redline version provides you with a quick and easy way to compare all the changes between this standard and its previous edition. The Redline version is not an official IEC Standard, only the current version of the standard is to be considered the official document. IEC 60793-1-1:2017 lists and gives guidance on the use of documents giving the uniform requirements for measuring and testing optical fibres, thereby assisting in the inspection of fibres and cables for commercial (mostly telecommunications) purposes. The individual measurement and test methods are contained in the different parts of the IEC 60793 series. They are identified as IEC 60793-1-X, where "X" is an assigned sub-part number, indicating its affiliation to the IEC 60793-1 series. In general, measurements and tests methods apply to all class A multimode fibres and class B and class C single-mode optical fibres covered by IEC 60793-2 (all parts) relating to product specifications, although there can be exceptions. Clause 1 of each part of the IEC 60793 series contains the scope for each particular attribute. This fourth edition cancels and replaces the third edition published in 2008. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: addition of rounding rules; addition of two packaging requirements.

IEC 60096-0-1:2012+AMD1:2017 CSV
Hind 186,72 EUR
Radio frequency cables - Part 1- 0: Guide to the design of detail specifications - Coaxial cables
IEC 60096-0-1:2012+A1:2017 provides guidance for the design of radio frequency coaxial cables with braid, metallic tapes or tubular outer conductors. This third edition cancels and replaces the second edition published in 1990. It constitutes a technical revision. The significant changes with respect to the previous edition are as follows: - tables of material constants and factors and have been updated, different equations have been updated and corrected; - a subclause dealing with the calculation of "Current carrying capacity of coaxial cables has been added as Subclause 7.7. This consolidated version consists of the third edition (2012) and its amendment 1 (2017). Therefore, no need to order amendment in addition to this publication.

IEC 62325-451-1:2017
Hind 224,07 EUR
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.
Asendab IEC 62325-451-1:2013

IEC 60793-1-1:2017
Hind 65,35 EUR
Optical fibres - Part 1-1: Measurement methods and test procedures - General and guidance
IEC 60793-1-1:2017 lists and gives guidance on the use of documents giving the uniform requirements for measuring and testing optical fibres, thereby assisting in the inspection of fibres and cables for commercial (mostly telecommunications) purposes. The individual measurement and test methods are contained in the different parts of the IEC 60793 series. They are identified as IEC 60793-1-X, where "X" is an assigned sub-part number, indicating its affiliation to the IEC 60793-1 series. In general, measurements and tests methods apply to all class A multimode fibres and class B and class C single-mode optical fibres covered by IEC 60793-2 (all parts) relating to product specifications, although there can be exceptions. Clause 1 of each part of the IEC 60793 series contains the scope for each particular attribute. This fourth edition cancels and replaces the third edition published in 2008. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: addition of rounding rules; addition of two packaging requirements
Asendab IEC 60793-1-1:2008

IEC 60096-0-1:2012/AMD1:2017
Hind 9,34 EUR
Amendment 1 - Radio frequency cables - Part 1- 0: Guide to the design of detail specifications - Coaxial cables


IEC 62433-2:2017
Hind 298,76 EUR
EMC IC modelling - Part 2: Models of integrated circuits for EMI behavioural simulation - Conducted emissions modelling (ICEM-CE)
IEC 62433-2:2017 specifies macro-models for an Integrated Circuit (IC) to simulate conducted electromagnetic emissions on a printed circuit board. The model is commonly called Integrated Circuit Emission Model - Conducted Emission (ICEM-CE). The ICEM-CE macro-model can also be used for modelling an IC-die, a functional block and an Intellectual Property (IP) block. The ICEM-CE macro-model can be used to model both digital and analogue ICs. This edition includes the following significant technical changes with respect to the previous edition: Incorporation of an XML based exchange format for model representation.
Asendab IEC 62433-2:2008

IEC 62433-3:2017
Hind 298,76 EUR
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.

IEC TR 62343-6-4:2017
Hind 158,72 EUR
Dynamic modules - Part 6-4: Design guides - Reconfigurable optical add/drop multiplexer
IEC TR 62343-6-4:2017(E) which is a Technical Report on reconfigurable optical add/drop multiplexers (ROADMs), provides a description of the ROADMs in dynamic optical networks and related optical component and module technologies, including wavelength selective switches (WSSs).

IEC 60793-1-60:2017
Hind 93,36 EUR
Optical fibres - Part 1-60: Measurement methods and test procedures - Beat length
IEC 60793-1-60: 2017 defines test methods for both the phase beat length, and the group beat length. These two parameters are defined differently, and will give different results depending on the type of polarization-maintaining (PM) fibre. The phase beat length is the relevant parameter for the fibres ability to maintain a high extinction ratio. This is described in more details in Annexes A and B.

IEC 60793-2-70:2017
Hind 93,36 EUR
Optical fibres - Part 2-70: Product specifications - Sectional specification for polarization-maintaining fibres
This part of IEC 60793 is applicable to optical fibre types D1, D2, D3, as described in Table 1. These fibres are polarization-maintaining fibre types, and are used or can be incorporated in information transmission equipment and optical fibre cable. These fibres are available for use in optical transport networks. Three types of requirements apply to these fibres: - general requirements defined in IEC 60793-2; - specific requirements common to the category D polarization-maintaining fibres covered in this document and which are given in Clause 4; - particular requirements applicable to individual fibre types or specific applications, which are defined in Annexes A to C.

IEC 60793-1-61:2017
Hind 37,34 EUR
Optical fibres - Part 1-61: Measurement methods and test procedures - Polarization crosstalk
IEC 60793-1-61: 2017 establishes uniform requirements for measuring the polarization crosstalk of polarization-maintaining (PM) fibres. This document gives two methods for measuring the polarization crosstalk of PM fibres. Method A is the power ratio method, which uses the maximum and minimum values of output power at a specified wavelength, and Method B is the in-line method, which uses an analysis of the Poincaré sphere. Details of each method are described in Clause 6. Crosstalk values obtained by Methods A and B are based on different definitions. The crosstalk measured by Method A is defined as an "averaged" value over a measured wavelength range. In contrast, the crosstalk value obtained from Method B shows the "worst case" crosstalk value.

IEC 61800-3:2017 RLV
Hind 400,52 EUR
Adjustable speed electrical power drive systems - Part 3: EMC requirements and specific test methods
IEC 61800-3:2017 RLV contains the International Standard and its Redline version. The Redline version is available in English only. The Redline version provides you with a quick and easy way to compare all the changes between this standard and its previous edition. The Redline version is not an official IEC Standard, only the current version of the standard is to be considered the official document. IEC 61800-3:2017 specifies electromagnetic compatibility (EMC) requirements for power drive systems (PDSs, defined in 3.1). These are adjustable speed AC or DC motor drives. Requirements are stated for PDSs with converter input and/or output voltages (line-to-line voltage), up to 35 kV AC RMS. This third edition cancels and replaces the second edition published in 2004 and Amendment 1:2011. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) clarification of requirements for the test report, particularly when a number of alternative test methods exist; b) introduction of a more detailed test setup for radiated emission measurements, along with the introduction of a 3 m measurement distance for small size equipment; c) general updates in the informative annexes.

IEC 61800-3:2017
Hind 308,09 EUR
Adjustable speed electrical power drive systems - Part 3: EMC requirements and specific test methods
IEC 61800-3:2017 specifies electromagnetic compatibility (EMC) requirements for power drive systems (PDSs, defined in 3.1). These are adjustable speed AC or DC motor drives. Requirements are stated for PDSs with converter input and/or output voltages (line-to-line voltage), up to 35 kV AC RMS. This third edition cancels and replaces the second edition published in 2004 and Amendment 1:2011. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) clarification of requirements for the test report, particularly when a number of alternative test methods exist; b) introduction of a more detailed test setup for radiated emission measurements, along with the introduction of a 3 m measurement distance for small size equipment; c) general updates in the informative annexes.
Asendab IEC 61800-3:2004; IEC 61800-3/Amd 1:2011; IEC 61800-3:2012

EVS-EN 60153-1:2016/AC:2017
Hind 0,00 EUR
Identne EN 60153-1:2016/AC:2017-02
Hollow metallic waveguides - Part 1: General requirements and measuring methods
Corrigendum for EVS-EN 60153-1:2016

EVS-EN 60153-2:2016/AC:2017
Hind 0,00 EUR
Identne EN 60153-2:2016/AC:2017-02
Hollow metallic waveguides - Part 2: Relevant specifications for ordinary rectangular waveguides
Corrigendum for EN 60153-2:2016

Asendatud või tühistatud standardid


EVS-EN 61000-4-10:2002
Identne IEC 61000-4-10:1993+A1:2000; EN 61000-4-10:1993+A1:2001
Electromagnetic compatibility (EMC) - Part 4: Testing and measurement techniques - Section 10: Damped oscillatory magnetic field immunity test - Basic EMC Publication
Relates to the immunity requirements of equipment, only under operational conditions, to damped oscillatory magnetic disturbances related to medium voltage and high voltage sub-stations.
Keel: Inglise

EVS-EN 55025:2008
Identne CISPR 25:2008; EN 55025:2008
Sõidukid, paadid ja sisepõlemismootorid. Raadiohäiringute tunnussuurused. Pardavastuvõtjate kaitse mõõtemeetodid ja -piirangud
This International Standard contains limits and procedures for the measurement of radio disturbances in the frequency range of 150 kHz to 2 500 MHz. The standard applies to any electronic/electrical component intended for use in vehicles, trailers and devices. Refer to International Telecommunications Union (ITU) publications for details of frequency allocations. The limits are intended to provide protection for receivers installed in a vehicle from disturbances produced by components/modules in the same vehicle. The method and limits for a complete vehicle are in Clause 5 and the methods and limits for components/modules are in Clause 6. Only a complete vehicle test can be used to determine the component compatibility with respect to a vehicle’s limit.
Keel: Inglise
Asendatud EVS-EN 55025:2017

EVS-EN 60966-2-5:2009
Identne IEC 60966-2-5:2009; EN 60966-2-5:2009
Radio frequency and coaxial cable assemblies -- Part 2-5: Detail specification for cable assemblies for radio and TV receivers - Frequency range 0 to 1 000 MHz, IEC 61169-2 connectors
This detail specification applies to flexible coaxial cables described in IEC 60096-2. It relates to cable assemblies for radio and TV receivers, and in particular to the cable assemblies subfamily 9,52. (IEC 61169-2). This detail specification gives subfamily requirements and severities which shall be applied.
Keel: Inglise

