General

The present document specifies technical characteristics and methods of measurements for equipment implementing the 
Digital Enhanced Cordless Telecommunications (DECT) common interface, as specified in the multi-part technical 
specification ETSI EN 300 175 including the variants DECT Evolution and DECT ULE (see ETSI EN 300 175-1 [i.3] 
for an overview). 
The present document applies to the following equipment types: 
a) 
b) 
c) 
d) 
e) 
Fixed Part (FP); 
Portable Part (PP); 
Cordless Terminal Adapter (CTA); 
Wireless Relay Station (WRS) (FP and PP combined); 
Hybrid Part (HyP) (a PP with capability to act as a FP to provide PP to PP communication). 
NOTE: This release of the standard covers the WRS type CRFP, but not the WRS type REP. 
These radio equipment types are capable of operating in all or any part of the frequency bands given in table 1. 
Table 1: Radiocommunications service frequency bands 
Radiocommunications service 
frequency bands 
Transmit 
Receive 
1 880 MHz to 1 900 MHz 
1 880 MHz to 1 900 MHz 
The DECT service frequency band for transmitting and receiving for all elements is 1 880 MHz to 1 900 MHz.  
National regulation can allow additional frequency bands. 
DECT equipment covered by the present document is operated in accordance with ERC Decision (98)22 [i.20]. 
Details of the DECT Common Interface may be found in the multi-part deliverable ETSI EN 300 175 (see [1] to [4] and 
[i.3] to [i.6]). Further details of the DECT system may be found in the ETSI TR 101 178 [i.1]. 
DECT ULE implements, in addition to the DECT Common Interface, the multi-part ETSI TS 102 939 (see ETSI 
TS 102 939-1 [i.7] and ETSI TS 102 939-2 [i.8]). 
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. 
NOTE: The relationship between the present document and essential requirements of article 3.2 of Directive 2014/53/EU [i.10] is given in annex A. 

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 defines Product Specific Requirements for Life Cycle Assessment (LCA) of Smartphones so that 
it is possible to compare the LCA between different smartphone models on SKU level (e.g. considering different 
memory configurations). The present document provides a methodology for evaluating the environmental impact of 
smartphones objectively and transparently and is based upon the Life Cycle Assessment (LCA) framework standardized 
in ETSI ES 203 199 [1] and IEC 63366 [i.1]. The purpose of the present document is to: 
• Provide smartphone-specific requirements, i.e. Product Specific Rules (PSR), in addition to those of ETSI 
ES 203 199 [1] and IEC 63366 [i.1] to ensure comparability of LCA studies of smartphones on SKU level. 
• Harmonize the LCAs of smartphones. 
• Increase the transparency and facilitate the interpretation of LCA studies of smartphones. 
• Facilitate the communication of LCA studies of smartphones on SKU level. 
The present document is valid for all types of smartphones. Moreover, the present document defines a set of 
requirements for which the LCA practitioners will comply. Comparisons of results from LCA studies of smartphones 
which belong to the same product family, including assessments which have been performed by different organizations, 
are within the scope of the present document.

The present document specifies the Service Information (SI) data which forms a part of Digital Video Broadcasting 
(DVB) bitstreams, in order that the user can be provided with information to assist in selection of services and/or events 
within the bitstream, and so that the Integrated Receiver Decoder (IRD) can automatically configure itself for the 
selected service. SI data for automatic configuration is mostly specified within ISO/IEC 13818-1 [1] as Program 
Specific Information (PSI). 
The present document specifies additional data which complements the PSI by providing data to aid automatic tuning of 
IRDs, and additional information intended for display to the user. The manner of presentation of the information is not 
specified in the present document, and IRD manufacturers have freedom to choose appropriate presentation methods. 
It is expected that Electronic Programme Guide (EPG) will be a feature of Digital TeleVision (TV) transmissions. 
The definition of an EPG is outside the scope of the present document (i.e. the SI specification), but the data contained 
within the SI specified in the present document may be used as the basis for an EPG. 
Rules of operation for the implementation of the present document are specified in ETSI TS 101 211 [i.1]. 

