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CEN/TC 247 - Building automation, controls and building management
Building Automation and Control Systems (BACS) - Part 3: Functions (ISO 16484-3:2005)
This series of European Standards is intended for design of new buildings and retrofit of existing buildings for an acceptable indoor environment, practical energy conservation and efficiency. This part describes the software used for building automation and control systems
This part of this European Standard specifies the requirements for the hardware to perform the tasks within a BACS. This part of this European Standard provides the terms, definitions and abbreviations for the understanding of Part 2 and Part 3. Part 2 relates only to physical items/devices, i.e.:_ devices for management functions, operator stations and other human system interface devices;_ controllers, automation stations and application specific controllers;_ field devices and their interfaces;_ cabling and interconnection of devices;_ engineering and commissioning tools.This part of this European Standard shows a generic system model to which all-different types of BACS and their interconnections (BACS network) can fit. A graphical concept of the BACS network in terms of LAN topology will be provided in Part 5 of this standard.Regional amendment(s):Regional amendments may specify the local requirements of physical and electrical characteristics, the verifications for BACS devices and equipment, and the code of practice for the physical installation of systems. The amendments shall refer to the regional implementations of the relevant IEC standards.
EN 12098-4:2005
Controls for heating systems - Part 4: Optimum start-stop control equipment for electrical systems
This standard applies to electronic equipment which control electrical heating . The standard sets minimum acceptable requirements for functions, performance and documentation. Furthermore the standars specifies a test method to verify conformity with technical characteristics declared by the manufacturer.
EN 12098-2:2001
Controls for heating systems - Part 2: Optimum start-stop control equipment for hot water heating systems
This standard applies to electronic equipment which controls heating systems with water as the heating medium and a flow temperature up to 120 °C. The signals can be processed by using either analogue or digital techniques, or both. The particular equipment to which this standard applies covers both : · stand-alone start optimisers or start-stop optimisers, taking priority to the main controller during periods. · controllers which contain an integrated optimum start or an optimum start-stop control function. It applies both to adaptive and fixed parameters control functions and sets minimum acceptable standards for functions, performance and documentation. NOTE The optimum start-stop function can be integrated within a main control device such as an outside temperature compensated (OTC) controller. In this case the controller would be expected to meet both Part 1 and Part 2 of this standard (see EN 12098-1:1996). Safety requirements on heating systems and heating control systems remain unaffected by this standard. The actuators and the dynamic behaviour of the valves are not covered in this standard. This control equipment may or may not be connected to a data network.
EN CEN/TS 15231:2006
Open data communication in building automation, controls and building management - Mapping between Lonworks and BACnet
This technical specification defines the methods to standardize the interface between BACnet and LONWORKS systems.
The LONWORKS and BACnet communication systems are widely used in building automation systems for controls in lighting, sun protection, HVAC, energy management and security applications.
Building Management - Part 1: Terminology and scope of services
This Technical Specification provides a structure of Building Management (BM) and its Building Services and gives terms and definitions in the field of Building Management. This Technical Specification does not purport to describe Building Management Systems.
This document provides a synopsis of graphical symbols which are intended to be placed on building equipments and/or technical documentation of products in order to instruct the person(s) using the equipments. These graphical symbols are primary intended:
- To identify control or automation or technical management equipments or part of these equipements: electronic devices (e.g. controller, scheduler, optimiser...), sensor, actuators.
- To indicate functions and their operating modes.
- To designate connexions.
- To provide instruction to user (professional and/or end user) for the operation of the equipment.
Open Data Communication in Building Automation, Controls and Building Management Implementation Guideline - Control Network Protocol - Part 5: Implementation
This standard contains all the information necessary to facilitate the exchange of data and control information using EN14908-1 and its associated data-transport media specifications.
Building automation and control systems (BACS) - Part 1: Project specification and implementation (ISO/DIS 16484-1:2009)
This standard specifies principles for project specification, implementation and for integration of other systems into the BACS. This standard defines terms to be used for project implementation. The BACS implementation process normally commences after the client appoints a BACS consultant or supplier. The quality of the implementation of a BACS is dependent on the design of the building systems and the specification of the commissioning process. This document also provides guidance for review and improvement of building performance after completion. This part of the standard describes the phases required for the implementation: - design: definition of project requirements, - engineering: detailed function and hardware specification design; - installation: commissioning of the BACS; - completion: acceptance; Work done during the engineering, installation and completion phases will serve as a basis for providing training and as built documentation.
EN ISO 16484-6:2009
Building automation and control systems (BACS) - Part 6: Data communication conformance testing (ISO 16484-6:2009)
This part of ISO 16484 defines a standard method for verifying that an implementation of the BACnet protocol provides each capability claimed in its Protocol Implementation Conformance Statement (PICS) in conformance with the BACnet standard.