EVS-EN 60966-2-6:2009
Identne IEC 60966-2-6:2009; EN 60966-2-6:2008
Radio frequency and coaxial cable assemblies - Part 2-6: Detail specification for cable assemblies for radio and TV receivers - Frequency range 0 MHz to 3 000 MHz, IEC 61169-24 connectors
This detail specification applies to flexible coaxial cables described in IEC 60096-2. It relates to cable assemblies for radio and TV receivers, and in particular to the cable assemblies subfamily F (IEC 61169-24). This detail specification gives subfamily requirements and severities which shall be applied.
Keel: Inglise

Kavandite arvamusküsitlus


prEN 50377-18-1:2017
Tähtaeg 2.05.2017
Connector sets and interconnect components to be used in optical fibre communication systems - Product specifications - Part 18-1: type 4+4x10.3125 Gb/s MPO (QFSP) transceiver mated with an MPO connector equipped with 12 fibre PPS ferrules terminated on EN 60793-2-10 category A1a.3a or A1a.3b 50/125 micron multimode fibre
1.1 Product definition This European Standard contains the initial, start of life dimensional, optical, mechanical and environmental performance requirements (excluding electrical requirements) for a 12 fibre multimode PPS MPO plug terminated on EN 60793 2 10 category A1a.3a or A1a.3b fibre and a 4+4x10,3125 Gb/s MPO (QFSP) transceiver to meet in order to be categorized as an EN standard product. Since different variants are permitted, product marking details are given in 4.6. 1.2 Intermateability All products conforming to the requirements of this standard are meant to be intermate and give the specified level of random coupled and received power performance. The intention is that this will be true irrespective of the manufacturing source(s) of the product. 1.3 Operating environment The tests selected combined with the severity and duration are representative of a backplane/back panel indoor application derived from customer premises protected environment as defined in EN 50173 series and ISO/IEC 11801 and as specified in category C per EN 61753 1 typically described as a data centre environment. 1.4 Reliability Whilst the anticipated service life expectancy of the product in this environment is 10 years, compliance with this standard does not guarantee the reliability of the product. This should be predicted using a recognized reliability assessment programme. 1.5 Quality assurance Compliance with this standard does not guarantee the manufacturing consistency of the product. This should be maintained using a recognized quality assurance programme.
Keel: Inglise

prEN 61300-2-46:2017
Identne IEC 61300-2-46:201X; prEN 61300-2-46:2017
Tähtaeg 2.05.2017
Fibre optic interconnecting devices and passive components - Basic test and procedures - Part 2-46: Tests - Damp heat, cyclic
The purpose of this part of IEC 61300 is to describe a test to determine the suitability of a fibre optic device to withstand the environmental condition of high humidity and change of temperature which may occur in actual use, storage and/or transport. The test is primarily intended to determine the suitability of fibre optic components under conditions of high humidity - combined with cyclic temperature changes and, in general, producing condensation on the surface of the device under test (DUT). Absorption of moisture may result in swelling that would destroy functional utility, cause loss of physical strength, and cause changes in other important mechanical properties. Degradation of optical properties may also occur. Although not necessarily intended as a simulated tropical test, this test can, nevertheless, be useful in determining moisture absorption of insulating or covering materials.
Keel: Inglise

prEN 50377-14-1:2017
Tähtaeg 2.05.2017
Connector sets and interconnect components to be used in optical fibre communication systems - Product specifications - Part 14 1: Simplex and duplex cords made from simplex plugs with cylindrical ferrules, using EN 60793-2-50 singlemode B1 or B6 fibre for Category C according to EN 61753-1
1.1 Product definition This standard contains the initial, start of life dimensional, optical, mechanical and environmental performance requirements for an assembled singlemode cord with cylindrical ferruled connectors to meet in order for it to be categorized as an EN standard product. Since different variants and grades of performance are permitted, product marking details are given in 3.5 and Clause 4. 1.2 Intermateability of the plugs Although all products conforming to the requirements of this standard are meant to intermate, the resulting level of random attenuation performance will only be ensured in accordance with Table 1. The intention is that this will be true irrespective of the manufacturing source(s) of the product. When intermating plug variants having different attenuation grades as specified in EN 61755 1, the resulting level of attenuation cannot be ensured to be any better than the worst attenuation grade. The intermating of a grade C plug with a grade B plug will result in a grade C level of random attenuation performance. (...) 1.3 Operating environment The tests selected combined with the severities and durations are representative of an EN 61753 1 category C environment. 1.4 Reliability Whilst the anticipated service life expectancy of the product in this environment is 20 years, compliance with this standard does not guarantee the reliability of the product. This should be predicted using a recognized reliability assessment programme. 1.5 Quality assurance Compliance with this standard does not guarantee the manufacturing consistency of the product. This should be maintained using a recognized quality assurance programme.
Keel: Inglise

EN 300 392-7 V3.4.1
Tähtaeg 2.05.2017
Terrestrial Trunked Radio (TETRA); Voice plus Data (V+D); Part 7: Security
The present document defines the Terrestrial Trunked Radio system (TETRA) supporting Voice plus Data (V+D). It specifies the air interface, the inter-working between TETRA systems and to other systems via gateways, the terminal equipment interface on the mobile station, the connection of line stations to the infrastructure, the security aspects in TETRA networks, the management services offered to the operator, the performance objectives, and the supplementary services that come in addition to the basic and teleservices. The present part describes the security mechanisms in TETRA V+D. It provides mechanisms for confidentiality of control signalling and user speech and data at the air interface, authentication and key management mechanisms for the air interface and for the Inter-System Interface (ISI). Clause 4 describes the authentication and key management mechanisms for the TETRA air interface. The following two authentication services have been specified for the air-interface in ETSI ETR 086-3 [i.3], based on a threat analysis: • authentication of an MS by the TETRA infrastructure; • authentication of the TETRA infrastructure by an MS. Clause 5 describes the mechanisms and protocol for enable and disable of both the mobile station equipment and the mobile station user's subscription. Air interface encryption may be provided as an option in TETRA. Where employed, clause 6 describes the confidentiality mechanisms using encryption on the air interface, for circuit mode speech, circuit mode data, packet data and control information. Clause 6 describes both encryption mechanisms and mobility procedures. It also details the protocol concerning control of encryption at the air interface. The present document does not address the detail handling of protocol errors or any protocol mechanisms when TETRA is operating in a degraded mode. These issues are implementation specific and therefore fall outside the scope of the TETRA standardization effort. The detail description of the Authentication Centre is outside the scope of the present document.
Keel: Inglise

EN 300 401 V2.1.1
Tähtaeg 2.05.2017
Radio Broadcasting Systems; Digital Audio Broadcasting (DAB) to mobile, portable and fixed receivers
The present document establishes a broadcasting standard for the Digital Audio Broadcasting (DAB) system designed for delivery of high-quality digital audio and video programmes and data services for mobile, portable and fixed reception from terrestrial transmitters in the Very High Frequency (VHF) frequency bands as well as for distribution through cable networks. The DAB system is designed to provide spectrum and power efficient techniques in terrestrial transmitter network planning, known as the Single Frequency Network (SFN) and the gap-filling technique. The DAB system meets the required sharing criteria with other radiocommunication services. The present document defines the DAB transmission signal. It includes the coding algorithms for multiplexing of audio and video programmes and data services, channel coding and modulation. Provision is also made for transmission of additional data services which may be programme related or not, within the limit of the total system capacity. The present document provides information on the system configuration which includes information about the ensembles, services, service components and linking of them. The present document describes the nominal characteristics of the emitted DAB signal. The aspects related to the receiver design are outside the scope of the present document.
Keel: Inglise

EN 300 422-1 V2.1.2
Tähtaeg 2.05.2017
Raadiomikrofonid; Audio PMSE kuni 3 GHz; Osa 2: Klass A vastuvõtjad; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document covers the minimum characteristics considered necessary in order to make the best use of the available frequency spectrum for audio PMSE and ALDs. The present document specifies the minimum performance requirements and the methods of measurement of Assistive Listening Devices, radio microphones and in-ear monitoring systems. It does not necessarily include all the characteristics that may be required by a user, nor does it necessarily represent the optimum performance achievable. 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 the present document 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.8] and subsequent ECC [i.10] and EC Decisions [i.9] on the ex ERMES band (169,4 MHz to 169,8125 MHz) where 500 mW is defined. 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.10]; • ECC/DEC/(05)02 [i.11]; • the EC SRD Decision [i.9]; or • CEPT/ERC/REC 70-03 [i.7], annex 10 (see http://www.erodocdb.dk/); • EC Decision 2014/641/EU [i.13]. Unless otherwise stated in the EC SRD Decision, ECC Decision or National Interfaces, Radio Microphones can be subject to individual licence. The types of equipment covered by the present document are as follows: • in ear monitoring systems; • radio microphones; • WMAS (Wireless Multichannel Audio Systems); • tour guide systems. Table 1: Radiocommunications service frequency bands Radiocommunications service frequency bands Transmit up to 3 000 MHz Receive up to 3 000 MHz
Keel: Inglise

EN 300 720 V2.1.1
Tähtaeg 2.05.2017
Ultrakõrgsagedusel (UHF) töötavad pardasidesüsteemid ja seadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies the minimum technical characteristics required for UHF on board vessels radio equipment and systems operating on frequencies allocated to the maritime mobile services by the ITU Radio Regulations [i.1]. The present document contains requirements to demonstrate that "... Radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference" [i.3]. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53/EU [i.3] may apply to equipment within the scope of the present Document.
Keel: Inglise

EN 301 091-1 V2.1.1
Tähtaeg 2.05.2017
Lähitoimeseadmed; Transpordi ja liikluse telemaatika (TTT); Raadiosagedusvahemikus 76 GHz kuni 77 GHz töötavad radarseadmed; Harmoneeritud standard direktiivi 2014/53/EL artikli 3 lõike 2 põhinõuete alusel: Osa 1: Maapealne sõidukiradar
The present document specifies technical characteristics and methods of measurements for radar equipment for ground based vehicle applications in the frequency range from 76 GHz to 77 GHz. It covers integrated transceivers and separate transmit/receive modules. Also the present document specifies the requirements for Short Range Devices (SRD) intended for the use in ground based vehicles. Example applications are: Adaptive Cruise Control (ACC), Collision Warning, Anti-Collision (AC) systems, obstacle detection, Stop and Go, blind spot detection, parking aid, backup aid and other future applications. NOTE 1: The definition of "ground based vehicle" includes but is not limited to passenger cars, busses, trucks, rail engines, ships, aircraft while taxing. NOTE 2: High safety ratings (e.g. Euro NCAP) can only be obtained if such radar based safety applications are installed in a vehicle. NOTE 3: Euro NCAP organizes crash-tests and provides motoring consumers with a realistic and independent assessment of the safety performance of some of the most popular cars sold in Europe. Established in 1997, Euro NCAP is composed of seven European Governments as well as motoring and consumer organizations in every European country. The present document contains the technical characteristics and test methods for ground based vehicle radar equipment 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] and EC DEC 2013/752/EU [i.2]. 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.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.
Keel: Inglise