The present document specifies technical cybersecurity product requirements and corresponding assessment criteria for 
boot managers. The products with digital elements in scope, there after "the products": 
• are specified within the technical description of the category of product number 8 by the Commission 
Implementing Regulation (EU) 2025/2392 [i.2] as: - 
"Software products with digital elements that manage the process of initial system startup after power 
on/restart by initialising hardware, loading or transferring control to the operating system environment or 
system resources, and selecting boot options. This category includes but is not limited to UEFI firmware, 
single-stage and multi-stage boot loaders." 
• are only covered within the product context described in clause 4. 
The scope covers software and firmware components that manage the boot process from power-on through 
establishment of the chain of trust to handoff to the boot target. Products in scope include boot management software 
and firmware regardless of distribution model or integration level. These are: 
• System firmware that performs hardware initialisation and boot management. 
• Bootloaders that manage boot target selection, verification, and loading. 
• Embedded boot firmware in IoT and embedded devices. 
• Network boot implementations enabling remote boot capabilities. 
• Boot managers that integrate with hardware security components for chain of trust establishment. 
NOTE 1: Boot managers may be single-stage (direct loading) or multi-stage (staged verification). 
NOTE 2: For microcontrollers (MCUs) and microprocessors (MPUs): 
• Silicon-integrated immutable firmware: Mask ROM, fused code, or boot firmware integrated during chip 
manufacturing is assessed as part of MCU/MPU hardware under semiconductor standards. 
• Updateable boot managers: Boot software in flash storage (including OTP programmed post-manufacture) is 
assessed using the present document when distinctly identifiable or independently updatable. 
NOTE 3: Runtime services executing after boot target handoff (such as secure monitor mode handlers or attestation 
services) are in scope only if they provide verification or attestation services to the boot process itself, not 
to the boot target. 
The present document covers those products to demonstrate compliance with essential cybersecurity requirements in the 
Regulation (EU) 2024/2847 [i.1], Annex I Part I under the conditions identified in Annex A. 

The present document defines classes of environmental conditions and their severities to which telecommunication
equipment may be exposed. The severities specified are those which will have a low probability of being exceeded;
generally less than 1 % of the time of a transport.
The present document applies to equipment being transported from one place to another after being made ready for
dispatch from the manufacturer's works. The most commonly used methods of transportation have been taken into
account, i.e. ground, water and air transport. Loading and unloading as well as temporary storage, have been included.
Where the equipment is packaged the environmental conditions apply to the packaged equipment.
NOTE: Normal transportation time is considered to be 30 days or less. Where the total transportation time
exceeds 30 days then additional storage or packaging precautions should be considered.
The tests applicable to verify the compliance with the transportation and handling environmental classes of the present
document, are defined in ETSI EN 300 019-2-2 [i.5].

