General

The present document specifies transport and encapsulation protocols, and signalling for carrying general purpose data
over DVB Transport Streams. The present document is designed to be used in conjunction with ETSI EN 300 468 [2].
Data broadcasting is an important extension of the MPEG-2 based DVB transmission standards. Examples are the
download of software over satellite, cable or terrestrial links, the delivery of Internet services over broadcast channels
(IP tunnelling), interactive TV, etc.

The present document specifies technical characteristics and methods of measurements for ground based monostatic ATC solid state primary surveillance radars that are intended to work with a waveguide-based rotating passive antenna and have the following characteristics:

• operation in the 1 215 MHz to 1 400 MHz frequency range;

• transmitter output peak power up to 100 kW;

• the transceiver output uses an RF circulator;

• a piece of waveguide of at least 66 cm is integral to the transceiver.

NOTE 1: Phased array ATC primary surveillance radars are not covered by the present document.

NOTE 2: 66 cm equals 2 times the cut-off wavelength of a WR650/WG6/R14 waveguide which is typically used in

the 1 215 MHz to 1 400 MHz frequency range.

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. 

The present document specifies technical requirements, limits and test methods for Level Probing Radar (LPR) 
equipment operating in the frequency ranges 6 GHz to 8,5 GHz, 24,05 GHz to 26,5 GHz, 57 GHz to 64 GHz, 75 GHz to 
85 GHz for strictly vertical downward installation in outdoor as well as indoor environments. 
Level Probing Radars in the scope of the present document consist of a combined transmitter and receiver and are 
equipped with an integral or dedicated antenna provided also by the EUT manufacturer. EUTs intended to be equipped 
with antennas from third-party manufacturers are not covered by the scope of the present document. 
LPR equipment and the related categorization is further specified in clause 4.2. 
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.

The present document provides an overview of the Recommendation ITU-T X.509 | ISO/IEC 9594-8 [i.3] based 
certificate profiles and the statements for EU Qualified Certificates specified in other parts of ETSI EN 319 412 ([i.4] to 
[i.7]). It specifies common data structures that are referenced from other parts of ETSI EN 319 412 ([i.4] to [i.7]). 
The profiles specified in this multi-part deliverable aim to support both Regulation (EU) No 910/2014 [i.9] and the use 
of certificates in a wider international context. Within the European context, it aims to support both EU Qualified 
Certificates and other forms of certificate.

The present document specifies requirements on the content of certificates issued to natural persons. This profile builds 
on IETF RFC 5280 [1] for generic profiling of Recommendation ITU-T X.509 | ISO/IEC 9594-8 [i.3]. 
This profile supports the requirements of EU Qualified Certificates as specified in the Regulation (EU) 
No 910/2014 [i.5] as well as other forms of certificate. The scope of the present document is primary limited to 
facilitate interoperable processing and display of certificate information. This profile therefore excludes support for 
some certificate information content options, which can be perfectly valid in a local context but which are not regarded 
as relevant or suitable for use in widely deployed applications. 
The present document focuses on requirements on certificate content. Requirements on decoding and processing rules 
are limited to aspects required to process certificate content defined in the present document. Further processing 
requirements are only specified for cases where it adds information that is necessary for the sake of interoperability. 
Certain applications or protocols impose specific requirements on certificate content. The present document is based on 
the assumption that these requirements are adequately defined by the respective application or protocol. It is therefore 
outside the scope of the present document to specify such application or protocol specific certificate content. 

The present document specifies a certificate profile for web site certificates that are accessed by the TLS protocol [i.1]. 
The profile defined in the present document builds on the CA/Browser Forum Baseline requirements [2], Extended 
validation guidelines [3] and other parts of the present multi-part deliverable. 
The present document focuses on requirements on certificate content. Requirements on decoding and processing rules 
are limited to aspects required to process certificate content defined in the present document. Further processing 
requirements are only specified for cases where it adds information that is necessary for the sake of interoperability. 
This profile can be used for legal and natural persons. For certificates issued to legal persons, the profile builds on the 
CA/Browser Forum EV Profile [3] or baseline requirements [2]. For certificates issued to natural persons, the profile 
builds only on CA/Browser Forum baseline requirements [2].

The present document defines specific QCStatement for the qcStatements extension as defined in IETF RFC 3739 [2],
clause 3.2.6, including requirements for their use in EU qualified certificates. Some of these QCStatements can be used
for other forms of certificate.
The QCStatements defined in the present document can be used in combination with any certificate profile, either
defined in ETSI EN 319 412-2 [i.2], ETSI EN 319 412-3 [i.5] and ETSI EN 319 412-4 [i.6], or defined elsewhere.
The QCStatements defined in clause 4.3 can be applied to regulatory environments outside the EU. Other requirements
specified in clause 4 are specific to Regulation (EU) No 910/2014 [i.8] but may be adapted for other regulatory
environments.