EN 301 091-2 V2.1.1
Tähtaeg 2.05.2017
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 2: Kohtkindla taristu radarseadmed
The present document specifies technical characteristics and methods of measurements for radar equipment for fixed infrastructure Transport and Traffic Telematic (TTT) applications in the frequency range from 76 GHz to 77 GHz. 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. 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. 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.
Keel: Inglise

EN 301 908-11 V11.1.2
Tähtaeg 2.05.2017
IMT kärgvõrgud; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 11: CDMA otsese hajutamisega (UTRA FDD) repiiterid
The present document applies to the following equipment types: 1) Repeaters for IMT-2000 CDMA Direct Spread (UTRA FDD) This radio equipment type is capable of operating in all or any part of the frequency bands given in table 1-1. Table 1-1: UTRA Repeater operating bands UTRA FDD Band // Direction of transmission // UTRA Repeater operating bands I Downlink 2 110 MHz to 2 170 MHz Uplink 1 920 MHz to 1 980 MHz III Downlink 1 805 MHz to 1 880 MHz Uplink 1 710 MHz to 1 785 MHz VII Downlink 2 620 MHz to 2 690 MHz Uplink 2 500 MHz to 2 570 MHz VIII Downlink 925 MHz to 960 MHz Uplink 880 MHz to 915 MHz XV Downlink 2 600 MHz to 2 620 MHz Uplink 1 900 MHz to 1 920 MHz XVI Downlink 2 585 MHz to 2 600 MHz Uplink 2 010 MHz to 2 025 MHz XX Downlink 791 MHz to 821 MHz Uplink 832 MHz to 862 MHz XXII Downlink 3 510 MHz to 3 590 MHz Uplink 3 410 MHz to 3 490 MHz XXXII (note 1) (note 2) Downlink 1 452 MHz to 1 496 MHz Uplink N/A NOTE 1: The down link frequency(ies) of this band are paired with the uplink frequency(ies) of the other FDD band (external) of the dual band configuration. NOTE 2: Radio equipment in band XXXII is only allowed to operate between 1 452 MHz and 1 492 MHz. The present document covers requirements for UTRA FDD Repeater for Releases 4, 5, 6, 7, 8, 9, 10 and 11. This includes the requirements for Repeater operating bands from 3GPP Release 12. In addition, the present document covers requirements for UTRA Repeater in the operating bands specified in ETSI TS 102 735 [i.9]. The present document contains requirements to demonstrate that Radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference.
Keel: Inglise

EN 301 908-15 V11.1.2
Tähtaeg 2.05.2017
IMT kärgvõrgud; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 15: E-UTRA FDD repiiterid
The present document applies to the following equipment types: 1) Repeaters for Evolved Universal Terrestrial Radio Access (E-UTRA) (FDD). This radio equipment type is capable of operating in all or any part of the frequency bands given in table 1-1. Table 1-1: E-UTRA Repeater operating bands E-UTRA FDD band Direction of transmission E-UTRA Repeater operating bands 1 Downlink 2 110 MHz to 2 170 MHz Uplink 1 920 MHz to 1 980 MHz 3 Downlink 1 805 MHz to 1 880 MHz Uplink 1 710 MHz to 1 785 MHz 7 Downlink 2 620 MHz to 2 690 MHz Uplink 2 500 MHz to 2 570 MHz 8 Downlink 925 MHz to 960 MHz Uplink 880 MHz to 915 MHz 20 Downlink 791 MHz to 821 MHz Uplink 832 MHz to 862 MHz 22 Downlink 3 510 MHz to 3 590 MHz Uplink 3 410 MHz to 3 490 MHz 28 Downlink 758 MHz to 803 MHz Uplink 703 MHz to 748 MHz 32 (note 1) (note 2) Downlink 1 452 MHz to 1 496 MHz Uplink N/A NOTE 1: Restricted to E-UTRA operation when carrier aggregation is configured. The downlink operating band is paired with the uplink operating band (external) of the carrier aggregation configuration that is supporting the configured Pcell. NOTE 2: Radio equipment in band XXXII is only allowed to operate between 1 452 MHz and 1 492 MHz. The present document covers requirements for E-UTRA Repeaters for Release 8, 9, 10 and 11. This includes the requirements for E UTRA Repeater operating bands and E-UTRA CA operating bands from 3GPP Release 12. The present document contains requirements to demonstrate that Radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference.
Keel: Inglise

EN 302 066 V2.1.1
Tähtaeg 2.05.2017
Lähitoimeseadmed (SRD); Pinnase ja seina sondeerimisradarite rakenduste (GPR/WPR) pilditehnika süsteemid; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies the requirements for Ground- and Wall- Probing Radar imaging systems applications. Ground Probing Radars (GPR) and Wall Probing Radars (WPR) are used in survey and detection applications. The scope is limited to GPR and WPR radars, in which the system is in close proximity to the materials being investigated. It does not include radars operated from aircraft or spacecraft. The GPR/WPR applications in the present document are not intended for communications purposes, and the intended signal is not radiated into free space. NOTE: Equipment covered by the present document is intended to be used by competent professional personnel. The present document applies to: 1) Ground Probing Radars (GPR) operating in the frequency range 30 MHz to 12,4 GHz radiating directly downwards into the ground. 2) Wall Probing Radars (WPR) operating in the frequency range 30 MHz to 12,4 GHz radiating directly into a "wall". The "wall" is a building material structure, the side of a bridge, the wall of a mine or another physical structure that absorbs a significant part of the signal transmitted by the radar. These equipment can either: 1) be fitted with integral antennas and without antenna connector; or 2) use different imaging heads (antennas) with an antenna connector, to allow operation at different operating bandwidths frequencies. Equipment covered by the present document operates in accordance with ECC/DEC(06)08 "ECC Decision of 1 December 2006 on the conditions for use of the radio spectrum by Ground- and Wall- Probing Radar (GPR/WPR) imaging systems" [i.2]. These radio equipment types are capable of operating in all or part of the frequency bands given in table 1. Table 1: Permitted ranges of operation Permitted range of operation Transmit 30 MHz to 12,4 GHz Receive 30 MHz to 12,4 GHz NOTE 1: Limits in table 2, clause 4.3.4 are to be met. NOTE 2: The frequency usage conditions for GPR/WPR are not fully harmonised in the EU and CEPT. Some National Regulatory Authorities (NRAs) may not have a general frequency allocation for GPR/WPT and may have established individual licensing requirements (e.g. registration of the user). Annex 2 of [i.2] gives some guidance to administrations.
Keel: Inglise

EN 302 510 V2.1.1
Tähtaeg 2.05.2017
Lähitoimeseadmed (SRD); Raadiosagedusalas 30 MHz kuni 37,5 MHz töötavad väga väikese võimsusega aktiivsed meditsiinilised membraanimplantaadid (ULP-AMI-M) ja nende välised lisatarvikud (ULP-AMI-M-P); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Ultra Low Power-Active Medical Membrane Implants and Membrane Implant Peripherals as described in Directive 90/385/EEC [i.4], covering all active medical implants, that operate in a Medical Implant Communications System in the frequency band 30 MHz to 37,5 MHz. Table 1: Ultra Low Power Active Medical Membrane Implants and Peripherals operating in the frequency band 30 MHz to 37,5 MHz Ultra Low Power Active Medical Membrane Implants and Peripherals service frequency bands Transmitters - Ultra Low Power Active Medical Membrane Implants and peripherals 30 MHz to 37,5 MHz Receivers - Ultra Low Power Active Medical Membrane Implants and peripherals 30 MHz to 37,5 MHz The present document contains the technical requirements for characteristics of ULP-AMI-M and ULP-AMI-M-P radio equipment which are aligned with annex 12 Sub-band (d) of CEPT/ERC Recommendation 70-03 [i.6]. The frequency usage conditions for the band 30 MHz to 37,5 MHz are EU wide harmonised for the SRD category "active medical implant devices" according to 2013/752/EU [i.10] with the following usage restrictions: • "This set of usage conditions is only available to ultra-low power medical membrane implants for blood pressure measurements within the definition of active implantable medical devices in Directive 90/385/EEC." The present document contains requirements to demonstrate that Ultra Low Power Active Medical Membrane Implants and peripherals used in a medical membrane implant communications system "… shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference" (article 3.2 of the Directive 2014/53/EU [i.1]). It does not necessarily include all the characteristics, which may be required by a user, nor does it necessarily represent the optimum performance achievable.
Keel: Inglise

EN 300 328 V2.1.1
Tähtaeg 2.05.2017
Lairiba edastussüsteemid; 2,4 GHz ISM raadiosagedusalas töötavad andmeedastusseadmed, mis kasutavad lairibamodulatsiooni tehnoloogiat; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Wide Band Data Transmission equipment. The present document also describes spectrum access requirements to facilitate spectrum sharing with other equipment. Wide Band Data Transmission equipment covered by the present document is operated in accordance with the ERC Recommendation 70-03 [i.6], annex 3 or Commission Decision 2006/771/EC [i.7] (and its amendments). This radio equipment is capable of operating in the band provided in table 1. Table 1: Service frequency bands Service frequency bands Transmit 2 400 MHz to 2 483,5 MHz Receive 2 400 MHz to 2 483,5 MHz Equipment using Ultra Wide Band (UWB) technology is not covered by the present document. The present document contains requirements to demonstrate that radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference.
Keel: Inglise

