DEN/ERM-TGAERO-42-1

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DEN/ERM-TGAERO-42-3

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DEN/ERM-TGAERO-42-2

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REN/ERM-TG17-162

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IEC 62148-21:2021 is available as IEC 62148-21:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62148-21: 2021 covers the design guidelines of the electrical interface for photonic integrated circuit (PIC) packages using silicon fine-pitch ball grid array (S-FBGA) and silicon fine-pitch land grid array (S-FLGA). In this document, the electrical interface for the S-FBGA package is informative. The purpose of this document is to specify adequately the electrical interface of PIC packages composed of optical transmitters and receivers that enable mechanical and electrical interchangeability of PIC packages. This second edition cancels and replaces the first edition published in 2019. This edition constitutes a technical revision. This edition includes the following significant technical change with respect to the previous edition: specification of an electric guard band area around the optical terminal area, so as to allow applications with electric signals at higher symbol rates (e.g. 50 Gbaud and 100 Gbaud).

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DEN/ERM-TG17-154

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DEN/ERM-TG17-153

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IEC 60794-1-403:2021 specifies a method of verifying that cable metallic elements are electrically continuous throughout the cable. Electrical continuity is important for bonding and grounding, toning for location, and other related system issues, and may represent a "goodness of manufacture" criterion. Typically, the test is one of continuity and carries no resistance or conductivity requirement. The metallic elements can be tested individually or can be tested as a total group. Since this latter criterion is frequently the case, all elements are measured as a group unless specified otherwise. NOTE It is possible detail specifications allow such elements as strength members to be non-continuous throughout the cable. This is a special case, and attention is directed to the detail specification.

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REN/ERM-TG28-559

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This part of IEC 61169, which is a sectional specification (SS), provides information and rules
for the preparation of detail specifications (DS) for RF coaxial connectors with push-on coupling,
typically for use in 50 Ω RF cables or micro-strips in microwave, telecommunication, wireless
systems and other fields (SMPM).
It specifies mating face dimensions for general purpose connectors – grade 2, dimensional
details of standard test connectors-grade 0, gauging information and tests selected from
IEC 61169-1, applicable to all detail specifications relating to series SMPM RF connectors.
This specification indicates recommended performance characteristics to be considered when
writing a detail specification and it covers test schedules and inspection requirements for
assessment levels M and H.
The SMPM push-on coupling structure series RF coaxial connectors with the characteristic of
normative impedance 50 Ω are used with various kinds of RF cables or micro-strips in
microwave, telecommunication, wireless systems. The operating frequency limit is up to 65 GHz.
NOTE Imperial dimensions are original dimensions. All undimensioned pictorial configurations are for reference
purpose only.

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This part of IEC 61753 contains the minimum tests, test severities and measurement
requirements which a sealed fibre optic closure need to meet in order to be categorised as
meeting the IEC standard for category G – Ground, as defined in Table A.14 of
IEC 61753-1:2018. Free breathing closures are not covered in this document.

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This part of IEC 60794, which is a family specification, specifies the optical fibre, cable elements,
cable construction requirements, main requirements for installation and operating conditions,
cable design characteristics and test for OPPC (optical phase conductor), used for carrying
current as well as communication and data transmission. The corresponding environmental
declaration can be built according to IEC TR 62839-1.
The OPPC is a substitute for a conventional phase bare conductor containing optical fibres.
Usually, the fibres are embedded loosely in protective buffer tubes. To fulfil mechanical and
electrical requirements, an armouring of one or more layers with aluminium, aluminium alloy,
and aluminium clad steel, galvanized steel or a mixture of them is helically stranded.

