international electrotechnical commission © iec:2007 pc118 wg1 draft framework china pc 118/wg1...
Post on 28-Dec-2015
219 Views
Preview:
TRANSCRIPT
-
*ContentsTR Part1-OverviewTR Part2-Information ModelTR Part3-Information Exchange ModelTR Part4-Communication MappingTR Part5 and TR Part6 (TBD)
PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**Consensus on the Work Products for WG1
PC 118/WG1 meeting, 2012-05, Santa ClaraScope of User?Entity that consumes electricity supplied by the electric gridA user might be a home, a vehicle, a commercial building, an industrial facility, etc.A user may also be an aggregatorU.S. : Discussion Paper for Establishing Consensus on the Work Products for WG1
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**Consensus on the Work Products for WG1
PC 118/WG1 meeting, 2012-05, Santa ClaraScope of User Interface?A user interface is a means to exchange information between the electric grid energy supplier and the user to achieve one or more of several objectives
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**Consensus on the Work Products for WG1
PC 118/WG1 meeting, 2012-05, Santa ClaraWhat Functionality Should the User Interface Enable?
Convey price information Enable market transactions Convey demand response requestsConvey forward power usage projectionsConvey requests for ancillary servicesTake direct load control actions
Enable energy efficiency analysis
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**Consensus on the Work Products for WG1
PC 118/WG1 meeting, 2012-05, Santa ClaraArchitectural Consideration for a User Interface
Suitable for interaction with many different kinds of users with varying local abilities and constraints Must be based on specific communication exchanges that do not depend on the details of how the user implements a response
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**Consensus on the Work Products for WG1
PC 118/WG1 meeting, 2012-05, Santa ClaraExisting Standards
Any standard developed by PC 118 WG 1 must respect and be compatible with existing standards and their future evolution
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
PC 118/WG1 meeting, 2012-05, Santa Clara*This part describes the definitions, terms, requirements, system architecture and use cases (as an appendix) as the basis for the other parts of TR.
The main content of Part1 includes TR map, Requirements Actors System Architecture and Interface Description.TR Part1-Overview
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
PC 118/WG1 meeting, 2012-05, Santa Clara*PC118/WG1 TR can be divided into 3 hierarchical layers. The top layer can be sub sectioned to Overview, Information Model, Information Exchange Model, etc.; the second layer can be continuesely sub sectioned. Definitions and TR map TR Part1-Overview TR Map
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa Clara 6.1 Basic RequirementsConvey price information Enable market transactionsConvey demand response requestsConvey forward power usage projectionsConvey requests for ancillary servicesTake direct load control actions
Enable energy efficiency analysisEnable monitoring power qualityConvey user informationConvey and respond user requestsThis clause regulates the requirements of architecture design and modeling construction for Smart Grid User Interface, including requirements of function, communication, performance, security, system installation and configuration, maintenance, etc. TR Part1-Overview Requirements
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa Clara 6.2 Other Requirements
Requirement for direct control from grid side Enable Plug and Play application as much as possibleSchedule Considerations..TR Part1-Overview Requirements
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa ClaraThis part identifies the roles involved in the system, including organization, person, system, equipment, etc.7.1 Grid-side actors7.2 User-side actorsTR Part1-Overview Major Actors
NameTypeEMSSystemDEMSSystemAMI-ENTSystemEnergy SupplierOrganization ESCO Organization
NameTypeMicro-grid EMSSystemHEMSSystemBEMSSystemFEMSSystemCEMSSystemSmart meterEquipment
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa ClaraThis part presents the category logic and classification of the smart equipment on user side. Some factors have to be taken into consideration for the classification. There could be different classification, for example:
according to user type, equipment can be categorized to residential, commercial and industrial;according to function, equipment can be categorized to load, generator, meter etc.;according to adjustability, equipment can be categorized to adjustable and un-adjustable load equipment.
7.3 User Side Equipment CategoryTR Part1-Overview Major Actors
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa Clara8.1 Architecture ConsiderationThis sub-clause describes the nature of the smart grid user interface and the hierarchical communication relationships between different actors.The design of the architecture needs a comprehensive consideration of compatibility of legacy system, functionality, information communication, security, etc.