EN 300 674-2-2 V2.1.1
Tähtaeg 2.05.2017
Transpordi ja liikluse telemaatika (TTT); Raadiosagedusalas 5795 MHz kuni 5815 MHz töötavad sihtotstarbelise lähitoimeside (DSRC) edastusseadmed (500 kbit/s/250 kbit/s); Osa 2: Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 2-2: Pardaseadmed (OBU)
The present document applies to Transport and Traffic Telematics (TTT) systems: - with a Radio Frequency (RF) output connection and specified antenna or with an integral antenna; - for data transmission only; - operating on radio frequencies in the 5 725 MHz to 5 875 MHz Short Range Devices frequency band. The applicability of the present document covers only the On Board Units (OBU). 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. The present document complies with the Commission Implementing Decision 2013/752/EU [1] and CEPT/ERC Recommendation 70-03 [2]. It is a specific standard covering various TTT applications. The present document applies to the following radio equipment types operating in all or in part of the following service frequency bands given in table 1. Table 1: Frequency bands and centre frequencies fTx allocated for DSRC Pan European Service Frequencies National Service Frequencies Channel 1 5,795 GHz to 5,800 GHz, fTx = 5,7975 GHz Channel 2 5,800 GHz to 5,805 GHz, fTx = 5,8025 GHz Channel 3 5,805 GHz to 5,810 GHz, fTx = 5,8075 GHz Channel 4 5,810 GHz to 5,815 GHz, fTx = 5,8125 GHz The present document contains requirements to demonstrate that radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference.
Keel: Inglise

EN 301 489-1 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 1: Üldised tehnilised nõuded; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) ja direktiivi 2014/30/EL artikli 6 oluliste nõuete alusel
The present document covers the essential requirements of article 3.1(b) of Directive 2014/53/EU [i.1] and article 6 of Directive 2014/30/EU [i.2] for radio equipment and associated ancillary equipment, excluding broadcast receivers, in respect of ElectroMagnetic Compatibility (EMC). Where the present document is being used to evaluate the EMC performance of "combined radio and non-radio equipment", ETSI EG 203 367 [i.3] provides guidance upon the application of the various harmonised standards, including the present document, that could potentially apply to such equipment. Product dependent arrangements necessary to perform the EMC tests on dedicated types of radio communications equipment, and the assessment of test results, are detailed in the appropriate relevant radio technology parts of ETSI EN 301 489 series [i.13]. The present document, together with the relevant radio technology part, where required, specifies the applicable EMC tests, the methods of measurement, the limits and the performance criteria for radio equipment and associated ancillary equipment. In case of differences (for instance concerning special conditions, definitions, abbreviations) between part 1 of ETSI EN 301 489 series [i.13] and the relevant radio technology part of ETSI EN 301 489 series [i.13], the relevant radio technology part takes precedence. Technical specifications related to the antenna port of radio equipment and radiated emissions from the enclosure port of radio equipment and combinations of radio and associated ancillary equipment are not included in the present document. Such technical specifications are normally found in the relevant product standards for the effective use of the radio spectrum. The environment classification used in the present document refers to the environment classification used in: • CENELEC EN 61000-6-3 [i.4] and CENELEC EN 61000-6-1 [i.5] for the residential, commercial and light industrial environment; or • CENELEC EN 61000-6-2 [i.15] and CENELEC EN 61000-6-4 [i.14] for the industrial environment; or • ETSI TR 101 651 [i.6] for the telecommunication centre environment; or • ISO 7637-2 [8] for the vehicular environment. The EMC requirements have been selected to ensure an adequate level of compatibility for equipment intended to be used in the environments mentioned above. The levels, however, do not cover extreme cases which may occur in any location but with low probability of occurrence. The present document may not cover those cases where a potential source of interference which is producing individually repeated transient phenomena or a continuous phenomenon is permanently present, e.g. a radar or broadcast site in the near vicinity. In such a case it may be necessary to use special protection applied to either the source of interference or the interfered part or both. Where none of the existing specific relevant radio technology radio parts covers the required conditions for a particular radio equipment/service e.g. in case of the initial introduction of a new radio service or a special application, the present document can be used for the purposes of testing to the EMC requirements set out in the present document. In all cases where a radio product falls within the scope of a specific relevant radio technology radio part of the standard, the relevant radio technology part takes precedence. Compliance of radio equipment to the requirements of the present document does not signify compliance to any requirements related to spectrum management or to the use of the equipment (licensing requirements). Compliance to the requirements of the present document does not signify compliance to any safety requirements. However, it is the responsibility of the assessor of the equipment to record in the test report any observations regarding the test sample becoming dangerous or unsafe as a result of the application of the tests called for in the present document. NOTE 1: The present document does not yet fully address the industrial environment and industrial equipment, including ISM equipment. These will be addressed in a future edition. ETSI 10 ETSI EN 301 489-1 V2.1.1 (2017-02) NOTE 2: The immunity requirements in the present document may not reflect the severity of electromagnetic phenomena present in the industrial locations, in such cases different requirements may be more appropriate, see for example CENELEC EN 61000-6-2 [i.15].
Keel: Inglise

EN 301 489-15 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 15: Eritingimused kaubandusest kättesaadavatele amatöör-raadioseadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document, together with ETSI EN 301 489-1 [1], covers the assessment of commercially available amateur radio equipment, and associated ancillary equipment, in respect of ElectroMagnetic Compatibility (EMC). Technical specifications related to the antenna port and emissions from the enclosure port of commercially available amateur radio equipment are not included in the present document. Such technical specifications are found in the relevant product standard ETSI EN 301 783 [i.2] for the effective use of the radio spectrum. The present document specifies the applicable EMC tests, the methods of measurement, the limits and the performance criteria for radio equipment intended for use by radio amateurs within the meaning of article 1, definition 53 of the Radio Regulations [i.3] and associated ancillary equipment, which is commercially available. Examples of amateur radio equipment covered by the present document are given in annex B. The provisions of the present document apply to amateur radio equipment manufactured commercially either as ready-to-use equipment, modules, or components having an intrinsic functionality for the customer. The expression "amateur radio equipment" in the context of the present document is taken to mean "commercially available amateur radio equipment" only. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environment classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The applicable environments referred to in ETSI EN 301 489-1 [1] where equipment covered by the scope of the present document may be used, are to be declared by the manufacturer.
Keel: Inglise

EN 301 489-17 V3.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Eritingimused lairiba andmeedastussüsteemidele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document, together with ETSI EN 301 489-1 [1], specifies technical characteristics and methods of measurements for Broadband Data Transmission System equipment, as detailed in annex B. Technical specifications related to the antenna port and emissions from the enclosure port of the radio equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for wideband data communication systems. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The present document covers the essential requirements of article 3.1(b) of Directive 2014/53/EU [i.1] under the conditions identified in annex A.
Keel: Inglise

EN 301 489-31 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 31: Eritingimused raadiosagedusalas 9 kHz kuni 315 kHz töötavatele väga väikese võimsusega aktiivsetele meditsiinilistele implantaatidele (ULP-AMI) ja nende lisatarvikutele (ULP-AMI- P); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document together with ETSI EN 301 489-1 [1] covers the assessment of all radio transceivers associated with inductive Ultra Low Power Active Medical Implant (ULP-AMI) transmitters and receivers operating in the range from 9 kHz to 315 kHz and any associated external radio apparatus (ULP-AMI-Ps) transmitting in the frequency range of 9 kHz to 315 kHz including external programmers and patient related telecommunication devices in respect of ElectroMagnetic Compatibility (EMC). Non-radio parts of the above equipment may be covered by other directives and/or standards when applicable. Technical specifications related to the antenna port and emissions from the enclosure port of the radio systems of these devices are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment, and performance criteria for assessment of the radio communications link for ULP-AMI and ULP-AMI-Ps. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in the ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The present document, together with ETSI EN 301 489-1 [1], contains requirements to demonstrate an adequate level of electromagnetic compatibility as set out in Directive 2014/53/EU [i.1].
Keel: Inglise

EN 301 489-33 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 33: Eritingimused ultralairiba (UWB) seadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document, together with ETSI EN 301 489-1 [1], specifies technical characteristics and methods of measurements for radio devices based on UWB technology in respect of ElectroMagnetic Compatibility (EMC). The present document applies to fixed, mobile or portable UWB devices, e.g.: • stand alone radio equipment with or without its own control provisions; • plug-in radio devices intended for use with, or within, a variety of host systems, e.g. personal computers, hand-held terminals, etc.; • plug-in radio devices intended for use within combined equipment, e.g. cable modems, set-top boxes, access points, etc.; • combined equipment or a combination of a plug-in radio device and a specific type of host equipment; • equipment for use in road and rail vehicles; • ground and wall probing radar equipment; • (tank) level probing radar equipment; • material sensing devices. NOTE: If a system includes transponders, these are measured together with the transmitter and examples of Ultra-WideBand equipment are given in the related harmonised standards of article 3.2 of Directive 2014/53/EU [i.1]. Technical specifications related to the antenna port and emissions from the enclosure port of Ultra-WideBand (UWB) equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for Ultra-WideBand (UWB) equipment and associated ancillary equipment. Examples of Ultra-WideBand equipment are given in the related harmonised standards. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The present document covers the essential requirements of article 3.1b of Directive 2014/53/EU [i.1] under the conditions identified in annex A.
Keel: Inglise

EN 301 489-4 V3.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 4: Eritingimused paiksetele raadiolinkidele ja lisaseadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document specifies technical characteristics and methods of measurement for Analogue and Digital Fixed Radio Links operating as fixed Point-to-Point, and Point-to-Multipoint systems as defined in annex B, including the associated ancillary equipment. NOTE: Technical specifications related to the antenna port of the radio equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The processing and protection switch, (de)modulator, transmitter, receiver, RF filters, branching networks, feeders are covered by the present document. The multiplexing and/or de-multiplexing elements are covered if they form part of the transmitter, receiver and/or transceiver. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The present document covers the essential requirements of article 3.1(b) of Directive 2014/53/EU under the conditions identified in annex A.
Keel: Inglise

EN 301 489-5 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse (EMC) standard raadioseadmetele ja teenustele; Osa 5: Eritingimused ametkondlikule liikuvale raadiosidesüsteemile (PMR) ja lisaseadmetele (kõne- ja andmeedastus) ja TETRA seadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document, together with ETSI EN 301 489-1 [1], covers the assessment of Private land Mobile Radio (PMR) and associated ancillary equipment, in respect of ElectroMagnetic Compatibility (EMC). The present document covers both analogue and digital Private land Mobile Radio (PMR) equipment. Technical specifications related to the antenna port and emissions from the enclosure port of Private land Mobile Radio (PMR) equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for Private land Mobile Radio (PMR) equipment and associated ancillary equipment. Examples of Private Mobile Radio equipment are given in annex B. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document.
Keel: Inglise