The present document applies to the following radio equipment type: 
• User Equipment for Evolved Universal Terrestrial Radio Access (E-UTRA). 
This radio equipment type is capable of operating in all or any part of the frequency bands given in tables from 1-1 
through 1-5. 
Table 1-1: E-UTRA UE operating bands 
E-UTRA Band Direction of UE transmission E-UTRA operating bands Related EC/ECC 
decision 
1 Transmit 1 920 MHz to 1 980 MHz [i.21] and [i.22] Receive 2 110 MHz to 2 170 MHz 
3 Transmit 1 710 MHz to 1 785 MHz [i.19] and [i.20] Receive 1 805 MHz to 1 880 MHz 
7 Transmit 2 500 MHz to 2 570 MHz [i.24] and [i.25] Receive 2 620 MHz to 2 690 MHz 
8 Transmit 880 MHz to 915 MHz [i.19] and [i.20] Receive 925 MHz to 960 MHz 
20 Transmit 832 MHz to 862 MHz [i.6] and [i.7] Receive 791 MHz to 821 MHz 
22 Transmit 3 410 MHz to 3 490 MHz [i.26] and [i.27] Receive 3 510 MHz to 3 590 MHz 
28 
(see note 6) 
Transmit 703 MHz to 748 MHz [i.14] and [i.15] Receive 758 MHz to 803 MHz 
31 Transmit 452,5 MHz to 457,5 MHz [i.16] Receive 462,5 MHz to 467,5 MHz 
32 
(see note 1) 
(see note 2) 
Transmit N/A  
Receive 1 452 MHz to 1 496 MHz [i.17] and [i.18] 
33 Transmit and Receive 1 900 MHz to 1 920 MHz [i.22] 
34 Transmit and Receive 2 010 MHz to 2 025 MHz [i.22] 
38 Transmit and Receive 2 570 MHz to 2 620 MHz [i.24] and [i.25] 
40 Transmit and Receive 2 300 MHz to 2 400 MHz [i.23] 
41 (note 7) Transmit and Receive 2 496 MHz to 2 690 MHz [i.24] and [i.25] 
42 Transmit and Receive 3 400 MHz to 3 600 MHz [i.26] and [i.27] 
43 Transmit and Receive 3 600 MHz to 3 800 MHz [i.26] and [i.27] 
46 
(see note 3) 
(see note 4) 
Transmit and Receive  5 150 MHz to 5 925 MHz [i.29] and [i.30] 
65 
(see note 5) 
Transmit 1 920 MHz to 2 010 MHz [i.21], [i.22] and [i.28] Receive 2 110 MHz to 2 200 MHz 
67 Transmit N/A  
Receive 738 MHz to 758 MHz [i.14] and [i.15] 
68 Transmit 698 MHz to 728 MHz [i.14], [i.15] and [i.31]  Receive 753 MHz to 783 MHz 
69 
(see note 1) 
Transmit N/A  
Receive 2 570 MHz to 2 620 MHz [i.24] and [i.25] 
72 Transmit 451 MHz to 456 MHz [i.16] Receive 461 MHz to 466 MHz 
87 Transmit 410 MHz to 415 MHz [i.16] Receive 420 MHz to 425 MHz 
88 Transmit 412 MHz to 417 MHz [i.16] Receive 422 MHz to 427 MHz 
 
ETSI 
Final draft ETSI EN 301 908-13 V13.4.1 (2026-06) 14 
E-UTRA Band Direction of UE transmission E-UTRA operating bands Related EC/ECC 
decision 
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: In Europe, according to [i.17] and [i.18], radio equipment in band 32 operates between 1 452 MHz and 
1 492 MHz. 
NOTE 3: This band is an unlicensed band restricted to licensed-assisted operation using Frame Structure Type 3. In 
Europe according to [i.29] and [i.30], radio equipment in band 46 operates between 5 150 MHz and 
5 725 MHz as in table 1-1A. 
NOTE 4: In this version of the present document, restricted to E-UTRA DL operation when carrier aggregation is 
configured. 
NOTE 5: A UE that complies with the E-UTRA Band 65 minimum requirements in the present document also complies 
with the E-UTRA Band 1 minimum requirements. This band includes two frequency ranges that are 
harmonised in Europe:  
a) According to [i.21] and [i.22], radio equipment in band n65 operates between 2 110 MHz and 2 170 MHz 
for the transmitter (FDL_low = 2 110 MHz and FDL_high = 2 170 MHz), and between 1 920 MHz and 
1 980 MHz for the receiver (FUL_low = 1 920 MHz and FUL_high = 1 980 MHz). 
b) Based on [i.29], radio equipment in band n65 operates between 2 170 MHz and 2 200 MHz for the 
transmitter (FDL_low = 2 170 MHz and FDL_high = 2 200 MHz) and between 1 980 MHz and 2 010 MHz for 
the receiver (FUL_low = 1 980 MHz and FUL_high = 2 010 MHz) as the Complementary Ground 
Component (CGC) of a Mobile-satellite service by reference to the present Harmonised Standard. 
NOTE 6: In Europe, according to [i.14], [i.15] and [i.31], radio equipment in band 28 operates between 703 MHz to 
736 MHz for the transmitter (FUL_low = 703 MHz and FUL_high = 736 MHz) and between 758 MHz to 791 MHz 
for the receiver (FDL_low = 758 MHz and FDL_high = 791 MHz). 
NOTE 7: In Europe according to [i.24] and [i.25], radio equipment in band 41 operates between 2 570 MHz and 
2 620 MHz (FDL_low = 2 570 MHz and FDL_high = 2 620 MHz). 
 