UNI EN 14908-1:2014
This specification applies to a communication protocol for networked control systems. The protocol provides peer-to-peer communication for networked control and is suitable for implementing both peer-to-peer and master-slave control strategies. This specification describes services in layers 2 - 7. In the layer 2 (data link layer) specification, it also describes the MAC sub-layer interface to the physical layer. The physical layer provides a choice of transmission media. The interface described in this specification supports multiple transmission media at the physical layer. In the layer 7 specification, it includes a description of the types of messages used by applications to exchange application and network management data.
Sì 03/07/2014
UNI EN 14908-2:2014
This European Standard specifies the control network protocol (CNP) free-topology twisted-pair channel and serves as a companion European Standard to prEN14908-1. The channel supports communication at 78,125 kbps between multiple nodes, each of which consists of a transceiver, a protocol processor, an application processor, a power supply, and application electronics. This European Standard covers the complete physical layer (OSI Layer 1), including the interface to the Media Access Control (MAC) sub-layer and the interface to the medium. Parameters that are controlled by other layers but control the operation of the physical layer are also specified.
UNI EN 14908-3:2014
Open Data Communication in Building Automation, Controls and Building Management - Control Network Protocol - Part 3: Power Line Channel Specification
This European Standard specifies all the information necessary to facilitate the exchange of data and control information over the power line medium. This European Standard establishes a minimal set of rules for compliance. It does not rule out extended services to be provided, given that the rules are adhered to within the system. It is the intention of the standard to permit extended services (defined by users) to coexist. Certain aspects of the standard are defined in other documents. These documents are referenced where relevant. In the case where a referenced standard conflicts with this European Standard, this European Standard will prevail.
UNI EN 14908-4:2014
This European Standard specifies the transporting of Control Network Protocol (CNP) packets over Internet Protocol (IP) networks using a tunnelling mechanism wherein the CNP packets are encapsulated within the IP packets. It applies to both CNP nodes and CNP routers. The purpose of this European Standard is to insure interoperability between various CNP devices that wish to use IP networks to communicate using the CNP protocol. The main body of this European Standard is independent of the CNP protocol being transported over the IP network. The reader is directed to Annex A and Annex B for the normative and informative, respectively, aspects of this specification that are specific to EN 14908-1. Figure 1 shows a possible configuration of such CNP devices and networks connected to an IP network. Figure 1 Typical CNP/IP application Figure 1 depicts two types of CNP devices: CNP nodes and CNP routers. It should be noted that the routers shown can route packets between typical CNP channels (such as twisted pair or power line) and an IP channel or it can route CNP packets between two IP channels. In this European Standard the IP channel will be defined in such a way to allow it to be used like any other CNP channel. In the above diagram the IP network can be considered to be one or more IP channels. This European Standard covers only how CNP packets are transported over IP channels. It does not cover how CNP packets are routed between standard CNP channels and IP channels. This specification is not intended to cover the lower layers (physical, MAC and link layers) of either standard CNP or IP channels.
UNI EN 14597:2012
This European Standard applies to electrical or non electrical temperature control devices which are used to control temperatures within heat generating systems by controlling the supply of energy; it also applies to limiting devices which ensure that the temperature in heat generating systems will not exceed a predefined limit.
Sì 01/07/2012
UNI EN 13321-1:2012
EN 13321-2:2012 (UNI EN 13321-2:2013)
Open Data Communication in Building Automation, Controls and Building Management - Home and Building Electronic Systems - Part 2: KNXnet/IP Communication
UNI EN 15232:2012
Sì 23/02/2012
EN 14908-6:2014 (UNI EN 14908-6:2015)
Open Data Communication in Building Automation, Controls and Building Management - Control Network Protocol - Part 6: Application elements
This document European Standard provides mechanisms through which various vendors of building automation, control, and building management systems may exchange information in a standardised way. This document provides specifications for the Application Elements of Control Network Protocol packets as follows: Definitions definitions of standardized packet (network-variable) data types; Definitions definitions of device-interface files; Definitions definitions of standardized configuration-property types; Definitions definitions of standardized enumeration types; Definitions definitions of standardized functional profiles; Definition definition of the standardized method of file transfer between devices. The purpose of this specification is to insure interoperability between various CNP implementations. This document contains all the information necessary to read and interpret the format of data and control information that is used by EN 14908-5. It also defines the device interface for a device as specified, which is necessary to exchange data between various devices from different manufacturers.