EN 301 489-50 V2.1.1
Tähtaeg 2.05.2017
Raadioseadmete ja raadiosideteenistuste elektromagnetilise ühilduvuse (EMC) standard; Osa 50: Eritingimused kärgside tugijaamale (BS), repiiterile ja lisaseadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document specifies technical characteristics and methods of measurements for equipment the following equipment types: 1) digital cellular base station equipment; 2) repeaters; 3) associated ancillary equipment. Including individually and combinations of: • UTRA, WCDMA (IMT-2000 Direct Spread, W-CDMA, UMTS) • E-UTRA, LTE (IMT-2000 and IMT advanced) • GSM (IMT-2000 SC, Technology GSM/EDGE) • MSR (IMT-2000 and IMT advanced, combination of technologies above) • OFDMA WMAN (IMT-2000 OFDMA, OFDMA WMAN) • CDMA (CDMA2000 - IMT MC, CDMA2000 1X) Technical specifications related to the antenna port and emissions from the enclosure port of radio equipment (base station (BS), and repeaters) are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. Examples of base station equipment covered by the present document are given in annex A. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document. The present document covers the essential requirements of article 3.1(b) of Directive 2014/53/EU under the conditions identified in annex A. Technical specifications related to the antenna port of radio equipment and radiated emissions from the enclosure port of radio equipment and combinations of radio and associated ancillary equipment are given in the harmonised product standards ETSI EN 301 908-1 [28] or ETSI EN 301 502 [8] for the effective and efficient use of the radio spectrum.
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EN 301 489-51 V1.1.1
Tähtaeg 2.05.2017
Raadioseadmete ja raadiosideteenistuste elektromagnetilise ühilduvuse (EMC) standard; Osa 51: Eritingimused raadiosagedusalades 24,05 GHz kuni 24,25 GHz, 24,05 GHz kuni 24,5 GHz, 76 GHz kuni 77 GHz ja 77 GHz kuni 81 GHz töötavatele maapealsete sõiduki- ja ohutusradaritele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete alusel
The present document, together with ETSI EN 301 489-1 [1], covers the assessment of automotive, ground based vehicles and surveillance radar devices using 24,05 GHz to 24,25 GHz, 24,05 GHz to 24,5 GHz, 76 GHz to 77 GHz and 77 GHz to 81 GHz in respect of ElectroMagnetic Compatibility (EMC). Technical specifications related to the antenna port and emissions from the enclosure port of radar equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for automotive and surveillance radar devices and associated ancillary equipment. Automotive and surveillance radar equipments are low power millimetre wave devices that are able to detect and characterize targets in their environment. The following use cases are included (but are not limited to): • automotive Advanced Driver Assistance Systems (ADAS) applications, such as Adaptive Cruise Control (ACC), Blind Spot Detection (BSD), parking aid, backup aid, autonomous braking and pre-crash systems (PCS); • surveillance radars for other kind of ground based vehicles, such as trains, trams, aircrafts while taxiing; • fixed infrastructure radars for traffic monitoring; • railway/road crossings obstacle detection radars; • helicopter obstacle detection radars. Examples of automotive and surveillance radar devices are given in the related harmonised standards. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document.
Keel: Inglise

EN 301 489-6 V2.1.1
Tähtaeg 2.05.2017
Raadioseadmete ja raadiosideteenistuste elektromagnetilise ühilduvuse (EMC) standard; Osa 6: Eritingimused raadiotelefonisüsteemi (DECT) seadmetele; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.1(b) oluliste nõuete aluse
The present document, together with ETSI EN 301 489-1 [1], covers the assessment of Digital Enhanced Cordless Telecommunications (DECT) equipment, and associated ancillary equipment, in respect of ElectroMagnetic Compatibility (EMC). Technical specifications related to the antenna port and emissions from the enclosure port of the radio equipment are not included in the present document. Such technical specifications are found in the relevant product standards for the effective use of the radio spectrum. The present document specifies the applicable test conditions, performance assessment and performance criteria for Digital Enhanced Cordless Telecommunications (DECT) equipment, and associated ancillary equipment. Definitions of types of cordless telecommunications equipment covered by the present document are given in annex B. In case of differences (for instance concerning special conditions, definitions, abbreviations) between the present document and ETSI EN 301 489-1 [1], the provisions of the present document take precedence. The environmental classification and the emission and immunity requirements used in the present document are as stated in ETSI EN 301 489-1 [1], except for any special conditions included in the present document.
Keel: Inglise

EN 301 908-3 V11.1.2
Tähtaeg 2.05.2017
IMT kärgvõrgud; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 3: CDMA otsese hajutamisega (UTRA FDD) baasjaamad (BS)
The present document applies to the following equipment types: 1) Stations for IMT 2000 CDMA Direct Spread (UTRA FDD). This radio equipment type is capable of operating in all or any part of the frequency bands given in table 1-1. Table 1-1: UTRA FDD Base Station operating bands UTRA FDD band Direction of transmission UTRA FDD Base Station operating bands I Transmit 2 110 MHz to 2 170 MHz Receive 1 920 MHz to 1 980 MHz III Transmit 1 805 MHz to 1 880 MHz Receive 1 710 MHz to 1 785 MHz VII Transmit 2 620 MHz to 2 690 MHz Receive 2 500 MHz to 2 570 MHz VIII Transmit 925 MHz to 960 MHz Receive 880 MHz to 915 MHz XV Transmit 2 600 MHz to 2 620 MHz Receive 1 900 MHz to 1 920 MHz XVI Transmit 2 585 MHz to 2 600 MHz Receive 2 010 MHz to 2 025 MHz XX Transmit 791 MHz to 821 MHz Receive 832 MHz to 862 MHz XXII Transmit 3 510 MHz to 3 590 MHz Receive 3 410 MHz to 3 490 MHz XXXII (see note) Transmit 1 452 MHz to 1 496 MHz Receive - NOTE: The down link frequenc(ies) of this band are paired with the uplink frequenc(ies) of the other FDD band (external) of the dual band configuration. The present document covers requirements for UTRA FDD Base Stations for 3GPP Releases 99, 4, 5, 6, 7, 8, 9, 10 and 11. This includes the requirements for BS operating bands from 3GPP Release 12. In addition, the present document covers requirements for UTRA FDD Base Stations in the operating bands specified in ETSI TS 102 735 [i.4]. The present document contains requirements to demonstrate that Radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference.
Keel: Inglise

EN 302 186 V2.1.1
Tähtaeg 2.05.2017
Satelliside maajaamad ja süsteemid (SES); Sagedusalades 11/12/14 GHz töötavate liikuvate satelliitside õhusõiduki maajaamade (AES) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document specifies certain minimum technical performance requirements of Aircraft Earth Station (AES) equipment with both transmit and receive capabilities for provision of aeronautical mobile satellite service, in the frequency bands given in table 1. Table 1: Frequency bands for the AES equipment specified in the present document Mode of Operation Frequency Band AES transmit 14,00 GHz to 14,50 GHz AES receive 10,70 GHz to 11,70 GHz AES receive 12,50 GHz to 12,75 GHz NOTE: The AESs are operating in one or more frequency ranges of the Fixed and Mobile-Satellite Services. The AES has the following characteristics: • These AESs are equipment for installation on aircraft. • The AES could consist of a number of modules from the antenna subsystem to the user interfaces. • The AES uses linear polarization. • The AES system uses digital modulation. • The AES operates through a GSO satellite at least 3° away from any other geostationary satellite operating in the same frequency band and covering the same area. • The antenna of the AES is directional, with means of tracking the satellites, which can be achieved by using either an active phase array or reflective type configuration. • These AESs are operating as part of a satellite network used for the distribution and/or exchange of information between users. • These AESs are controlled and monitored by a Network Control Facility (NCF). The NCF is outside the scope of the present document. • When on the ground, the AES does not transmit at elevation angles below 7o with respect to the local horizontal plane, except at locations where transmissions below 7o are permitted by the local Administration; (the minimum elevation angle is also limited as per clause 4.2). The technical requirements in the present document are in two major categories: • emission limits: to protect other radio services and systems from harmful interference generated by the AES in normal use; • AES Control and Monitoring Functions (CMF): to protect other radio services and systems from unwanted transmissions from the AES. The CMF in each AES is capable of answering to commands from the Network Control Facility (NCF) for its supporting satellite network. The present document applies to the AESs with their ancillary equipment and its various ports, and when operated within the boundary limits of the operational environmental profile declared by the manufacturer. The technical requirements for the AES in regard to the Power Flux Density (PFD) limits to protect Fixed Service (FS) and Radio Astronomy Service (RAS) are based on annexes B and C of Recommendation ITU-R M.1643 [5] and ECC Report 26 [i.4]. Furthermore, in relation to the protection of the Fixed Satellite Service (FSS) the technical requirements of the AES take into account annex A of Recommendation ITU-R M.1643 [5]. The present document is intended to cover the provisions of Directive 2014/53/EU [6] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively and supports the use of radio spectrum allocated in order to avoid harmful interference". ETSI 10 ETSI EN 302 186 V2.1.1 (2016-05) In addition to the present document, other ENs that specify technical requirements in respect of essential requirements of other parts of article 3 of the RE Directive [6] may apply to equipment within the scope of the present document. NOTE: A list of such ENs is included on the web site at: http:\\www.newapproach.org. The present document does not cover equipment compliance with relevant civil aviation regulations. In this respect, an AES, for its installation and operation on board an aircraft is subject to additional national or international civil aviation airworthiness certification requirements, for example to EUROCAE ED-14D [4].
Keel: Inglise

EN 302 248 V2.1.1
Tähtaeg 2.05.2017
Navigatsiooniradarid SOLAS konventsiooniga hõlmamata laevadel; Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to non-SOLAS radar equipment. The applicable frequencies of operation of this type of radio equipment are given in table 1. These frequencies are allocated to the radio navigation service, as defined in article 5 of the ITU Radio Regulations [i.2]. Table 1: Radio navigation service frequencies Radio navigation service frequencies Transmit 2 900 MHz to 3 100 MHz Receive 2 900 MHz to 3 100 MHz Transmit 9 300 MHz to 9 500 MHz Receive 9 300 MHz to 9 500 MHz The present document contains requirements to demonstrate that radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of Article 3 of the of Directive 2014/53/EU [i.1] may apply to equipment within the scope of the present document.
Keel: Inglise