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The present document states the minimum requirements for equipment to be used for generation, transmission and
reception of Digital Selective Calling (DSC) for use on board ships.
DSC is intended to be used in the Medium Frequency (MF), High Frequency (HF) and Very High Frequency (VHF)
bands of the Maritime Mobile Service (MMS), for distress, urgency and safety communication and general
communications.
The present document is part 1 of a multi-part deliverable that covers the requirements to be fulfilled by:
• DSC equipment integrated with a transmitter and/or a receiver;
• DSC equipment not integrated with a transmitter and/or a receiver.
These requirements include the relevant provisions of the ITU Radio Regulations [i.15] and Recommendations ITU-R
M.493-15 [2], M.541-10 [3], M.689-3 [4] and M.1082-1 [5], the International Convention for the Safety Of Life At Sea
(SOLAS) [i.14], and the following resolutions/circulars of the International Maritime Organization (IMO):
A.694(17) [14], A.803(19) [15] amended by MSC.68(68) Annex 1 [17], A.804(19) [16], MSC.68(68) Annex 2 [17],
A.806(19) [18], MSC.68(68) Annex 3 [17], MSC 302(87) [12] and MSC/Circ.862 [19].
Equipment for generation, transmission and reception of DSC designed according to the following equipment classes:
• Class A: includes all the facilities defined in annex 1 of Recommendation ITU-R M.493-15 [2] and complies
Performance Standards A.803(19) for VHF [15], A.804(19) for MF [16] and A.806(19) for MF/HF equipment
capable of voice and DSC [18].
• Class D: provides minimum facilities for VHF DSC distress, urgency and safety as well as routine calling and
reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the GMDSS
and defined by Recommendation ITU-R M.493-15 [2].
• Class E: provides minimum facilities for MF and/or HF DSC distress, urgency and safety as well as routine
calling and reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the
GMDSS and Recommendation ITU-R M.493-15 [2].
• Class H: provides minimum facilities for handheld VHF DSC distress, urgency and safety as well as routine
calling and reception as recommended by IMO MSC/Circ.803 [i.2] for non-SOLAS vessels participating in the
GMDSS and Recommendation ITU-R M.493-15 [2].
• Class M: provides minimum facilities for VHF Man Overboard devices as defined in Recommendation
ITU-R M.493-15 [2].
NOTE 1: Class A equipment may support the optional semi-automatic/automatic service in accordance with
Recommendations ITU-R M.689-3 [4], M.1082-1 [5] and M.493-15 [2], tables A1-4.10.1 and A1-4.10.2
and are encouraged to do so.
NOTE 2: Class D and Class E equipment may also support the optional semi-automatic/automatic service.
NOTE 3: Class D, Class E, Class H should provide a defined list of functions as a closed list for these classes of
equipment is the preferable approach to ensure safe and simple operation. Optional functions should be
avoided, with the intention to provide the same functionality of all equipment of one class.

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The present document specifies technical characteristics and methods of measurements for fixed and in-motion Earth
Stations communicating with non-geostationary satellite systems (NEST) in the 11 GHz to 14 GHz FSS frequency
bands, which have the following characteristics:
• The NEST is designed for both in-motion and stationary operation.
• The NEST operates in-motion on various 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 NEST is operating as part of a satellite system used for the provision of broadband communications.
• The NEST is comprised of all the equipment, electrical and mechanical, from the antenna itself to the interface
with other communications equipment on a mobile platform.
• The NEST comprises one or more emitters and the system overview as given in Figure 1 should be interpreted
accordingly.
• The transmit and receive frequencies are shown in Table 1.ž
The NEST transmits within the frequency range from 14,0 GHz to 14,50 GHz.
• The NEST receives within the range from 10,70 GHz to 12,75 GHz. The NEST transmits at elevation angles
of 35° or greater, relative to the horizontal plane.
• The NEST uses linear or circular polarization.
• The NEST communicates with non-geostationary satellites.
• The NEST is designed for unattended operation.
• The NEST 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 NEST 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 manufacturer and
when installed as required by the manufacturer's declaration or in the user documentation.