Sì 05/03/2015
00247088
UNI EN ISO 16484-6:2014
Sì 22/12/2014
CEN/TR 12098-6:2016
Controls for heating systems - Part 6: Accompanying TR prEN 12098-1:2015 - Modules M3- 5,6,7,8
UNI EN 12098-3:2019 (EN 12098-3:2017)
Sì 31/01/2019
CEN/TR 15500-2:2016
Energy Performance of Buildings - Control for heating, ventilating and air-conditioning applications - Part 2: Accompanying TR prEN 15500-1:2015 - Modules M3-5,M4-5,M5-5
UNI EN 16946-1:2017
Energy Performance of Buildings - Inspection of Automation, Controls and Technical Building Management - Part 1: Module M10-11
Sì 16/11/2017
UNI EN 16947-1:2018 (EN 16947-1:2017)
Energy Performance of Buildings - Building Management System - Part 1: Module M10-12
CEN/TR 12098-8:2016
Controls for heating systems - Part 8: Accompanying TR prEN 12098-5:2015 - Modules M3- 5,6,7,8
UNI EN 15500-1:2018 (EN 15500-1:2017)
CEN/TR 16946-2:2016
Energy Performance of Buildings - Inspection of Building Automation, Controls and Technical Building Management - Part 2: Accompanying TR prEN 16946-1:2015 - Modules M10-11
UNI EN 12098-1:2019 (EN 12098-1:2017)
Energy Performance of Buildings - Controls for heating systems - Part 1: Control equipment for hot water heating systems - Modules M3-5, 6, 7, 8
UNI EN 12098-5:2019 (EN 12098-5:2017)
Energy Performance of Buildings - Controls for heating systems - Part 5: Start-stop schedulers for heating systems - Modules M3-5,6,7,8
CEN/TR 12098-7:2016
Controls for heating systems - Part 7: Accompanying TR prEN 12098-3:2015 - Modules M3- 5,6,7,8
Sì 19/10/2017
UNI CEN/TR 15232-2:2018 (CEN/TR 15232-2:2016)
00247094
CEN/TR 16947-2:2016
Building Management System - Part 2: Accompanying prEN 16947-1:2015 - Modules M10-12
UNI EN ISO 16484-5:2018 (EN ISO 16484-5:2017)
Building automation and control systems (BACS) - Part 5: Data communication protocol (ISO 16484-5:2017)
EN ISO 22510:2020
Open data communication in building automation, controls and building management - Home and building electronic systems - KNXnet/IP communication (ISO 22510:2019)
EN 14908-7:2019
Open communication in building automation, controls and building management - Control Network Protocol - Part 7: Communication via internet protocols
EN 12098-3:2002
This standard specifies definitions, functionality, requirements, test methods and documentations for outside temperature compensated control equipment for electrical heating systems
Controls for heating systems - Part 5: Start-stop schedulers for heating systems
This standard specifies minimum acceptable requirements for functions, performance and documentation of equipment which control scheduling heating systems . Moreover the standard specifies test methods to verify conformity with technical characteristics declared by the manufacturer.
EN 14597:2005
This standard specifies functional requirements and test methods for electrical or non-electrical temperature control devices which are used to control temperature within heat generating systems . This standard does not apply to room thermostats
EN 14908-1:2005
EN 14908-2:2005
This European standard specifies the control network protocol (CNP) free-topology twisted-pair channel and serves as a companion document to CNP, part 1. The channel supports communication at 78.125 kbps between multiple nodes, each of which consists of a transceiver, a protocol processor, an application processor, a power supply, and application electronics. This standard covers the complete physical layer (OSI Layer 1), including the interface to the Media Access Control (MAC) sub-layer and the interface to the medium. Parameters that are controlled by other layers but control the operation of the physical layer are also specified.
EN ISO 16484-6:2005
Building automation and control systems (BACS) - Part 6: Data communication conformance testing (ISO 16484-6:2005)
This part of EN ISO 16484 defines a standard method for verifying that an implementation of the BACnet protocol provides each capability claimed in its Protocol Implementation Conformance Statement (PICS) in conformance with EN ISO 16484-5. This series of European Standards is intended for design of new buildings and retrofit of existing buildings for an acceptable indoor environment, practical energy conservation and efficiency
EN 13321-1:2006
As for Home or Building Electronic Systems (HBES) this resulting standard provides 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 decentralized and linked through a common communication process. This 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 exist for this equipment or system.
EN 12098-1:1996
Controls for heating systems - Part 1: Outside temperature compensated control equipment for hot water heating systems
This European Standard applies to electronic control equipment for heating systems with water as the heating medium and a flow temperature up to 120 °C. The signals can be processed by using either analogue or digital techniques, or both. This control equipment controls and regulates the distribution and/or the generation of heat in relation to the outside temperature and other reference variables and time. Safety requirements on heating systems remain unaffected by this standard. The dynamic behaviour of the valves and actuators are not covered in this standard.