EN 302 340 V2.1.1
Tähtaeg 2.05.2017
Satelliitside maajaamad ja süsteemid (SES); Sagedusalades 11/12/14 GHz töötavate veesõiduki pardal asuvate maajaamade (AES) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Earth Stations located on board Vessels (ESVs) which have the following characteristics: • The ESV is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface with other communications equipment on board (usually referred to as the terrestrial interface). • The ESV transmits in the frequency range from 14,00 GHz to 14,50 GHz allocated to the Fixed Satellite Services (FSS) (earth-to-space). • The ESV receives in one or more frequencies within the range from 10,70 GHz to 12,75 GHz in the bands allocated to the Fixed Satellite Services (FSS) (space-to-earth), depending on the ITU Region where the ESV is located. • The ESV uses linear polarization. • The ESV operates through a geostationary satellite at least 2° to 3° away from any other geostationary satellite operating in the same frequency band and covering the same area. NOTE 1: The satellite spacing is mainly equal to 3° in ITU Regions 1 and 3 and 2° in ITU Region 2. The ESV transmits at elevations greater or equal to the minimum elevation angle declared by the applicant. • The ESV antenna diameter is not smaller than 0,6 m. NOTE 2: Operation within 125 km of non-CEPT countries with antenna diameter smaller than 1,2 m may be subject to specific agreement with concerned administrations as stated in ITU-R Resolution 902 (WRC-03). • The ESV is designed for transmission and reception of radio-communications signals in accordance with any of the frequency bands specified above. • The ESV is usually designed for unattended operation. • The ESV is operating as part of a satellite network (e.g. star, mesh or point-to-point) used for the distribution and/or exchange of information between users. • The ESV is controlled and monitored by a Network Control Facility (NCF). The NCF is outside the scope of the present document. The present document applies to the ESV with its ancillary equipment and its various telecommunication ports, and when operated within the boundary limits of the operational environmental profile declared by the applicant and when installed as required by the applicant by declaration or in the user documentation. The present document is intended to cover the provisions of Directive 2014/53/EU [9] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". The present document incorporates the technical limitations listed in annex 2 of ITU-R Resolution 902 (WRC-03) [i.2]. NOTE 3: According to ITU-R Resolution 902 (WRC-03), any transmission from ESVs within the 125 km minimum distance of each country where the ESV transmit frequency band is used by the Fixed Service will be subject to the prior agreement of the concerned administration(s) or to the relevant ECC Decision and may specify additional operational requirements. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53 [9] (RE Directive) may apply to equipment within the scope of the present document. NOTE 4: A list of such ENs is included on the web site http://www.newapproach.org/.
Keel: Inglise

EN 302 448 V2.1.1
Tähtaeg 2.05.2017
Satelliitside maajaamad ja süsteemid (SES); Raadiosagedusalades 14/12 GHz töötavate rongidel asuvate asukoha jälgimise maajaamade (EST) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Earth Stations located on board Trains, which have the following characteristics. External Mounted Equipment, EME Internal Mounted Equipment, IME On -Train Services Int erface Radio Modem Internal CMF Antenna Control Stabilization & Tracking Mech anism Enclosure / Radome Antenna LNB HPA Figure 1: EST System Overview • The EST may transmit and receive data when the train is in motion and also when the train is stationary. • The EST operates in a railway environment and, therefore, may be subject to occasional disturbances and interruptions in the satellite link. • The EST is operating as part of a satellite network (e.g. star, mesh or point-to-point) used for the distribution and/or exchange of information. • The EST is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface with other communications equipment on a train (usually referred to as the terrestrial interface). • The EST transmits on single carrier in the frequency range 14,00 GHz to 14,25 GHz, which is a portion of a band allocated to the Fixed Satellite Services (FSS) (Earth-to-space). • The EST receives in one or more frequencies within the range from 10,70 GHz to 12,75 GHz in bands allocated to the Fixed Satellite Services (FSS) (space-to-Earth) or the Broadcast Satellite Service (BSS) (space-to-Earth), depending on the ITU Region where the EST is located. • The EST uses linear or circular polarization. • The EST is designed to operate through a geostationary satellite (or a cluster of co-located geostationary satellites) that is at least 3° away from any other geostationary satellite operating in the same frequencies and over the same coverage area. • The EST transmits at elevations greater than or equal to 7° relative to the local horizon. • The EST is designed for unattended operation. • The EST is controlled and monitored by a Network Control Facility (NCF). The NCF is outside the scope of the present document. The present document applies to the EST with its ancillary equipment and its various telecommunication ports, and when operated within the boundary limits of the operational environmental profile as declared by the applicant and when installed as required by the applicant's declaration or in the user documentation. The present document is intended to cover the provisions of Directive 2014/53/EU [4] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". NOTE 1: Operational requirements are defined by national administrations and by relevant ECC Decisions. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53 [4] (RE Directive) may apply to equipment within the scope of the present document. NOTE 2: A list of such ENs is included on the web site http://www.newapproach.org/.
Keel: Inglise

EN 302 480 V2.1.1
Tähtaeg 2.05.2017
Süsteemid mobiilsidele lennuki pardal (MCOBA); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to the following equipment types: 1) An Onboard Base Transceiver System (OBTS) supporting GSM, UMTS or LTE communication protocols including specific functions for restricting the transmit power of the MSs or UEs, respectively associated with the OBTS. 2) Network Control Unit (NCU) preventing direct connection of the onboard mobile terminals with mobile networks on the ground by raising the noise floor in the cabin. These Base stations are capable of operating in all or any part of the frequency bands given in table 1-1. Table 1-1: Base station operating bands Band designation Direction of transmission Base Station operating bands UTRA I BS Transmit 2 110 MHz to 2 170 MHz (UMTS) BS Receive 1 920 MHz to 1 980 MHz (UMTS) E-UTRA 3 BS Transmit 1 805 MHz to 1 880 MHz (LTE) BS Receive 1 710 MHz to 1 785 MHz (LTE) DCS 1800 BS Transmit 1 805 MHz to 1 880 MHz (GSM) BS Receive 1 710 MHz to 1 785 MHz (GSM) These NCU is capable of operating in all of the frequency bands given in table 1-2. Table 1-2: NCU operating bands NCU operating bands Comment 460 MHz to 470 MHz 791 MHz to 821 MHz LTE 921 MHz to 960 MHz GSM 1 805 MHz to 1 880 MHz GSM / LTE 2 110 MHz to 2 170 MHz UMTS 2 570 MHz to 2 620 MHz LTE 2 620 MHz to 2 690 MHz LTE It applies to equipment for continuous and discontinuous transmission of data and digital speech. The present document applies only to radio equipment using a dedicated transmitting antenna that is designed as an indispensable part of the system for usage on board an aircraft. The system covered by the present document operates in accordance with the operational requirements as outlined in the Commission Decision 2013/654/EU [i.3]. The present document contain requirements to demonstrate that Radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference. In addition to the present document, other ENs that specifie technical requirements in respect of essential requirements under other parts of Article 3 of the Radio Equipment Directive may apply to equipment within the scope of the present document. NOTE: A list of such ENs is included on the web site http://www.newapproach.org. The present document does not cover equipment compliance with relevant civil aviation regulations. In this respect, a MCOBA system, for its installation and operation on board an aircraft is subject to additional national or international civil aviation airworthiness certification requirements, for example to EUROCAE ED-14E [i.6].
Keel: Inglise

EN 302 480 V2.1.2
Tähtaeg 2.05.2017
Süsteemid mobiilsidele lennuki pardal (MCOBA); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to the following equipment types: 1) An Onboard Base Transceiver System (OBTS) supporting GSM, UMTS or LTE communication protocols including specific functions for restricting the transmit power of the MSs or UEs, respectively associated with the OBTS. 2) Network Control Unit (NCU) preventing direct connection of the onboard mobile terminals with mobile networks on the ground by raising the noise floor in the cabin. These Base stations are capable of operating in all or any part of the frequency bands given in table 1-1. Table 1-1: Base station operating bands Band designation Direction of transmission Base Station operating bands UTRA I BS Transmit 2 110 MHz to 2 170 MHz (UMTS) BS Receive 1 920 MHz to 1 980 MHz (UMTS) E-UTRA 3 BS Transmit 1 805 MHz to 1 880 MHz (LTE) BS Receive 1 710 MHz to 1 785 MHz (LTE) DCS 1800 BS Transmit 1 805 MHz to 1 880 MHz (GSM) BS Receive 1 710 MHz to 1 785 MHz (GSM) These NCU is capable of operating in all of the frequency bands given in table 1-2. Table 1-2: NCU operating bands NCU operating bands Comment 460 MHz to 470 MHz 791 MHz to 821 MHz LTE 921 MHz to 960 MHz GSM 1 805 MHz to 1 880 MHz GSM / LTE 2 110 MHz to 2 170 MHz UMTS 2 570 MHz to 2 620 MHz LTE 2 620 MHz to 2 690 MHz LTE It applies to equipment for continuous and discontinuous transmission of data and digital speech. The present document applies only to radio equipment using a dedicated transmitting antenna that is designed as an indispensable part of the system for usage on board an aircraft. Within the European Union, the system covered by the present document operates in accordance with the operational requirements as outlined in the Commission Decision 2013/654/EU [i.3]. The present document contain requirements to demonstrate that Radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference. In addition to the present document, other ENs that specifie technical requirements in respect of essential requirements under other parts of Article 3 of the Radio Equipment Directive may apply to equipment within the scope of the present document. The present document does not cover equipment compliance with relevant civil aviation regulations. In this respect, a MCOBA system, for its installation and operation on board an aircraft is subject to additional national or international civil aviation airworthiness certification requirements, for example to EUROCAE ED-14G [i.6].
Keel: Inglise