The present document specifies technical requirements, limits and test methods for Tank Level Probing Radar (TLPR) 
equipment operating in the frequency ranges 4,5 GHz to 7 GHz, 8,5 GHz to 10,6 GHz, 24,05 GHz to 27 GHz, 57 GHz 
to 64 GHz and 75 GHz to 85 GHz. 
Tank Level Probing Radars in the scope of the present document consist of a combined transmitter and receiver and are 
equipped with an integral or dedicated antenna provided and specified by the EUT manufacturer. 
Further details of the covered TLPR EUT can be found in clause 4.2 of the present document. 
Technical and regulatory requirements for TLPR are provided in European Commission Implementing Decision (EU) 
2025/105 [i.5]. 
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. 

The present document specifies the technical requirements, limits and test methods for material sensing devices using
UWB technology exterior material sensing devices for ground based vehicles below 10,6 GHz.
The present document only covers non-contact based UWB material sensing devices with antenna connectors according
to ECC/DEC(07)01 [i.1] and Commission Decision 2024/1467/EU [i.2].
Further details of the covered EUT for external material sensing applications for ground-based vehicles and the related
categories can be found in clause 4.2 of the present document.
NOTE: The relationship between the present document and essential requirements of article 3.2 of
Directive 2014/53/EU [i.3] is given in annex A.

The present document specifies technical characteristics, limits and methods of measurements for Ultra Short Range
Communication (USRC) equipment operating in the 57 GHz to 64 GHz frequency range.
Further details for the covered Ultra Short Range Communication (USRC) equipment can be found in clause 4.2 of the
present document.
NOTE: The relationship between the present document and essential requirement of article 3.2 of Directive
2014/53/EU [i.4] is given in Annex A.

The present document defines multiple profiles for PAdES digital signatures which are digital signatures embedded 
within a PDF file. 
The present document contains a profile for the use of PDF signatures, as described in ISO 32000-2 [1] and based on 
CMS digital signatures [i.6], that enables greater interoperability for PDF signatures by providing additional restrictions 
beyond those of ISO 32000-2 [1]. This first profile is not related to ETSI EN 319 142-1 [4]. 
The present document also contains a second set of profiles that extend the scope of the profile in ETSI 
EN 319 142-1 [4], while keeping some features that enhance interoperability of PAdES signatures. These profiles 
define three levels of PAdES extended signatures addressing incremental requirements to maintain the validity of the 
signatures over the long term, in a way that a certain level always addresses all the requirements addressed at levels that 
are below it. These PAdES extended signatures offer a higher degree of optionality than the PAdES baseline signatures 
specified in ETSI EN 319 142-1 [4]. 
The present document also defines a third profile for usage of an arbitrary XML document signed with XAdES 
signatures that is embedded within a PDF file. 
The profiles defined in the present document provide equivalent requirements to profiles found in ETSI 
TS 102 778 [i.10]. 
Procedures for creation, augmentation, and validation of PAdES digital signatures are out of scope and specified in 
ETSI EN 319 102-1 [i.11]. Guidance on creation, augmentation and validation of PAdES digital signatures including 
the usage of the different attributes is provided in ETSI TR 119 100 [i.9]. 
The present document does not repeat the base requirements of the referenced standards, but instead aims to maximize interoperability of digital signatures in various business areas. 

The present document defines the characteristics and requirements of antennas for point-to-point radio equipment 
operating in the frequency range from 1 GHz to 174,8 GHz falling within the scope (see note) of ETSI 
EN 302 217-2 [i.2]. 
For technical commonalities that range is here divided into sub-ranges as follows: 
Range 0: 1 GHz to 3 GHz; 
Range 1: 3 GHz to 14 GHz; 
Range 2: 14 GHz to 20 GHz; 
Range 3: 20 GHz to 24 GHz; 
Range 4: 24 GHz to 30 GHz; 
Range 5: 30 GHz to 47 GHz; 
Range 6: 47 GHz to 71 GHz; 
Range 7: 71 GHz to 86 GHz; 
Range 8: 92 GHz to 114,25 GHz; 
Range 9: 130 GHz to 174,8 GHz. 
The present document is applicable to fixed radio equipment with integral (see note) or dedicated antennas. 
NOTE: For information, ETSI EN 302 217-2 [i.2] includes in its scope only the use of detachable integral 
antennas; undetachable integral antennas are not considered due to the present lack of radiated test 
procedures for the radio equipment parameters. 
The present document also applies to stand-alone antennas, placed separately on the market. In this case the present 
document is to be used by radio equipment manufacturers to provide guidance as to the information for the user, as 
required by article 10 paragraph 8 of Directive 2014/53/EU [i.1], regarding the antenna characteristics required so as the 
radio equipment, supplied without antenna, can operate as intended in its technical documentation. 
The present document is applicable to fixed beam antennas, as well as to "self-alignment tracking" antenna, with limited 
tracking range, so that all requirements in the present document are respected throughout the tracking angle indicated in 
the technical documentation. 
The main body of the present document specifies the characteristics that define the various antenna classes, whilst the 
annexes provide additional information that is useful to both antenna manufacturers and user/installers.