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This part of IEC 60794 is a family specification that covers outdoor optical fibre cables intended
for rugged terrestrial rapid/multiple deployment. These cables, with enhanced mechanical,
environmental and ingress performance can be used wherever a rapid or multiple deployment
is relevant (e.g. mobile broadcast units, emergency rescue services, tactical ground-forces,
outdoor motion-robotics, mining machinery, temporary repair cables for damaged links, etc.).

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This part of IEC 62148 covers the physical dimension and interface specifications for discrete
vertical cavity surface emitting laser (VCSEL) devices in optical telecommunication and optical
data transmission applications.
The intent of this document is to adequately specify the physical requirements of VCSEL
devices that will enable mechanical interchangeability of laser devices or transmitters complying
with this document both at the printed circuit wiring board and for any panel-mounting
requirement

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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.
The AES has the following characteristics:
• These AESs are equipment for installation on aircraft.
• The AESs transmit in the 14,00 GHz to 14,50 GHz band receive within the range from 10,70 GHz to
12,75 GHz ("14 GHz"), referred to as "14 GHz AES" in the present document, are operating in one or more
frequency ranges of the Fixed-Satellite Service and Mobile-Satellite Service.
• The AESs transmit in the 12,75 GHz to 13,25 GHz band receive within the range from 10,70 GHz to
12,75 GHz ("13 GHz"), referred to as "13 GHz AES" in the present document, are operating in one or more
frequency ranges of the Fixed-Satellite Service.
NOTE 1: When the term "AES" used in the present document without stating 13 GHz AES or 14 GHz AES, it is a
reference to both 14 GHz AES and 13 GHz AES.
• 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 14 GHz 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 13 GHz AES operates with a GSO satellite network whose frequency assignments are from the List of
Appendix 30B of the Radio Regulations.
• 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 14 GHz AES does not transmit at elevation angles below 7° with respect to the local
horizontal plane, except at locations where transmissions below 7° 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 (CMFs): 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 specified by the manufacturer.
The technical requirements for the 14 GHz 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 technical requirements for the 13 GHz AES in regards to the PFD limits on earth for the protection of FS are based
on the ECC Decision (19)04 [6].
The present document is intended to cover the provisions of Directive 2014/53/EU [i.7] (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".
NOTE 2: The relationship between the present document and essential requirements of article 3.2 of Directive
2014/53/EU [i.7] is given in a

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This document gives specific requirements for halogen free polyolefin based sheathing compounds used for halogen free communication cables with improved characteristics in the case of fire.
Compounds, described by this document, are commonly also named HFFR or HFFR-LS (halogen free, flame/fire retardant, low smoke), see also EN 50290 2 20.
It is expected to be read in conjunction with EN 50290 2 20, the product standards EN 50288 series, EN 60794 series and other applicable product standards.
Improved characteristics in the case of fire are demonstrated by specific fire tests on cables for flame/fire retardant applications (e.g. single or bunched cable fire test). Additional tests to prove the characteristics in case of fire, e.g. such as smoke emission test, might also be part of the dedicated product standard or specification.
This document describes the compound types as given in Table 1.
Table 1 — Sheathing compounds
Compound grades   Max. operating temperature   Comment
Type 1   70°C   thermoplastic standard
Type 2   90°C   thermoplastic, higher temperature
Type 3   90°C   crosslinked, higher temperature

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This document gives specific requirements for halogen free polyolefin based sheathing compounds used for halogen free communication cables with improved characteristics in the case of fire.
Compounds, described by this document, are commonly also named HFFR or HFFR-LS (halogen free, flame/fire retardant, low smoke), see also EN 50290 2 20.
It is expected to be read in conjunction with EN 50290 2 20, the product standards EN 50288 series, EN 60794 series and other applicable product standards.
Improved characteristics in the case of fire are demonstrated by specific fire tests on cables for flame/fire retardant applications (e.g. single or bunched cable fire test). Additional tests to prove the characteristics in case of fire, e.g. such as smoke emission test, might also be part of the dedicated product standard or specification.
This document describes the compound types as given in Table 1.
Table 1 — Sheathing compounds
Compound grades   Max. operating temperature   Comment
Type 1   70°C   thermoplastic standard
Type 2   90°C   thermoplastic, higher temperature
Type 3   90°C   crosslinked, higher temperature