EN 302 574-1 V2.1.1
Tähtaeg 2.05.2017
Satelliitside maajaamad ja süsteemid (SES); Sagedusalades 1980 MHz kuni 2010 MHz (suunal Maa-kosmos) ja 2170 MHz kuni 2200 MHz (suunal kosmos-Maa) töötavate liikuvate satelliitside maajaamade (MES) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 1: Komplementaarne maakomponent (CGC) lairibasüsteemidele
The present document applies to Complementary Ground Components (CGC) operating as part of a satellite network. The present document covers two types of CGC: • Conventional CGC: - Clauses 4 and 5 according to ETSI EN 301 908-18 [16] for W_CDMA - Clauses 8 and 9 according to ETSI EN 301 908-14 [10] for E-UTRA • Aeronautical CGC These Complementary Ground Components (CGC) transmit only to the User Equipment/ Aeronautical Terminal or transmit and receive to/from the User Equipment/ Aeronautical Terminal in the frequency bands allocated to the Mobile Satellite Service (MSS) on a primary basis as defined in table 1. NOTE 1: The CGC may include various types of interfaces, to terrestrial and/or satellite networks, but their specifications are out of the scope of the present document. The present document applies to Complementary Ground Component (CGC) radio equipment type deployed in Mobile Satellite Services systems which have the following characteristics: • These CGCs may have both transmit and receive capabilities and are part of a hybrid Satellite/terrestrial network. • These CGCs operate with an assigned channel signal bandwidth (CBw) of 1 MHz or greater. • The conventional CGCs may be local coverage, medium coverage or wide coverage ground components. • The aeronautical CGCs may transmit/receive toward/from terminal mounted on aircraft (Aeronautical Terminal). • These CGCs may be an element in a multi-mode base station. It may consist of a number of modules with associated connections, or may be a self-contained single unit. If the CGC is an element in a multi-mode base station, unless otherwise stated in the present document, its requirements apply only to the CGC element of the terminal operating in the Mobile Satellite Service (MSS) frequency bands given in table 1. The present document applies to the following terminal equipment types: 1) Complementary Ground Components for Wideband Satellite Systems. This radio equipment type is capable of operating in all or any part of the frequency bands given in table 1. Table 1: Mobile Satellite Service Complementary Ground Component frequency bands Operating band Direction of transmission CGC frequency bands I Transmit 2 170 MHz to 2 200 MHz Receive 1 980 MHz to 2 010 MHz The present document only applies to the radio interface between the conventional CGC and the User Equipment or between aeronautical CGC and Aeronautical Terminal. The present document is intended to cover the provisions of Directive 2014/53/EU [13] (RE Directive) article 3.2 which states, which states that "Radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". NOTE 2: In addition to the unwanted emission limits defined in clauses 4.2.2 and 5.2.2 of the present document, additional operational constraints may be required to prevent harmful interference into services operating in the neighbouring bands outside the operational band defined in table 1. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53/EU [13] may apply to equipment within the scope of the present document. NOTE 3: A list of such ENs is included on the web site http://www.newapproach.org.
Keel: Inglise

EN 302 574-2 V2.1.1
Tähtaeg 2.05.2017
Satelliitside maajaamad ja süsteemid (SES); Sagedusalades 1980 MHz kuni 2010 MHz (suunal Maa-kosmos) ja 2170 MHz kuni 2200 MHz (suunal kosmos-Maa) töötavate liikuvate satelliitside maajaamade (MES) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel; Osa 1: Lairibasüsteemide kasutajaseadmed (UE)
The present document applies to User Equipment (UE) radio equipment type which has the following characteristics: • these UEs have both transmit and receive capabilities and operate in an hybrid Satellite/terrestrial network i.e. a satellite and/or Complementary Ground Component (CGC) network; • the satellite component is based on GSO; • these UEs operate with an assigned channel signal bandwidth (CBw) of 1 MHz or greater; • these UEs may be handset, handheld, portable, vehicle-mounted, aircraft mounted device (in this case the present document refers to Aeronautical Terminal - AT) host connected, semi-fixed or fixed equipment, or may be an element in a multi-mode terminal. It may consist of a number of modules with associated connections and user interface, or may be a self contained single unit; • if the UE is an element in a multi-mode terminal, unless otherwise stated in the present document, its requirements apply only to the UE element of the terminal operating in the Mobile Satellite Service (MSS) frequency bands given in Table 1; • the present document applies for several class of UEs: - UE for terrestrial use Power Class 1 - clauses 4 and 5; - UE for terrestrial use Power Class 1bis - clauses 4 and 5; - UE for terrestrial use Power Class 2 - clauses 4 and 5; - UE for terrestrial use Power Class 3 - clauses 4 and 5; - UE for aeronautical use (Aeronautical Terminal - AT) - clauses 6 and 7; - UE for terrestrial use (non-aeronautical UE E-UTRA) - clauses 8 and 9; • the Aeronautical Terminals (AT) operates at altitude of 1 000 m and higher above ground level. This radio equipment type is capable of operating in all or any part of the frequency bands given in Table 1. Table 1: Mobile Satellite Service UE frequency bands Operating band Direction of transmission UE frequency bands I Transmit 1 980 MHz to 2 010 MHz Receive 2 170 MHz to 2 200 MHz The present document is intended to cover the provisions of Directive 2014/53/EU [9] (RE Directive) article 3.2, which states that "Radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". NOTE 1: In addition to the unwanted emission limits defined in clauses 4.2.4 and 4.2.5 of the present document, additional operational constraints may be required to prevent harmful interference into services operating in the neighbouring bands outside the operational band defined in Table 1. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the RE Directive [9] may apply to equipment within the scope of the present document. NOTE 2: A list of such ENs is included on the web site http://www.newapproach.org.
Keel: Inglise