The present document specifies technical characteristics and methods of measurements for Point-to-point (P-P) Digital
Fixed Radio Systems (DFRS) operating in frequency bands allocated to Fixed Service (FS) from 1 GHz to 174,8 GHz,
corresponding to the appropriate frequency bands from 1,4 GHz to 174,8 GHz as described in relevant annexes B
through L.
Systems in the scope of the present document are generally intended to operate in full Frequency Division Duplex
(FDD) and cover also unidirectional links applications. Time Division Duplex (TDD) applications, when possibly
applicable in a specific band, are explicitly mentioned as appropriate in the relevant annexes B through L.
Other possible prescriptions, limitations and requirements, for operation in specific bands are also explicitly mentioned,
as appropriate, in the relevant annexes B through L.
Systems in the scope of the present document are intended to operate only in combination with directive fixed gain
antennas respecting the technical requirements in ETSI EN 302 217-4 [6]. Systems in the scope of the present document
may be composed by equipment without antennas (see informative annex Q for background) or equipment including
integral (but physically detachable) or dedicated antenna.
Systems including integral antennas physically undetachable from the radio equipment are not in the scope of the
present document (see note 1).
NOTE 1: For additional information, the rationale is that the present document as well as ETSI EN 301 126-1 [1]
(radio equipment parameters testing) do not provide radiated test methods and ETSI EN 301 126-3-1 [2]
(antenna parameters testing) does not provide test methods for undetachable antennas; future revisions
could fill this vacancy.
NOTE 2: The relationship between the present document and the essential requirements of article 3.2 of
Directive 2014/53/EU [i.1] is given in annex A.

The present document details standardized procedures for conformance test of radio interface parameters for Point to
Point (PP) equipment used for Digital Fixed Radio Systems (DFRS). Three sets of procedures (for ER, OR and CP) are
considered in the scope of the present document:
• Procedures for radio parameters relevant to Essential Requirements (ER) and Optional Requirements (OR),
relevant to article 3.2 of Directive 2014/53/EU [i.1]. Requirements for these parameters are detailed in ETSI
EN 302 217-2 [9].
• Procedures for Complementary Requirements (CP) that, even if not considered "essential" in the light of
article 3.2 of Directive 2014/53/EU [i.1], are considered important for the operations of PP equipment. These
parameters are detailed in clause 8 of ETSI EN 302 217-1 [8].
The present document is mainly intended to be applied in conjunction with the above equipment relevant standards and
will enable commonality of test results, irrespective of the body carrying out the test.
However, the present document can be used also in conjunction with other DFRS relevant standards that would refer to
the parameters and test methods hereby described.
The conformance tests described in the present document are those related to radio specific parameters required directly
by the radio equipment relevant standards at antenna ports in conducted test methods. Conformance tests to other
boundary standards (e.g. those for system input/output interfaces (i.e. set at X/X' interface, shown in figure 2, and
related baseband process) are outside the scope of the present document.
Also, tests described in the present document are not applicable to radio equipment with integral antenna of
undetachable antenna type requiring radiated test methods.

The present document details standardized procedures for conformance test of radio interface parameters for Point to
Point (PP) equipment used for Digital Fixed Radio Systems (DFRS). Three sets of procedures (for ER, OR and CP) are
considered in the scope of the present document:
• Procedures for radio parameters relevant to Essential Requirements (ER) and Optional Requirements (OR),
relevant to article 3.2 of Directive 2014/53/EU [i.1]. Requirements for these parameters are detailed in ETSI
EN 302 217-2 [9].
• Procedures for Complementary Requirements (CP) that, even if not considered "essential" in the light of
article 3.2 of Directive 2014/53/EU [i.1], are considered important for the operations of PP equipment. These
parameters are detailed in clause 8 of ETSI EN 302 217-1 [8].
The present document is mainly intended to be applied in conjunction with the above equipment relevant standards and
will enable commonality of test results, irrespective of the body carrying out the test.
However, the present document can be used also in conjunction with other DFRS relevant standards that would refer to
the parameters and test methods hereby described.
The conformance tests described in the present document are those related to radio specific parameters required directly
by the radio equipment relevant standards at antenna ports in conducted test methods. Conformance tests to other
boundary standards (e.g. those for system input/output interfaces (i.e. set at X/X' interface, shown in figure 2, and
related baseband process) are outside the scope of the present document.
Also, tests described in the present document are not applicable to radio equipment with integral antenna of
undetachable antenna type requiring radiated test methods.

The present document specifies policy and security requirements for the issuance, maintenance and life-cycle 
management of EU qualified certificates as defined in Regulation (EU) No 910/2014 [i.1]. These policy and security 
requirements support reference certificate policies for the issuance, maintenance and life-cycle management of EU 
qualified certificates issued to natural persons (including natural persons associated with a legal person or a website) 
and to legal persons (including legal persons associated with a website), respectively. 
The present document does not specify how the requirements identified can be assessed by an independent party, 
including requirements for information to be made available to such independent assessors, or requirements on such 
assessors. 
NOTE: See ETSI EN 319 403 [i.6] for guidance on assessment of TSP's processes and services. The present 
document references ETSI EN 319 411-1 [2] for general requirements on TSP issuing certificates