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This part of IEC 61290 applies to all commercially available optical amplifiers (OA) and optically
amplified subsystems. It applies to OA using optically pumped fibres (OFA based on either rareearth
doped fibres or on the Raman effect), semiconductors (SOA), and waveguides (POWA).
NOTE 1 The applicability of the test methods described in this document to distributed Raman amplifiers is for
further study.
The object of this document is to establish uniform requirements for accurate and reliable
measurements, by means of the optical power meter test method, of the following OA
parameters, as defined in IEC 61291-1:
a) nominal output signal power;
b) gain;
c) polarization-dependent gain;
d) maximum output signal power;
e) maximum total output power.
NOTE 2 All numerical values followed by (‡) are suggested values for which the measurement is assured. Other
values can be acceptable upon verification.
This document applies to single-channel amplifiers. For multichannel amplifiers,
IEC 61290-10 (all parts) applies.

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The present document specifies technical characteristics and methods of measurements for radiolocation equipment
with the following characteristics:
• intended to operate in maritime dynamic positioning systems functioning with full duplex links having a
duplex separation of 30 MHz;
• operating in the 9 GHz frequency band;
• with an integral antenna.

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This part of IEC 61300 evaluates the effect of loads which is possible to occur when fibre
optic devices are exposed to critical situations such as being stepped on, being run over by
vehicle tyres, when an evenly-distributed static load is applied to the top surface of a street
cabinet or when a load is applied to a street cabinet's open door.

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This part of IEC 60793 is applicable to category A4 optical multimode fibres and the related
subcategories A4a, A4b, A4c, A4d, A4e, A4g, A4h and A4i. These fibres have a plastic core
and plastic cladding and may have step-index, multi-step index or graded-index profiles. The
fibres are used in information transmission equipment and other applications employing similar
light transmitting techniques, and in fibre optic cables. Table 1 summarizes some of the salient
characteristics and applications of these fibres.In addition to the applications shown in Table 1, other applications for A4 fibres include, but are
not restricted to, the following: support for short reach, high bit-rate systems in telephony,
distribution and local networks, carrying data, voice and/or video services and on-premises
intrabuilding and interbuilding fibre installations, including local area networks (LANs), private
branch exchanges (PBXs), video, various multiplexing uses and miscellaneous related uses,
such as consumer electronics and industrial and mobile networks.
Three types of requirements apply to A4 fibres:
• general requirements, as defined in IEC 60793-2;
• specific requirements common to category A4 multimode fibres covered in this document
and which are given in Clause 4;
particular requirements applicable to individual fibre sub-categories and implementations or
specific applications which are defined in this document, in the normative family
specification annexes.

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This part of IEC 61280 specifies two main methods for the determination of low BER values by
making accelerated measurements. These include the variable decision threshold method
(Clause 5) and the variable optical threshold method (Clause 6). In addition, a third method,
the sinusoidal interference method, is described in Annex B.

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The present document applies to Land Mobile Earth Stations (LMESs) and Maritime Mobile Earth Stations (MMESs)
radio equipment with an EIRP of greater than or equal to 15 dBW and less than or equal to 33 dBW and which have the
following characteristics:
• the LMES could be either vehicle mounted or portable equipment;
• these MMESs are installable equipment on ships;
• these LMESs and MMESs are controlled and monitored by a Network Control Facility (NCF). The NCF is
outside the scope of the present document;
• the LMES and MMES operate through geostationary satellites as part of a network providing voice and/or data
communications;
• these LMESs and MMESs operate with user bit-rates greater than 9,6 kbits/s;
• the LMES and MMESs are capable of operating in any combination of all or any part of the frequency ranges
sub-band 1 and sub-band 2 defined in table 1a.