EN 14908-4:2006
This document specifies the tunnelling of the control network protocol (CNP) over Internet Protocol channels and serves as a companion document to CNP, part 1.
EN 14908-3:2006
This specification contains all the information necessary to facilitate the exchange of data and control information over the power line medium.
This specification establishes a minimal set of rules for compliance. It does not rule out extended services to be provided, given that the rules are adhered to within the system. It is the intention of the standard to permit extended services (defined by users) to coexist. Certain aspects of the standard are defined in other documents. These documents are referenced where relevant. In the case where a referenced standard conflicts with this document, this document will prevail.
EN ISO 16484-5:2003
Building automation and control systems - Part 5: Data communication protocolcity (ISO 16484-5:2003)
This protocol provides a comprehensive set of messages for conveying encoded binary, analog, and alphanumeric data between devices including, but notlimited to: (a) hardware binary input and output values, (b) hardware analog input and output values, (c) sofware binary and analog values, (d) text string values, (e) schedule information, (f) alarm and event information, (g) files, and (h) control logic.
ENV 13321-1:1999
Data communication for HVAC application automation net - BACnet, Profibus, World FIP
This European Prestandard defines a system neutral data communication mechanism for use at the automation level in heating, ventilating, air conditioning and related building management applications.
ENV 13321-2:2000
Data communication for HVAC application - Automation net - Part 2: EIBnet
ENV 13154-2:1998
Data communication for HVAC application field net - Part 2: Protocols
This European Prestandard defines a system neutral data communication mechanism for use at the field level in heating, ventilating, air-conditioning and relate building management applications.
ENV 13154-1:2000
Data communication for HVAC application - Field net - Part 1: Objects
This prestandard defines FLN-objects and FLN-services to be used on a field level for system neutral exchange of data for HVAC applications. This prestandard defines the semantics of the objects and the abstract services applicable to them and it defines an optional syntax to be used to exchange data with communication front-end unit. The syntax of the object data on the underlying communication (bus) protocol is not within the scope of this prestandard.
This document 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
Control for heating, ventilating and air-conditioning applications - Electronic individual zone control equipment
The purpose of this standard is to specify the applications, functionality set and application performance for electronic individual zone control equipment, for
- Heating for Electrical and Hot water applications
- Fan coil and Induction Units applications
- VAV, CAV and Chilled Ceiling applications
00247046
EN 15232:2007
This European Standard specifies: – a structured list of control, building automation and technical building management functions which have an impact on the energy performance of buildings; – a method to define minimum requirements regarding the control, building automation and technical building management functions to be implemented in buildings of different complexities; – detailed methods to assess the impact of these functions on a given building. These methods enable to introduce the impact of these functions in the calculations of energy performance ratings and indicators calculated by the relevant standards; – a simplified method to get a first estimation of the impact of these functions on typical buildings.
UNI EN 14908-6:2010
This document provides specifications for the Application Elements of Control Network Protocol packets as follows: - Definitions of standardised packet (network-variable) data types - Definitions of external-interface files and device-resource files - Definitions of standardised configuration-property types - Definitions of standardised functional profiles - Definition of the standardised method of file transfer between devices The purpose of this specification is to insure interoperability between various CNP implementations. This document contains all the information necessary to read and interpret the format of data and control information that is used by EN 14908 5. It also defines the External Interface (network interface) of the devices, which is necessary to exchange data between various devices from different manufacturers.
EN ISO 16484-5:2008
Building automation and control systems - Part 5: Data communication protocol (ISO 16484-5:2007)
This part of ISO 16484 defines data communication services and protocols for computer equipment used for monitoring and control of heating, ventilation, air-conditioning and refrigeration (HVAC&R) and other building systems. It defines, in addition, an abstract, object-oriented representation of information communicated between such equipment, thereby facilitating the application and use of digital control technology in buildings.
The scope and field of application are furthermore detailed in Clause 2 of the enclosed ANSI/ASHRAE publication.
Building automation and control systems - Part 5: Data communication protocol - Amendment 1 (ISO 16484-5:2008/Amd 1:2009)
This Amendment is to add a number of indipendent substantive changes to the already published standard.
UNI EN 12098-1:2013
Controls for heating systems - Part 1: Control equipment for hot water heating systems
This standard applies to electronic control equipment for heating systems with water as the heating medium and a flow temperature up to 120°C.
UNI EN 12098-3:2013
Controls for heating systems - Part 3: Control equipment for electrical heating systems
EN ISO 16484-5:2010
Building automation and control systems - Part 5: Data communication protocol
EN ISO 16484-5:2012 (UNI EN ISO 16484-5:2013)
EN ISO 16484-5:2014 (UNI EN ISO 16484-5:2015)
Building automation and control systems (BACS) - Part 5: Data communication protocol (ISO 16484-5:2014)