EN 302 977 V2.1.1
Tähtaeg 2.05.2017
Satelliitside maajaamad ja süsteemid (SES); Raadiosagedusalades 14/12 GHz töötavate liiklusvahenile kinnitatud maajaamade (VMES) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Earth Stations located on board Vehicles, which have the following characteristics. In-vehicle Services Interface Stabilization & Tracking mechanism Antenna Enclosure / Radome Control and Monitoring Function Antenna Controller Modem External mounted equipment (EME) Internally mounted equipment (IME) Externally or internally mounted equipment LNA BDC HPA BUC Radio Antenna Control Facility Interface Figure 1: VMES System Overview • The VMES may transmit and receive data when the vehicle is in motion and also when the vehicle is stationary. • The VMES operates on wheeled or tracked vehicles and, therefore, may be subject to occasional disturbances and interruptions in the satellite link. • The VMES is operating as part of a satellite network (e.g. star, mesh or point-to-point) used for the distribution and/or exchange of information. • The VMES is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface with other communications equipment on a vehicle (usually referred to as the terrestrial interface). • The VMES transmits on single carrier in the frequency range 14,00 GHz to 14,50 GHz, which is a band allocated to the Fixed Satellite Services (FSS) (Earth-to-space) among other services. However, operation of the VMES is intended to be restricted to the lower half of the band in and near those countries that have allocated Fixed Service (FS) to the upper half. Local regulation may permit operation in the upper half of the band. NOTE 1: For the purposes of the present specification, OFDM modulation is considered as a single carrier. • The VMES receives in one or more frequencies within the range from 10,70 GHz to 12,75 GHz in bands allocated to the Fixed Satellite Services (FSS) (space-to-Earth) or the Broadcast Satellite Service (BSS) (space-to-Earth), depending on the ITU Region where the VMES is located. • The VMES uses linear or circular polarization. • The VMES is designed to operate through a geostationary satellite (or a cluster of co-located geostationary satellites) that is at least 3° away from any other geostationary satellite operating in the same frequencies and over the same coverage area. NOTE 2: Satellites may be spaced closer than 3°. In such cases, the satellite operator will inform the VMES client of the requirements of the system coordination agreements. • The VMES transmits at elevations greater than or equal to 7° relative to the local horizon. • The VMES is designed for unattended operation. • The VMES is designed for both mobile and stationary operation. In the case of stationary operation, the VMES should not be accessible to the general public and operated safely. • The VMES is controlled and monitored by an Antenna Control Facility (ACF). This function may be performed centrally (e.g. for a network of VMESs with a central hub) or it could be performed within the VMES for autonomous control. The ACF is outside the scope of the present document. The present document applies to the VMES with its ancillary equipment and its various telecommunication ports, and when operated within the boundary limits of the operational environmental profile as declared by the applicant and when installed as required by the applicant's declaration or in the user documentation. The present document is intended to cover the provisions of Directive 2014/53/EU [9] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrumin order to avoid harmful interference". NOTE 3: Operational requirements are defined by national administrations and by relevant ECC Decisions. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53/EU [9] (RE Directive) may apply to equipment within the scope of the present document. NOTE 4: A list of such ENs is included on the web site http://www.newapproach.org/.
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EN 303 098 V2.1.1
Tähtaeg 2.05.2017
Madala võimsusega töötav isikliku kasutusega asukoha määramise mereseade, mis kasutab automaatset identifitseerimissüsteemi (AIS); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document lays down the minimum requirements for low power maritime personal locating devices employing AIS The present document does not cover requirements for the integrated GNSS receiver providing locating function. The present document incorporates the relevant provisions of the International Telecommunication Union (ITU) radio regulations [i.4] included in Recommendation ITU-R M.1371-5 [1]. For this application, both the radiated power and the length of time of operation are limited to enable the equipment to be sufficiently small and light to be worn comfortably at all times and to limit the operating range to a local area. The present document also specifies technical characteristics, methods of measurement and required test results. The present document contains requirements to demonstrate that "... Radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference" [i.1].
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EN 303 135 V2.1.1
Tähtaeg 2.05.2017
Elektromagnetilise ühilduvuse ja raadiospektri küsimused (ERM); Ranniku seire, veesõiduki liikluse teenused ja sadamaradarid (CS/VTS/HR); Harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
Surveillance (CS) or Harbour Radar Systems with the following characteristics: • Utilizing modulated or unmodulated pulses. • Transmitter Peak Envelope Power up to 100 kW. • The transceiver-antenna connection is using a hollow metallic rectangular waveguide. • The antenna is rotating, waveguide- based and passive. • At the transceiver output an RF-circulator is used. NOTE 1: Since transceiver and antenna are hollow metallic rectangular waveguide based, the frequency range for measurements that needs to be addressed covers 6,56 GHz to 26 GHz. The lower limit of this frequency range is obtained as cut-off frequency of the combination of WR112/R84 taper section and a WR90/R100 Waveguide as defined by IEC 60153-2 [i.2]. The upper limit corresponds to the upper limit stated in ERC/Recommendation 74-01 [i.4]. Other types of waveguide may be used by the same principles to obtain complete measurement coverage of the frequency range of the output flange of the equipment under test. NOTE 2: Since at the transceiver output an RF circulator is used, it is assumed that the transceiver characteristics remain independent from the antenna. NOTE 3: According to article 5 of the ITU Radio Regulations [i.5] there are a number of bands between 8,5 GHz and 10 GHz that are allocated to Radiolocation service. There are national deviations to the detailed band usages, but the basic spectrum usage regulation is the same. Table 1: Radiolocation service frequency bands [GHz] 8 500 - 8 550 8 550 - 8 650 8 650 - 8 750 8 750 - 8 850 8 850 - 9 000 9 000 - 9 200 9 200 - 9 300 9 300 - 9 500 9 500 - 9 800 9 800 - 9 900 9 900 - 10 000 The present document contains requirements to demonstrate that "...radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference" [i.1]. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Radio Equipment Directive [i.1] may apply to equipment within the scope of the present document.
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EN 303 213-6-1 V2.1.1
Tähtaeg 2.05.2017
Lennuvälja maapealse liikluse juhtimise täiustatud süsteem (A-SMGCS); Osa 6: Harmoneeritud standard direktiivi 2014/53/EL artikli 3 lõike 2 põhinõuete alusel süsteemi juures kasutatava maapealse liikluse seireradarite (SMR) jaoks; Alaosa 1: X-riba impulss-seireseadmed saatjavõimsusega kuni 100 kW
The present document applies to X-band radar sensors intended for the surveillance of airport surface movement traffic with the following characteristics: • Operating in one or both of the following frequency ranges: - 9 000 MHz to 9 200 MHz and 9 300 MHz to 9 500 MHz utilizing modulated or unmodulated pulses. • Transmitter Peak Envelope Power up to 100 kW. • The transceiver-antenna connection is using a hollow metallic rectangular waveguide. • The antenna is rotating, waveguide-based and passive. • At the transceiver output an RF-circulator is used. NOTE 1: Since transceiver and antenna are hollow metallic rectangular waveguide based the frequency range for measurements that needs to be addressed covers 6,56 GHz to 26 GHz. The lower limit of this frequency range is obtained as cut-off frequency of the combination of WR112/R84 taper section and a WR90/R100 Waveguide IEC 60153-2 [i.3]. The upper limit corresponds to the upper limit stated in ERC/Recommendation 74-01 [i.5]. NOTE 2: Since at the transceiver output an RF circulator is used, it is assumed that the transceiver characteristics remain independent from the antenna. NOTE 3: Aeronautical Surface Movement Radars covered by the present document are expected to use the bands 9 000 MHz to 9 200 MHz and/or 9 300 MHz to 9 500 MHz. According article 5 of the ITU Radio Regulations [i.6] the band 9 000 MHz to 9 200 MHz is allocated to the Aeronautical Radionavigation Service on a primary basis and the band 9 300 MHz to 9 500 MHz is allocated to the Radionavigation Service on a primary basis. The present document contains requirements to demonstrate that "... Radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference" [i.1]. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Radio Equipment Directive 2014/53/EU [i.1] as well as essential requirements under the SES Interoperability Regulation 552/2004 [i.9] and related implementing rules and/or essential requirements under the EASA basic regulation 216/2008 [i.12] may apply to equipment within the scope of the present document.
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EN 303 340 V1.1.1
Tähtaeg 2.05.2017
Digitaalsed maapealsed TV ringhäälinguvastuvõtjad; Harmoneeritud EN direktiivi 2014/53/EU artikli 3.2 oluliste nõuete alusel
The present document applies to digital terrestrial television broadcast receivers fitted with an external antenna input (tuner port) capable of receiving DVB-T and/or DVB-T2 signals. Receivers without external antenna connectors, receivers with diversity, and receivers intended for mobile or automotive reception are not covered by the present document. The present document contains the requirements for digital terrestrial television broadcast receivers to meet the essential requirements of article 3.2 of Directive 2014/53/EU [i.3] that radio equipment both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference. The present document includes considerations of interference from LTE transmissions in the 700 MHz and 800 MHz bands and DTT transmissions in UHF band IV. The requirements of the installation system (antenna, feeder cable, amplifiers, etc.) are not addressed. Table 1: Broadcast frequency bands Broadcast frequency bands VHF III UHF IV and V There are country specific variations of frequency usage for digital terrestrial television reception and other users such as mobile broadband. The tests in the present document only apply if the DTT broadcast receiver supports the wanted signal configuration used by the test in question. The applicable tests are summarized in annex E, table E.1.
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EN 303 978 V2.1.1
Tähtaeg 2.05.2017
Satelliitsideside maajaamad ja süsteemid (SES). Saatesagedusega 27,5 GHz kuni 30 GHz geostatsionaarorbiidil mobiilsel platvormil töötavate maajaamade (ESOMP) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 oluliste nõuete alusel
The present document applies to Earth Stations on Mobile Platforms (ESOMP), which have the following characteristics. Service Interface Stabilization & Tracking mechanism Antenna Enclosure / Radome Control and Monitoring Function Antenna Controller Modem LNA BDC HPA BUC Radio Antenna Control Facility Interface Figure 1: ESOMP System Overview • The ESOMP is designed for both mobile and stationary operation. • The ESOMP operates on various mobile platforms such as trains, maritime vessels, aircraft and other vehicles and, therefore, may be subject to occasional disturbances and interruptions in the satellite link. • The ESOMP is operating as part of a satellite network (e.g. star, mesh or point-to-point) used for the distribution and/or exchange of information. • The ESOMP is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface with other communications equipment on a mobile platform (usually referred to as the terrestrial interface). • The transmit and receive frequencies are shown in table 1. Table 1: Frequency bands Frequency Bands/frequencies (GHz) Transmit (Earth-to-space) 27,50 to 30,00 Receive (space-to-Earth) 17,30 to 20,20 • The ESOMP transmits within the frequency range from 27,50 GHz to 30,00 GHz, which is a band allocated to the Fixed Satellite Services (FSS) (Earth-to-space) among other services. However, operation of the ESOMP is intended to be restricted to the frequency range 29,50 GHz to 30,00 GHz in and near those countries that have allocated Fixed Service (FS) to the other frequency ranges. Local regulation may permit operation in these frequency ranges. • The ESOMP receives in one or more frequencies within the range from 17,30 GHz to 20,20 GHz (FSS). • The ESOMP uses linear or circular polarization. • The ESOMP operates through a geostationary satellite (or a cluster of co-located geostationary satellites) that is at least 2° away from any other geostationary satellite operating in the same frequencies and over the same coverage area. NOTE 1: ESOMPs may operate with satellites that are more closely spaced than 2° with additional operational constraints that are beyond the scope of the present document. • The ESOMP is designed for unattended operation. • The ESOMP is controlled and monitored by a Network Control Facility (NCF). This function may be performed centrally (e.g. for a network of ESOMPs with a central hub) or it could be performed within the ESOMP for autonomous control. The NCF is outside the scope of the present document. The present document applies to the ESOMP with its ancillary equipment and its various telecommunication ports, and when operated within the boundary limits of the operational environmental profile as declared by the applicant and when installed as required by the applicant's declaration or in the user documentation. The present document is intended to cover the provisions of Directive 2014/53/EU [6] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". NOTE 2: Operational requirements are defined by national administrations and by relevant ECC Decisions. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53/EU [6] may apply to equipment within the scope of the present document. NOTE 3: A list of such ENs is included on the web site http://www.newapproach.org/.
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EN 303 979 V2.1.1
Tähtaeg 2.05.2017
Kosmoseside maajaamad ja süsteemid (SES). Saatesagedusega 27,5 GHz kuni 29,1 GHz ja 29,5 GHz kuni 30,0 GHz geostatsionaarorbiidil mobiilsel platvormil töötavate maajaamade (ESOMP) harmoneeritud standard direktiivi 2014/53/EL artikli 3.2 põhinõuete alusel
The present document applies to Earth Stations on Mobile Platforms (ESOMP), which have the following characteristics. Service Interface Stabilization & Tracking mechanism Antenna Enclosure / Radome Control and Monitoring Function Antenna Controller Modem LNA BDC HPA BUC Radio Antenna Control Facility Interface Figure 1: ESOMP System Overview • The ESOMP is designed for both mobile and stationary operation. • The ESOMP operates on various mobile platforms such as trains, maritime vessels, aircraft and other vehicles and, therefore, may be subject to occasional disturbances and interruptions in the satellite link. • The ESOMP is operating as part of a satellite network (e.g. star, mesh or point-to-point) used for the distribution and/or exchange of information. • The ESOMP is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface with other communications equipment on a mobile platform (usually referred to as the terrestrial interface). • The ESOMP comprises of one or more emitters and the system overview given in figure 1 should be interpreted accordingly. • The transmit and receive frequencies are shown in table 1. Table 1: Frequency bands Frequency Bands/frequencies Transmit (Earth-to-space) 27,5 GHz to 29,1 GHz and 29,5 GHz to 30,0 GHz Receive (space-to-Earth) 17,30 GHz to 20,20 GHz • The ESOMP transmits within the frequency range from 27,5 GHz to 29,1 GHz and 29,5 GHz to 30,0 GHz, which is a band allocated to the Fixed Satellite Services (FSS) (Earth-to-space) among other services. National regulations will specify the bands available for the operation of the ESOMP. Such regulations may designate some parts of the frequency range 27,5 GHz to 29,1 GHz to terrestrial services such as the Fixed Service. However, the operation of the ESOMP may be permitted under national regulations in the 29,50 GHz to 30,00 GHz band since this band is allocated on a primary basis to the Fixed Satellite Service. • The ESOMP receives in one or more frequencies within the range from 17,30 GHz to 20,20 GHz (FSS). • The ESOMP uses linear or circular polarization. • The ESOMP operates through non-geostationary satellites. • The ESOMP is designed for unattended operation. • The ESOMP is controlled and monitored by a Network Control Facility (NCF). This function may be performed centrally (e.g. for a network of ESOMPs with a central hub) or it could be performed within the ESOMP for autonomous control. The NCF is outside the scope of the present document. • The ESOMP operating in the 27,5 GHz to 28,6 GHz and 29,5 GHz to 30 GHz bands: epfd limits given in article 22 of the ITU Radio Regulations [i.4] apply for the ESOMPs operating with the NGSO system for the protection of the GSO networks (see No 22.5D of the ITU RR [i.4]). • ESOMP operating in the 28,6 GHz to 29,1 GHz band: No 9.11A of the ITU RR [i.4] applies to the NGSO network of the ESOMP, meaning that the NGSO will be required to coordinate with earlier filed GSO networks or NGSO systems (See No. 5.523A of the ITU RR [i.4]). The present document applies to the ESOMP with its ancillary equipment and its various telecommunication ports, and when operated within the boundary limits of the operational environmental profile as declared by the applicant and when installed as required by the applicant's declaration or in the user documentation. The present document is intended to cover the provisions of Directive 2014/53/EU [6] (RE Directive) article 3.2, which states that "… radio equipment shall be so constructed that it both effectively uses and supports the efficient use of radio spectrum in order to avoid harmful interference". NOTE 1: Operational requirements are defined by national administrations and by relevant ECC Decisions. In addition to the present document, other ENs that specify technical requirements in respect of essential requirements under other parts of article 3 of the Directive 2014/53/EU [6] may apply to equipment within the scope of the present document. NOTE 2: A list of such ENs is included on the web site http://www.newapproach.org/.
Keel: Inglise