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The present document specifies technical characteristics and methods of measurements for Global Navigation Satellite
System (GNSS) User Equipment (GUE).
Global Navigation Satellite System (GNSS) User Equipment (GUE) is capable of operating as part of one or more
RadioNavigation-Satellite Service (RNSS) systems in the RNSS frequency bands given in table 1-1.
Table 1-1: RadioNavigation-Satellite Service (RNSS) frequency bands
RNSS frequency bands Comments
1 164 MHz to 1 300 MHz space-to-Earth
1 559 MHz to 1 610 MHz space-to-Earth
A GUE receives radio signals from one or more GNSS constellation for the purpose of radiodetermination of the
position, velocity and/or other characteristics of an object or the obtaining of information relating to those parameters,
by means of the propagation properties of radio waves. RNSS is defined as "A radiodetermination-satellite service used
for the purpose of radionavigation" (No. 1.43 of the ITU Radio Regulations [i.13]).
The present document applies to all GUE operating in the bands given in table 1-1 with the ability to receive any GNSS
constellation (e.g. BeiDou (BDS), Galileo, Global Navigation Satellite System (GLONASS), Global Positioning System
(GPS), Space Based Augmentation System (SBAS)).
NOTE: The relationship between the present document and essential requirements of article 3.2 of Directive
2014/53/EU [i.1] is given in annex A.

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This part of IEC 61169, which is a sectional specification (SS), provides information and rules for the preparation of detail specifications (DS) for series 2,2-5 RF coaxial connectors with quick-lock- or screw coupling, characteristic impedance 50 Ω, for operating frequencies up to 6 GHz. Typical use is in wireless telecommunication systems.
It describes mating face dimensions for general purpose connectors - grade 2, gauging information and tests selected from IEC 61169-1, applicable to all detail specifications relating to series 2,2-5 RF connectors.
This specification indicates recommended performance characteristics to be considered when writing a detail specification and it covers test schedules and inspection requirements for assessment levels M and H.
NOTE Metric dimension are original dimensions. All undimensioned pictorial configurations are for reference purpose only.

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The present document specifies technical characteristics and methods of measurements for fixed and in-motion Earth
Stations communicating with non-geostationary satellite systems (WBES) in the 11 GHz to 14 GHz FSS frequency
bands, which have the following characteristics:
• The WBES is further defined as one of two classes of Earth stations, class A and class B. The clauses in the
present document apply to both classes unless separately delineated.
• The WBES is designed for both in-motion and stationary operation.
• The WBES operates in-motion on various 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 WBES is operating as part of a satellite system used for the provision of broadband communications.
• The WBES is comprised of all the equipment, electrical and mechanical, from the antenna itself to the
interface with other communications equipment on a mobile platform.
• The WBES comprises one or more emitters and the system overview as given in figure 1 should be interpreted
accordingly.
• The transmit and receive frequencies are shown in table 1.
The WBES transmits within the frequency range from 14,0 GHz to 14,50 GHz.
• The WBES receives within the range from 10,70 GHz to 12,75 GHz.
• The Class A WBES transmits at elevation angles of 50° or greater, relative to the horizontal plane.
• The Class B WBES transmits at elevation angles of 25° or greater, relative to the horizontal plane.
• The WBES uses linear or circular polarization.
• The WBES communicates with non-geostationary satellites.
• The WBES is designed for unattended operation.
• The WBES 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 WBES 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 manufacturer and
when installed as required by the manufacturer's declaration or in the user documentation.
NOTE: The relationship between the present document and essential requirements of article 3.2 of Directive
2014/53/EU [i.7] is given in annex A.

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This part of IEC 60794 defines test procedures to measure the shrinkage of the sheath due to
thermal exposure of cables.
A first test method, F11A, is included for cables where the fibre or buffered fibre and the sheath
of the cable are intended to be fully terminated into a connector at one or both cable ends.
A second test method, F11B, is included in this document for sheath shrinkage testing for
general purpose.
See IEC 60794-1-2 for a reference guide to test methods of all types and for general
requirements.