NOTE 1: The relationship between the present document and essential requirements of article 3.2 of 
Directive 2014/53/EU [i.2] is given in annex A. 
Table 1-1A: Sub-bands for band 46 
E-UTRA Band 
46a 
46b 
46c 
NOTE:  The sub-bands 46a and 46b are restricted to indoor use only. 
 
Table 1-2: E-UTRA UE Intra-band contiguous CA operating bands 
E-UTRA CA Band 
CA_1 
CA_3 
CA_7 
CA_38 
CA_40 
CA_41 
CA_42 
 
 
ETSI 
Final draft ETSI EN 301 908-13 V13.4.1 (2026-06) 15 
Table 1-3: E-UTRA UE Inter-band CA operating bands (two bands) 
E-UTRA CA Band 
CA_1-3 
CA_1-7 
CA_1-8 
CA_1-20 
CA_1-41 
CA_1-42 
CA_1-46 
CA_3-7 
CA_3-8 
CA_3-20 
CA_3-28 
CA_3-41 
CA_3-42 
CA_3-46 
CA_7-20 
CA_7-28 
CA_7-46 
CA_8-20 
CA_8-40 
CA_8-41 
CA_20-32 
CA_41-42 
CA_41-46 
CA_42-46 
CA_20-67 
 
Table 1-4: E-UTRA UE Inter-band CA operating bands (three bands) 
E-UTRA CA Band 
CA_1-3-8 
CA_1-3-20 
CA_1-7-20 
CA_3-7-20 
CA_3-41-42 
 
Table 1-5: Intra-band non-contiguous CA operating bands (with two sub-blocks) 
E-UTRA CA Band 
CA_3-3 
CA_7-7 
CA 41-41 
CA_42-42 
 
E-UTRA NB-IoT is designed to operate in the E-UTRA operating bands 1, 3, 8, 20, 28 and 65 defined in table 1-1. The 
present document covers requirements for E-UTRA FDD and E-UTRA TDD User Equipment from 3GPP™ Releases 8, 
9, 10, 11, 12, and 13 defined in ETSI TS 136 101 [3]. This includes the requirements for E-UTRA UE operating bands 
and E-UTRA CA operating bands from 3GPP™ Release 13 defined in ETSI TS 136 101 [3]. 
NOTE 2: For Band 20: 

 For user equipment designed to be mobile or nomadic, the requirements in the present document 
measured at the antenna port also show conformity to the corresponding requirement defined as 
Total Radiated Power (TRP), as described in Commission Decision 2010/267/EU [i.6] and 
ECC Decision (09)03 [i.7]. 

 For user equipment designed to be fixed or installed, the present document does not address the 
requirements described in Commission Decision 2010/267/EU [i.6] and ECC Decision (09)03 [i.7]. 
16
Final draft ETSI EN 301 908-13 V13.4.1 (2026-06)
NOTE 3:  TRP/TRS requirements only applicable to the devices wider than or equal to 56 mm and narrower than or 
equal to 92 mm.  
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.

The present document specifies technical requirements and corresponding assessment criteria for password managers 
related to cybersecurity. The products with digital elements in scope, thereafter "the product": 
• are specified within the "technical description" of the "category of product" number "NN" by the Commission 
Implementing Regulation (EU) 2025/2392 [i.2] as:  
"Products with digital elements that store passwords, locally on a device or on a remote server, including 
activities such as generation of passwords as well as password sharing and integration with local or third
party applications for usage of passwords. 
This category includes but is not limited to local password managers, password managers provided as 
browser extensions, enterprise password managers as well as hardware-based password managers". 
• are only covered within the product context described in clause 4. 
The present document covers those products to demonstrate compliance with essential cybersecurity requirements in the 
Regulation (EU) 2024/2847 [i.1], Annex I Part I under the conditions identified in annex A. 
Password Managers: a subset of identity and access management systems.For other types of authentication mechanisms, 
see the IAM standard prEN 40000-10 [i.10] currently drafted by CEN TC 224. Consult clause 3.1 for the product definition.