CEN

ISO 15118-5:2018 specifies conformance tests in the form of an Abstract Test Suite (ATS) for a System Under Test (SUT) implementing an Electric Vehicle or Supply Equipment Communication Controller (EVCC or SECC) with support for PLC-based High Level Communication (HLC) and Basic Signaling according to ISO 15118‑3. These conformance tests specify the testing of capabilities and behaviors of an SUT, as well as checking what is observed against the conformance requirements specified in ISO 15118‑3 and against what the implementer states the SUT implementation's capabilities are.
The capability tests within the ATS check that the observable capabilities of the SUT are in accordance with the static conformance requirements defined in ISO 15118‑3. The behavior tests of the ATS examine an implementation as thoroughly as is practical over the full range of dynamic conformance requirements defined in ISO 15118‑3 and within the capabilities of the SUT (see NOTE 1). A test architecture is described in correspondence to the ATS. The conformance test cases in this part of the standard are described leveraging this test architecture and are specified in TTCN-3 Core Language for the ISO/OSI Physical and Data Link Layers (Layers 1 and 2). The conformance test cases for the ISO/OSI Network Layer (Layer 3) and above are described in ISO 15118‑4.

ISO 15118-4:2018 specifies conformance tests in the form of an Abstract Test Suite (ATS) for a System Under Test (SUT) implementing an EVCC or SECC according to ISO 15118-2.
These conformance tests specify the testing of capabilities and behaviors of an SUT as well as checking what is observed against the conformance requirements specified in ISO 15118-2 and against what the supplier states the SUT implementation's capabilities are. The capability tests within the ATS check that the observable capabilities of the SUT are in accordance with the static conformance requirements defined in ISO 15118-2. The behavior tests of the ATS examine an implementation as thoroughly as is practical over the full range of dynamic conformance requirements defined in ISO 15118-2 and within the capabilities of the SUT (see NOTE). A test architecture is described in correspondence to the ATS. The conformance test cases in this document are described leveraging this test architecture and are specified in TTCN-3 Core Language for ISO/OSI Network Layer (Layer 3) and above. The conformance test cases for the Data Link Layer (Layer 2) and Physical Layer (Layer 1) are described in ISO 15118-5. Test cases with overlapping scopes are explicitly detailed.

ISO 15118-3:2015 specifies the requirements of the physical and data link layer for a high-level communication, directly between battery electric vehicles (BEV) or plug-in hybrid electric vehicles (PHEV), termed as EV (electric vehicle) [ISO-1], based on a wired communication technology and the fixed electrical charging installation [Electric Vehicle Supply Equipment (EVSE)] used in addition to the basic signalling, as defined in [IEC-1].
It covers the overall information exchange between all actors involved in the electrical energy exchange. ISO 15118 (all parts) is applicable for manually connected conductive charging. Only "[IEC-1] modes 3 and 4" EVSEs, with a high-level communication module, are covered by this part of ISO 15118.

ISO 15118-2:2014 specifies the communication between battery electric vehicles (BEV) or plug-in hybrid electric vehicles (PHEV) and the Electric Vehicle Supply Equipment. The application layer message set defined in ISO 15118-2:2014 is designed to support the energy transfer from an EVSE to an EV. ISO 15118-1 contains additional use case elements describing the bidirectional energy transfer. The implementation of these use cases requires enhancements of the application layer message set defined herein. The purpose of ISO 15118-2:2014 is to detail the communication between an EV (BEV or a PHEV) and an EVSE. Aspects are specified to detect a vehicle in a communication network and enable an Internet Protocol (IP) based communication between EVCC and SECC. ISO 15118-2:2014 defines messages, data model, XML/EXI based data representation format, usage of V2GTP, TLS, TCP and IPv6. In addition, it describes how data link layer services can be accessed from a layer 3 perspective. The Data Link Layer and Physical Layer functionality is described in ISO 15118-3.

This document, as a basis for the other parts of the ISO 15118 series, specifies terms and definitions, general requirements and use cases for conductive and wireless HLC between the EVCC and the SECC. This document is applicable to HLC involved in conductive and wireless power transfer technologies in the context of manual or automatic connection devices. This document is also applicable to energy transfer either from EV supply equipment to charge the EV battery or from EV battery to EV supply equipment in order to supply energy to home, to loads or to the grid. This document provides a general overview and a common understanding of aspects influencing identification, association, charge or discharge control and optimisation, payment, load levelling, cybersecurity and privacy. It offers an interoperable EV-EV supply equipment interface to all e-mobility actors beyond SECC. The ISO 15118 series does not specify the vehicle internal communication between battery and other internal equipment (beside some dedicated message elements related to the energy transfer).

This Technical Report aims to be the entry point in relation to electronic signatures for any SME that is considering to dematerialize paper-based workflow(s) and seeks a sound legal and technical basis in order to integrate electronic signatures or electronic seals in this process. It is not intended to be a guide for SMEs active in the development of electronic signatures products and services - they should rather rely on the series ETSI EN 319 for building their offer - but it is a guide for SMEs CONSUMING e-Signature products and services. This document builds on CEN/TR 419040, "Guidelines for citizens", explaining the concept and use of electronic signatures, to further help SMEs to understand the relevance of using e-Signatures within their business processes. It guides SMEs in discovering the level of electronic Signatures which is appropriate for their needs, extends the work to specific use-case scenarios, paying special attention to technologies and solutions, and addresses other typical concrete questions that SMEs need to answer before any making any decisions (such as the question of recognition of their e-Signature by third parties, within their sector, country or even internationally).

The regulation on electronic identification and trusted eServices (eIDAS regulation) clearly extends the current Electronic Signature Directive from electronic signature towards electronic identification and electronic authentication. These two topics are closely linked to electronic signature and are considered in this context in this document. There are many documents, standards, industrial initiatives and European projects on identification and authentication, but the scope here is limited to electronic signature context, and wider to electronic transactions in the internal market. The present Technical Report is twofold. It firstly does a brief analysis of the implementing acts on electronic identities CIR 2015/1501 [29] and CIR 2015/1502 [30] and how this is addressed by the eID interoperability framework [31]. It secondly establishes what areas of existing standards are impacted by the eID framework and what further areas of standardization could assist nations in providing eID services.

The scope of the committee includes the definition and standardisation of digital long-term archive formats for cinematographic works. In addition methods for ensuring data integrity and quality shall be specified. The standard is applicable for digitized analogue films as well as digital born content. 2 Reference software to guarantee interoperability amongst vendors and heritage institutions shall be developed. The scope does not include the standardization of distribution formats

CEN/TC 434 Subcommittees and Working Groups

CEN/TC 434/WG 1 Core semantic data model

CEN/TC 434/WG 3 Syntax bindings

CEN/TC 434/WG 4 Guidelines at transmission level

CEN/TC 434/WG 5 Extension methodology

CEN/TC 434/WG 6 Test methodology and test results

CEN/TC 434/WG 7 Registry Services

Standardization in the field of e-procurement to support the electronic public procurement processes and their accompanying information flows in the physical and financial supply chain.

The work of CEN/PC 440 will be developed from the deliverables of CEN/BII (2)3 in alignment with the deliverables of CEN/PC 434. Other initiatives such as ISO/IEC/JTC 1/SC 32, OpenPEPPOL and eSENS will be taken into consideration as appropriate.

CEN/TC 224 multi-sectorial environment involves sectors such as Government/Citizen, Transport, Banking, e-Health, as well as Consumers and providers from the supply side such as card manufacturers, security technology, conformity assessment body, software manufacturers.