Arquitectura de Comunicaciones Para Smart Grid
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Transcript of Arquitectura de Comunicaciones Para Smart Grid
Arquitectura de Comunicaciones para Smart Grid
Arquitectura de Comunicaciones para Smart GridIntroduccinTransicinSergio Zambrano Asanza3
Arquitectura OperacionalSergio Zambrano Asanza4
Interoperabilidad de la Informacin y comunicacionesSergio Zambrano Asanza5
Integracin Informacin EmpresarialSCADADMSOMSOperacinGISEAMCBMActivosWMSMWMMtto & ConstruccinEstudiosAnlisis RedConfiabilidadPlanificacinRed de Comunicaciones
Proyeccin CargaPresupuestoControlGeneracin
ConsumidoresDistribucinTransmisinGeneracin
AutomatizacinSubestacionesAutomatizacinDistribucinMedicinInteligente AMIGeneracinDistribuidaEMSRed ElctricaCall/IVRMDMDSMSoporte ClienteCRM/CISERPRHFinanzasCorporativoCadena Sum
Planif. ActivoBI/BPM/B2B
Conceptual Reference Diagram for Smart Grid Information Networks
Smart Grid Conceptual Actors / Data Flow Diagram Cross
Distribution Automation
Ejemplo de requerimientos (para este contexto)Reference Architecture with Domains, Actors and Interfaces
Possible communication paths
Actors
Example: Applicable Payload Information
Example: Scenario: Feeder Line Device Alarm
Esquemas de AutomatizacinLas diapositivas previas es un ejemplo para levantar requerimientos y casos de uso. Actualmente estamos trabajando con la consultora en (rojo):Voltage and VAR Control Distribution System Demand Response (DSDR) Line Fault Detection, Clearing, Isolation and Reconfiguration IDENTIFICACIN DE ESTNDARESDominios y Estndares
Visin General de EstndaresSergio Zambrano Asanza18
IEC- Current TC 57 reference architecture
Smart Substation Automation Process bus
NIST
NIST
NIST
NIST
NIST - Additional Standards
NIST
NIST
NIST
NIST Sujeto a revisin
September 2009Bob Heile, ZigBee AllianceSlide 31
Bridge of DiscoveryEnergyInformationCommunicationsIEEE P2030 Guide to Interoperability Body of Smart Grid Standards EnergyInformationCommunicationsInteroperabilitySeptember 2009Bob Heile, ZigBee AllianceSlide 32P2030 Scope and Purpose
Scope: This document provides guidelines for smart grid interoperability. This guide provides a knowledge base addressing terminology, characteristics, functional performance and evaluation criteria, and the application of engineering principles for smart grid interoperability of the electric power system with end use applications and loads. The guide discusses alternate approaches to good practices for the smart grid.
Purpose: This standard provides guidelines in understanding and defining smart grid interoperability of the electric power system with end-use applications and loads. Integration of energy technology and information and communications technology is necessary to achieve seamless operation for electric generation, delivery, and end-use benefits to permit two way power flow with communication and control. Interconnection and intra-facing frameworks and strategies with design definitions are addressed in this standard, providing guidance in expanding the current knowledge base. This expanded knowledge base is needed as a key element in grid architectural designs and operation to promote a more reliable and flexible electric power system.
September 2009Bob Heile, ZigBee AllianceSlide 33P2030 ORGANIZATIONTASK FORCE 1: Power Engineering TechnologyCo-Leaders : Sam Sciacca, Tom PrevostRecorder: Tom BassoTASK FORCE 2: Information TechnologyCo-Leaders : Bob GrowRecorder: Mike CoddingtonTASK FORCE 3: Communications TechnologyCo-Leaders : Stefano Galli, Bob HeileRecorder: Ben Kroposki
September 2009Bob Heile, ZigBee AllianceSlide 34TF3 - CommunicationsTF3 is defining communication requirements between devices in the Smart GridEstablish boundaries GenerationTransmissionDistributionCustomer
September 2009Bob Heile, ZigBee AllianceSlide 35TF3 - CommunicationsABWho defines attributes of info? [TF1 or TF2](Where, When, Who, What) TF3 -How- TF3 will be neutral to PHY/MAC standards used in the Smart Grid TF3 will describe layers above PHY/MAC and below Layer 6 PHY/MAC standards are being developed by other groups Interoperability of electric power systems with end use applications and loads should be maintained regardless of the PHY/MAC
PHY/MACSeptember 2009Bob Heile, ZigBee AllianceSlide 36TF3 PROPOSED WORK PLANIdentify/adopt use cases with the goal of defining scope more clearlyModel the source (grid), its critical points, and the traffic it generatesDefine/refine communication architectureIdentify functional technical requirements with the goal of supporting distributed monitoring and control and create a TR documentStandard identification and gap analysis Draft a communications guideline to feed into P2030
Security categorization applied to the communication
Example of detailed interface description for CT29