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This part of IEC 61300 describes a procedure for determining the suitability of a fibre optic
interconnecting device or a passive component to withstand exposure to the optical power which
occurs during its operation.

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This part of IEC 60793 establishes uniform requirements for the mechanical characteristic: fibre
curl or latent curvature in uncoated optical fibres, i.e. a specified length of the fibre has been
stripped from coating. Fibre curl has been identified as an important parameter for minimizing
the splice loss of optical fibres when using passive alignment fusion splicers or active alignment
mass fusion splicers.
Two methods are recognized for the measurement of fibre curl, in uncoated optical fibres:
• method A: side view microscopy;
• method B: laser beam scattering.
Both methods measure the radius of curvature of an uncoated fibre by determining the amount
of deflection that occurs as an unsupported fibre end is rotated about the fibre's axis. Method A
uses visual or digital video methods to determine the deflection of the fibre while method B uses
a line sensor to measure the maximum deflection of one laser beam relative to a reference laser
beam.
By measuring the deflection behaviour of the fibre as it is rotated about its axis and
understanding the geometry of the measuring device, the fibre's radius of curvature can be
calculated from simple circular models, the derivation of which are given in Annex C.
Both methods are applicable to type B optical fibres as described in IEC 60793 (all parts).
Method A is the reference test method, used to resolve disputes.

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The present document gives the specification for the Digital Radio Mondiale (DRM) system for digital transmissions in
the broadcasting bands below 300 MHz.
With respect to the previous published version, the present document removes unused modulation features and defines
additional text handling features.

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This part of IEC 60794 is a detailed specification for duct and directly buried optical
telecommunication cables for use in premises cabling to ensure compatibility with
ISO/IEC 11801-1. This document's requirements ensure that the ISO/IEC 11801-1 models work
for generic cabling and system performances. Values in this document support these models.
The requirements of the family specification IEC 60794-3-10 are applicable to cables covered
by this document. Particular requirements detailed in Clause 5 either define a specific option
relative to the requirements of IEC 60794-3-10 or define additional requirements.

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The present document specifies technical characteristics and methods of measurements in respect of ElectroMagnetic
Compatibility (EMC) for the following equipment types:
1) digital cellular base station equipment, including BS with antenna ports and BS without antenna ports;
2) repeaters;
3) associated ancillary equipment.
Including individual and combinations of technologies listed in table 1.
Technical specifications related to the antenna port and emissions from the enclosure port of Base Station (BS),
combinations of radio and associated ancillary equipment or 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.
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.
NOTE: The relationship between the present document and essential requirements of article 3.1(b) of Directive
2014/53/EU [i.1] is given in Annex A.

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This part of IEC 60794-1 applies to optical fibre cables for use with telecommunications
equipment and devices employing similar techniques, and to cables having a combination of
both optical fibres and electrical conductors.
An objective of this document is to define general requirements and methodology guidance
applicable to all of the cable test methods of IEC 60794-1 (all parts).
A second objective of this document is to provide the end user with an overview of the different
test methods contained in the different parts of the IEC 60794-1 series, numbered -Xnn.
Table 1 shows the different parts.
These documents define test procedures to be used in establishing uniform requirements for
the geometrical, transmission, material, mechanical, ageing (environmental exposure) and
climatic properties of optical fibre cables, and electrical requirements where appropriate.
Throughout the documents, the wording "optical cable" can also include optical fibre units,
microduct fibre units, etc.
The secondary objective of this document is to provide the end user with useful guidance when
testing optical fibre cables.

