CEN
CEN
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Technical committeeTypeAcronymEN 13757-1CommitteePublished year2002Description
EN 13757-1 Communication systems for meters - Part 1: Data exchange - This European Standard specifies data exchange and communications for meters and remote reading of meters in a generic way. This European Standard establishes a protocol specification for the Application Layer for meters and establishes several protocols for meter communications which may be applied depending on the application being fulfilled. NOTE Electricity meters are not covered by this standard, as the standardization of remote readout of electricity meters is a task for CENELEC.
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Technical committeeTypeAcronymEN 13321-2CommitteePublished year2012Description
EN 13321-2 Open Data Communication in Building Automation, Controls and Building Management - Home and Building Electronic Systems - Part 2: KNXnet/IP Communication - This European Standard defines the integration of KNX protocol implementations on top of Internet Protocol (IP) networks, called KNXnet/IP. It describes a standard protocol for KNX devices connected to an IP network, called KNXnet/IP devices. The IP network acts as a fast (compared to KNX transmission speed) backbone in KNX installations. Widespread deployment of data networks using the Internet Protocol (IP) presents an opportunity to expand building control communication beyond the local KNX control bus, providing: - remote configuration; - remote operation (including control and annunciation); - fast interface from LAN to KNX and vice versa; - WAN connection between KNX systems (where an installed KNX system is at least one line). A KNXnet/IP system contains at least these elements: - one EIB line with up to 64 (255) EIB devices; OR one KNX segment (KNX-TP1, KNX-TP0, KNX-RF, KNX-PL110, KNX-PL132); - a KNX-to-IP network connection device (called KNXnet/IP server); and typically additional - software for remote functions residing on e.g. a workstation (may be data base application, BACnet Building Management System, browser, etc.). Figure 1 shows a typical scenario where a KNXnet/IP client (e.g. running ETS) accesses multiple KNX installed systems or KNX subnetworks via an IP network. The KNXnet/IP client may access one or more KNXnet/IP servers at a time. For subnetwork, routing server-to-server communication is possible.
Technology -
Technical committeeTypeAcronymEN 13321-1CommitteePublished year2012Description
EN 13321-1 Open data communication in building automation, controls and building management - Home and building electronic system - Part 1: Product and system requirements - This European Standard specifies, as for Home or Building Electronic Systems (HBES) for the domain of Building Automation and Control System Application and Building Management (BACS), common rules for a class of multi-application bus systems where the functions are decentralised and linked through a common communication process. This European Standard sets the basic requirements for products and systems. The requirements may also apply to the distributed functions of any equipment connected in a home or building control system if no specific standard exists for this equipment or system. Due to its reference to the EN 50090 series, this European Standard sets requirements for the BACS area in relation to Architecture and Hardware and Application and Communication of systems based on HBES amongst other areas, and specifies the basic requirements for interoperability (between products and systems). Aspects such as environmental conditions/external influences, electrical safety, EMC, etc. also used to be covered by EN 50090-2-2, which will be superseded by the now available EN 50491 series. The latter European Standards series was jointly developed by CENELEC/TC 205 and CEN/TC 247 and will in the future also include aspects like functional safety in normal use (now contained in the EN 50090-2-3). The EN 50491 series applies, together with the relevant product standard for devices, if applicable.
Technology -
Technical committeeTypeAcronymEN 13321CommitteePublished year2012Description
EN 13321-1 Open data communication in building automation, controls and building management - Home and building electronic system - Part 1: Product and system requirements - This European Standard specifies, as for Home or Building Electronic Systems (HBES) for the domain of Building Automation and Control System Application and Building Management (BACS), common rules for a class of multi-application bus systems where the functions are decentralised and linked through a common communication process. This European Standard sets the basic requirements for products and systems. The requirements may also apply to the distributed functions of any equipment connected in a home or building control system if no specific standard exists for this equipment or system. Due to its reference to the EN 50090 series, this European Standard sets requirements for the BACS area in relation to Architecture and Hardware and Application and Communication of systems based on HBES amongst other areas, and specifies the basic requirements for interoperability (between products and systems). Aspects such as environmental conditions/external influences, electrical safety, EMC, etc. also used to be covered by EN 50090-2-2, which will be superseded by the now available EN 50491 series. The latter European Standards series was jointly developed by CENELEC/TC 205 and CEN/TC 247 and will in the future also include aspects like functional safety in normal use (now contained in the EN 50090-2-3). The EN 50491 series applies, together with the relevant product standard for devices, if applicable.
Technology -
Technical committeeTypeAcronymCEN/CLC/ETSI TR 50572:2011CommitteePublished year2011KeywordsDescription
This Technical Report concerns the following communications deliverable within M/441: A European standard comprising a software and hardware open architecture for utility meters that supports secure bidirectional communication upstream and downstream through standardized interfaces and data exchange formats and allows advanced information and management and control systems for consumers and service suppliers. The architecture must be scalable to support from the simplest to the most complex applications. Furthermore, the architecture must consider current relevant communications media and be adaptable for future communication media. The communication standard of the open architecture must allow the secure interfacing for data exchanges with the protected metrological block. Since no single standard can cover all aspects for the full application range of smart metering systems, the deliverable takes the form of this Technical Report. The Technical Report is the second document produced by the Smart Metering Co-ordination Group following acceptance of the Mandate 441 (M/441). The first - a response to the mandate - was issued in December 2009 and provided an overview of the current and future standardization activities, considering both the communications and the additional functionalities of smart meters. Once the standardization activity undertaken in response to Mandate M/441 is complete for both the communications and additional functionality aspects, a final report will be produced providing a list of the finalized standards in both these areas.
Technology -
Technical committeeTypeAcronymCEN/CLC/ETSI TR 50572CommitteePublished year2011Description
Identifies a functional reference architecture for communications relevant for smart metering systems and the standards relevant to meeting the technical / data communications requirements of Mandate M/441, in particular to assist the active participation of consumers in the energy markets.
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AcronymCEN/CLC/ETSI TR 50572CommitteePublished year2011Description
Identifies a functional reference architecture for communications relevant for smart metering systems and the standards relevant to meeting the technical / data communications requirements of Mandate M/441, in particular to assist the active participation of consumers in the energy markets.
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AcronymCEN/CLC/ETSI TR 101 552CommitteePublished year2014Description
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AcronymCEN/CLC TR 16567CommitteePublished year2013Description
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AcronymCEN/CLC TR 16103CommitteePublished year2010Description