TR Part1-Overview System Architecture Consideration
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*PC 118/WG1 meeting, 2012-05, Santa Clara8.1 Architecture Consideration smart meter, public communication gateway, utility gateway and other gateways realize the effective and secure information communication between user and grid .various customer energy management systems realize efficient monitoring and management of energy and smart equipment on user side, based on the analysis of conveyed information from grid side; on the other hand, aggregate the user side information, to realize the effective interaction between user and grid.
TR Part1-Overview System Architecture Consideration
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
PC 118/WG1 meeting, 2012-05, Santa Clara*8.2 Description and Category of Related Standards
This sub-clause presents the description and taxonomy of the existing standards from the perspective of standard-setting, objectives of standards, etc. aiming at the further identification of standards gap.
TR Part1-Overview System Architecture Consideration
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
PC 118/WG1 meeting, 2012-05, Santa Clara*The logic relationship between the 6 parts of TR is presented in the following Diagram. The first part of the TR needs to analyze the various applications and functions exchanged between grid side and customer side, in which, Demand Response is a key application.8.3 Relationship between Parts of the Technical ReportTR Part1-Overview System Architecture Consideration
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
Part6 Test and Certification
Part5 Security and Privacy
Part1 Overview
Application 1
Application 2
Application m
Part2 Information Model
Part3 Information Exchange Model
Communication protocol 1
Communication protocol m
Part4
Part4 Protocol and Mapping
-
PC 118/WG1 meeting, 2012-05, Santa Clara*TR Part1-OverviewAppendix Use Caseson-site generationdemand responseelectrical storagepeak demand managementforward power usage estimationend load monitoring (sub metering)power quality of service monitoringutilization of historical energy consumption datamarket interaction and price communicationdirect load controlSmart grid user interface will support a wide range of applications and interactions, including: applications and electrical service provider interactions, e.g.: (proposed at the first PC118/WG1 meeting in Tianjin)
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*ContentsTR Part1-OverviewTR Part2-Information ModelTR Part3-Information Exchange ModelTR Part4-Communication MappingTR Part5 and TR Part6 (TBD)PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**
TR Part2-Information ModelNeedVarious applications and systems exist or under development on both grid and user side, e.g. Demand Response, Direct load control etc.
Information exchange is essential between different systems or applications PC 118/WG1 meeting, 2012-05, Santa ClaraThe information model enables the exchange between different applications and systems.
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
** TR Part2-Information Model FunctionPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
** TR Part2-Information Model ApprochIEC 61850-7 Communication networks and systems in substationsIEC 61970 Energy Management System Application Program InterfaceSAE J2293 Energy Transfer System for Electric VehiclesInformation ModelIEC 61968-9 Interface Standard for Meter Reading and Control Through analysis / studying of existing related standards, especially their information model on grid side and user side, build up Information Model of PC118/WG1 TR with integration of practical requirements.PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part2-Information ModelContentPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part2-Information model Common Information Model6 Common Information Model6.1 User Information6.2 Measurement and Metering6.3 Load Characteristic6.4 Control6.5 Price6.6 Stimulation6.7 Environment6.8 DisplayPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part2-Information model Common Information Model6 Common Information Model6.1 User Informationincludes the user address, user capacity and other basicinformation, as well as user status information6.2 Measurement and Meteringdescribes the dynamic meter data required by various applications between grid and user side, which serves as the common meter model to describe various types of information, such as electric quantity or non-electric quantity information. PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part2-Information modelExtended Information Model7 Extended Information Model7.1 Distributed Generation7.2 Distributed Energy Storage7.3 EV 7.4 Customer Energy ManagementPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*ContentsTR Part1-OverviewTR Part2-Information ModelTR Part3-Information Exchange ModelTR Part4-Communication MappingTR Part5 and TR Part6 (TBD)
PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part3-Information Exchange Model An Information Exchange ExampleExampleInformation exchange between EMS and Meter modelUSER 1:display request of power quantity2:connection request of meter3:answer to meter connection 4:meter data read 5:power quantity data6:data display of power quantity7:disconnectionInformation modelPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part3-Information Exchange Model Complex Network on User DomainInternetGateway1Various physical network existing on user domainInternet EthernetWLANPLCWSN
2PC118/WG1 ApproachSimplify the communication between modelsAdapt to network developmentEnable access to new networkShield diversity of physical networkUse IEC/IEEE mature experiences as referencesThe model using interface of GCSI and physical network to realize information exchangeNetwork support required by Information ExchangePC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part3-Information Exchange ModelEquipment interconnect through GCSIGCSI
Shield physical networkProvide communication service to model, including data service, communication management service and other servicePC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
*ContentsTR Part1-OverviewTR Part2-Information ModelTR Part3-Information Exchange ModelTR Part4-Communication MappingTR Part5 and TR Part6 (TBD)PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part4-Communication mappingMapping from GCSI to physical networkGCSI
Start research on how to adapt various physical network and protocols, including TCPUDPEthernetWIAZigbeePLCPC 118/WG2 meeting, 2012-05, Santa Clara*PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
GCSI
Information Model
Communication Protocal1
Communication Protocal2
Communication Protocal3
Communication Protocln
...