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This part of IEC 61169, which is a sectional specification (SS), provides information and rules
for the preparation of detail specifications (DS) for RF coaxial connectors with inner diameter
of outer conductor 4,13 mm (0,163 in) with threaded coupling with a characteristic impedance
of 50 Ω (type SMA).
This document specifies mating face dimensions for high performance connectors – grade 1,
dimensional details of standard test connectors – grade 0, gauging information and tests
selected from IEC 61169-1, applicable to all detail specifications relating to series SMA RF
connectors.
This document indicates recommended performance characteristics to be considered when
writing a detail specification and it covers test schedules and inspection requirements for
assessment levels M and H.
The SMA types RF coaxial connectors are used with all kinds of RF cables and microstrips in
microwave transmission systems. The operating frequency is up to 18 GHz. These connectors
can be intermated with 3,5 mm (IEEE 287-2007) and 2,92 mm (IEC 61169-35) connectors.
NOTE Metric dimensions are original dimensions. All undimensioned pictorial configurations are for reference
purpose only.

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This part of IEC 61169, which is a sectional specification (SS), provides information and rules
for the preparation of detail specifications (DS) for series 1,35 mm RF coaxial connectors with
screw coupling, characteristic impedance 50 Ω, for operating frequencies up to 90 GHz.
Typical use in test and measurement applications.
It describes mating face dimensions for general purpose connectors – grade 1, dimensional
details of standard test connectors-grade 0, gauging information and tests selected from
IEC 61169-1, applicable to all detail specifications relating to series 1,35 mm RF connectors.
This specification indicates recommended performance characteristics to be considered when
writing a detail specification and it covers test schedules and inspection requirements for
assessment levels M and H.
NOTE Metric dimensions are original dimensions. All undimensioned pictorial configurations are for reference
purpose only.

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The present document specifies technical characteristics and methods of measurements for the following types of equipment:
Type 1 equipment: SRDs in data networks:
Type 1a: Terminal nodes
Type 1b: Network nodes
Type 1c: Network access points
Type 1a terminal nodes and type 1b network nodes are fixed SRDs, operating up to 500 mW e.r.p. and with adaptive power control, which are intended to operate in association with other SRDs to form data network topologies supporting the intended application.
Type 1c network access points are specific fixed SRDs, operating up to 500 mW e.r.p. and with adaptive power control, supporting interconnection of a network of SRDs with an external network or service.
These radio equipment types are capable of operating in all or part of the relevant frequency bands given in Table 1.

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The present document summarizes the available information of possible measurement techniques and procedures for the
conformance measurement of various signal formats (e.g. Ultra Wide Band) in order to comply with the given
transmission limits given in the current regulation.
The present document could be used as a reference for existing and future ETSI standards covering UWB and other
technologies.

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The present document provides measurement procedures for receiver requirements to address the spectrum efficiency
requirements of the RED [i.10].
The baseline receiver concept is a set of two parameters given in clause 5 of the present document providing guidance
for HS development, which can be further refined by the responsible TB.
Baseline receiver concept comprises the following parameters:
• Receiver Baseline Sensitivity (RBS); and
• Receiver Baseline Resilience (RBR).
The Baseline receiver concept is a further development of the signal interferer handling concept, see ETSI
TS 103 361 [i.4].

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The present document specifies technical characteristics and methods of measurements for ground based monostatic
ATC primary surveillance radars with the following characteristics:
• operating in the 2 700 MHz to 3 100 MHz frequency range;
• transmitter output peak power up to 100 kW;
• the transceiver-antenna connection uses a hollow metallic rectangular waveguide of type WR284/WG10/R32
according to IEC 60153-2 [i.6] with a minimum length between the output of the power amplifier and the
input to the antenna of 2,886 m (20 times the wavelength of the waveguide cut-off frequency);
• the antenna rotates, is waveguide-based and passive;
• the transceiver output uses a RF circulator.
NOTE 1: Phased array ATC primary surveillance radars are not covered by the present document.
NOTE 2: The relationship between the present document and essential requirements of article 3.2 of Directive
2014/53/EU [i.1] is given in annex A.