-
**TR Part4-Communication MappingMapping Example Mapping to TCP Mapping to Zigbee Mapping to WIFIPC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
GCSI
GCSI Server Primitive
MMS Server Primitive
Communication Mapping
PDU
BER Decode
SOCKET Code
-
*ContentsTR Part1-OverviewTR Part2-Information ModelTR Part3-Information Exchange ModelTR Part4-Communication MappingTR Part5 and TR Part6 (TBD)PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
**TR Part5 and Part6 (TBD)PC 118/WG1 meeting, 2012-05, Santa ClaraIEC/TRxxxx-5Smart Grid User InterfaceSecurity and PrivacyIEC/TRxxxx-6Smart Grid User Interface Test and CertificationThe importance of these parts rely on the development of existing standards, leave to discussion.
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
-
Thanks for your attention*PC 118/WG1 meeting, 2012-05, Santa Clara
PC 118/WG1 Meeting, 2012-5-23, Santa Clara
***INPUT: U.S.: Discussion Paper for Establishing Consensus on the Work Products for WG1 Steven Bushby:Proposed outline for developing consensus on a Technical Report deliverable from PC118 Yasuro Shobatake Scope of Smart Grid User Interface *Refer to IEC 61970-301 A2.8 & IEC 61968-9 4.2Refer to IEC 61970-301 A2.7Refer to Energy Information Standards (EIS) Alliance Customer Domain Energy Services Interface (ESI) RequirementsRefer to IEC61850-7-420Refer to SAE J2293The information models in existing standards mainly define the equipment information models on grid side, while ours are based on user side and take references from related parts of grid side standards (Refer to IEC61970-303 3.1)
*Refer to IEC 61970-301 A2.8 & IEC 61968-9 4.2Refer to IEC 61970-301 A2.7Refer to Energy Information Standards (EIS) Alliance Customer Domain Energy Services Interface (ESI) RequirementsRefer to IEC61850-7-420Refer to SAE J2293The information models in existing standards mainly define the equipment information models on grid side, while ours are based on user side and take references from related parts of grid side standards (Refer to IEC61970-303 3.1)
*Refer to IEC 61970-301 A2.8 & IEC 61968-9 4.2Refer to IEC 61970-301 A2.7Refer to Energy Information Standards (EIS) Alliance Customer Domain Energy Services Interface (ESI) RequirementsRefer to IEC61850-7-420Refer to SAE J2293The information models in existing standards mainly define the equipment information models on grid side, while ours are based on user side and take references from related parts of grid side standards (Refer to IEC61970-303 3.1)
*Refer to IEC 61970-301 A2.8 & IEC 61968-9 4.2Refer to IEC 61970-301 A2.7Refer to Energy Information Standards (EIS) Alliance Customer Domain Energy Services Interface (ESI) RequirementsRefer to IEC61850-7-420Refer to SAE J2293The information models in existing standards mainly define the equipment information models on grid side, while ours are based on user side and take references from related parts of grid side standards (Refer to IEC61970-303 3.1)
*The purpose of this part is describing the definitions, terms, requirements, system architecture and use cases(in the Appendix) as the basis for the other parts of PC118/WG1 TR. The main content of Part1 includes TR mapRequirementsActorsSystem architecture and Interface Description.
*This technical report can be divided into 3 hierarchical layers. The top layer can be sub sectioned to general provision, information model, information exchange model, etc.; the second layer can be sub sectioned to overview, requirement, architecture and interface, etc. According to the urgency of standardization need, the prior action plan of the TR is not suggested to discuss here.
*This part regulates the requirements of architecture design and modeling construction for Smart Grid user interface, including requirements of function, communication, performance, security, install configure, maintenance, etc. for example, in which, Italic parts are proposed by U.S. in its Framing Paper
*This part regulates the requirements of architecture design and modeling construction for Smart Grid user interface, including requirements of function, communication, performance, security, install configure, maintenance, etc. for example, in which, Italic parts are proposed by U.S. in its Framing Paper
*This part identifies the actors involved in the system, main types including organization, person, system, equipment, etc., and describes the responsibilities or functionalities of the actors. In order to clarify the information need to be exchanged between grid and custormer, the actors are divided into two groups.*For instance characteristics, controllability, and adjustability of the equipment.*This sub-clause describes the nature of the smart grid user interface and the hierarchical communication relationships between different actors.Grid side actors includes distribution energy management system, transmission energy management system, AMI enterprise system, etc.; user side actors includes various smart equipment and energy management system.
*On user side, in the absence of the energy management system, communication gateway (e.g. smart meter) can also realize the monitoring and management on user side equipment. The exchange between grid and user side smart equipment can conduct as an indirect exchange, through the centralized coordination of customer energy management system, or as an direct exchange without the centralized coordination of customer energy management system. The later way is suitable for the control of large load/power source/energy storage which has a higher requirement on real-time, as well as the ancillary service involving large user.Besides, following requirements and characteristics should be taken into consideration for the smart grid user interfacearchitecture:1Architectural Consideration for a User Interface (U.S.)The user interface must be suitable for interaction with many different kinds of users with varying local abilities and constraints. The control and automation technology used to respond to the grid communication will vary with the type of user (residential, commercial, industrial) and the smart grid user interface must work with all of them. It is also important that changes in the control technologies found in the users facility not break the interface. These control technologies will evolve on independent time schedules. This means that architecture for the interface must be based on a specific communication exchanges that do not depend on the details of how the user implements a response. Because of the possibility of aggregation of users, a single entity (the aggregator) may look like a user to the grid but at the same time look like the grid to one of the aggregated users. The architecture must accommodate this type of hierarchical structure.2Communication PathThe grid may exchange information with users by three main ways: smart meter (using AMI network), communication gateway (using Internet or other public network), or exclusive gateway (using exclusive network without exchange with smart meter).3Control Mode The control modes of industrial, commercial, and residential customer side smart equipment will be supported: local autonomous control of equipment, centralized coordination by customer energy management system, and direct control by grid side.
*This section presents the description and taxonomy of the existing standards from the perspective of standard-setting, objectives of standards, etc. thus we can fully integrate the two approaches of Top-down and Bottom-up to accelerate the development of PC118/WG1 TR, and further identify the standard gap, based on PC118 SBP.
*The logic relationship between the 6 parts of TR is presented in the following Diagram. The first part of the TR needs to analyze the various applications and functions exchanged between grid side and customer side, in which, Demand Response is a key application. According to the top-down approach, the defined WG1 requirements need to be consistent to WG2 use cases.6DR top-downapproach ,WG1PC118 WG2
*Use cases of user interface by countries are listed in this Appendix A, which are applicable to one or more types in residential, commercial, industrial users. Smart grid user interface and the model will support a wide range of energy management applications and electrical service provider interactions, including: applications and electrical service provider interactions, including: (proposed in the first plenaryPC118/WG1 meeting in Tianjin)
**Various systems are developed independently by manufactures, each have their own internal data structure and communication. Therefore, information exchange are needed to realize the various applications, while the existing standard only defined the internal information model of various system.Through a defined common model, applications can realize information exchange by accessing the common date of system, and no longer depend on the internal information expression of system.
Realize interoperability and compatbility between various systems, and has no concerns to specific applications.
********* *******
top related