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The present document covers requirements to demonstrate that radio equipment both effectively uses and supports the
efficient use of radio spectrum in order to avoid harmful interference. The present document applies to satellite
communications Earth Stations (ES) with the following characteristics:
• The ES is designed for stationary operation.
• The ES 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 transmit and receive frequencies are shown in table 1.
The ES 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 ES. 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 ES 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 ES receives in one or more frequencies within the range from 17,30 GHz to 20,20 GHz (FSS).
• The ES uses linear or circular polarization.
• The ES operates through non-geostationary satellites.
• The ES is designed for unattended operation.
• The ES is controlled and monitored by a Network Control Facility (NCF). This function may be performed
centrally (e.g. for a network of ESs with a central hub) or it could be performed within the ES for autonomous
control. The NCF is outside the scope of the present document.
• The ES 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.5] apply for the ESs operating with the NGSO system for the protection of the
GSO networks (see No. 22.5D of the ITU RR [i.5]).
• ES operating in the 28,6 GHz to 29,1 GHz band: No. 9.11A of the ITU RR [i.5] applies to the NGSO network
of the ES, 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.5]).
• The ES has one or more directive antennas that track satellites.
The present document applies to the ES 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 manufacturer and when
installed as required by the manufacturer's declaration or in the user documentation.
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 [i.1] 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.
NOTE 3: The relationship between the present document and essential requirements of article 3.2 of Directive
2014/53/EU [i.1] is given in annex A.

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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 table 1, including the
associated ancillary equipment, in respect of electromagnetic compatibility.
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, see
table 1.processing and protection switch, (de)modulator, transmitter, receiver, RF filters, branching networks and 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.
NOTE: The relationship between the present document and essential requirements of article 3.1(b) of Directive
2014/53/EU [i.1] is given in annex A.

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IEC 63138-2:2020, which is a sectional specification (SS), provides information and rules for the preparation of detail specifications (DS) for MQ4 series circular connectors with four RF channels, as well as a detailed specification of the blank format. An MQ4 series circular connector with 50 Ω nominal impedance has four RF channels which can be engaged and disengaged at the same time. There are two versions of plug connectors, one is a quick-lock version, and the other is a threaded version. The socket connector provides two coupling mechanisms, a quick-lock and a threaded coupling.
This document also specifies the mating face dimensions and gauging information of MQ4 series circular connectors, and tests selected from IEC 63138-1, applicable to all detail specifications relating to MQ4 series circular connectors.

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IEC 61300-3-30:2020 is available as IEC 61300-3-30:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 61300-3-30:2020 describes a method of measuring the end face geometry of rectangular multifibre ferrules having an IEC defined optical interface. The primary attributes are fibre position relative to the end face, either withdrawal or protrusion, end face angle relative to the guide pin bores, fibre tip radii and core dip for multimode fibres. This second edition cancels and replaces the first edition published in 2003. This edition constitutes a technical revision.This edition includes the following significant technical changes with respect to the previous edition: - measurement of the individual fibre tip radii; - introduction of the geometry limit (GL) metric; - introduction of the minus coplanarity metric; - new method for measuring the core dips; - all measurement regions are now identical for MM and SM fibres; - the ferrule surface angle sign convention has been changed.

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This part of IEC 61300 defines the encircled angular flux measurement of multimode waveguide light sources, in which most of the transverse modes are excited. The term "waveguide" is understood to include both channel waveguides and optical fibres but not slab waveguides. The applicable fibre types are the followings: - A1 specified in IEC 60793-2-10; - A3 specified in IEC 60793-2-30; - A4 specified in IEC 60793-2-40.

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IEC 63185:2020 relates to a measurement method for complex permittivity of a dielectric substrates at microwave and millimeter-wave frequencies. This method has been developed to evaluate the dielectric properties of low-loss materials used in microwave and millimeter-wave circuits and devices. It uses higher-order modes of a balanced-type circular disk resonator and provides broadband measurements of dielectric substrates by using one resonator, where the effect of excitation holes is taken into account accurately on the basis of the mode-matching analysis.

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