Business-IT Alignment, Business Process Transformation(BPX), Services Oriented, Automated Metering Infrastructure, Architectural Services (SOA), and SOA Industrialization service

Implementing A Smart Grid using DATAPOWER

Solutions for the Utilities Industry

David B White Florida & Georgia Region - Business Development Manager Miracle Software Inc. 1107 SW 23rd StCape Coral, Fl 33991

Home Office 239-458-2592 Cell Direct 239-333-5641Cell Georgia 770-508-8259 email dwhite@miraclesoft.com website w3.miraclesoft.com

Converging market forces are driving utilities to seek new approaches and business models ... driving investment and innovation

Regulatory & PolicyRegulatory & Policy

Customer Customer Escalating Energy /Escalating Energy /

Financial Mkts Financial Mkts ExpectationsExpectations

SecuritySecurity

Aging Assets / Aging Assets / Aging WorkforceAging Workforce

TechnologicalTechnologicalAdvancementsAdvancements

Customer Customer ExpectationsExpectations

Escalating Energy /Escalating Energy /Fuel CostsFuel Costs

EnvironmentEnvironment

These forces are increasing the need for greater network reliability, efficiency, flexibility and “observability”... creating the necessity for the Intelligent Utility Network

• Many disparate systems speaking different protocols

• Legacy systems and mergers increase complexity– Do not want to replace systems– Must provide flexibility to work with other systems

Industry Standards to make integration with utility business systems easier

• Both Industry Standards, EAI and BPI are necessary to integrate systems– Enterprise Application Integration (EAI) allows connections at application and data

level– Business Process Integration (BPI) enables business logic to support processes– EAI and BPI together enable Business Performance Management (BPM)– Industry specific standards enable EAI, BPI, and BPM to be leveraged for niche

critical applications extending integration throughout the enterprise.

Standards and middleware improve integration efforts– Common data and service standards help systems talk the same language– Enterprise middleware provides a logical separation between business logic and data

integration

International Electrotechnical Commission (IEC) Standards

• Technical Committee 57 (TC57) is responsible for the development of a set of model-driven standards for the operations side of energy utilities:– Communications Protocols:

• IEC60870-6 Telecontrol Application Service Elements #2 (TASE.2)– Time critical data exchange between utility control centers for

ensuring transmission system reliability– Control center to power plant for economic dispatch– Control center to power plant for economic dispatch

• IEC61850 for substation automation– Object oriented protocol for intelligent electronic devices

– Integration:• IEC61970 Common Information Model (CIM) for power systems• IEC61970 Generic Interface Definition (GID) integration APIs and

services• IEC61968 CIM and XML messaging for distribution automation

Energy & Utility Standards for Integration

• Provide a common agreement on What data is exchanged– The Common Information Model (CIM)

• Provide a common agreement on Services to exchange the data• The Generic Interface Definition (GID)

The benefits of using CIM and GID:• Access to the vendors, applications, sensors, and the general plant environment that

can be connected to the IBM Services Oriented Architecture (SOA) via off-the-shelf adapters.

• A service oriented adapter can be fed with data from hundreds of devices and applications with little or no investment or development.

• Object model abstractions organize the data and give structure to the service actions that are invoked from business applications to provide the consistent integration method needed to build off-the-shelf adapters.

• Adaptor approach follows industry standards.

Solution Architecture for Energy & Utilities (SAFE) allows E&Us to become an “on-demand” enterprise

l SAFE is an architectural blueprint

l Scalable framework§ Utilizes open standards - component choice freedom and flexibility

§ Supports latest software technology advances

§ Leverages cross industry and E&U best practices

§§ Doing it faster – speeding design, development, deployment and on-going operationsof customer’s solution

l Protects customer investment§ Embraces customer’s leadership applications with middleware infrastructure

§ Product integration enables interchangeable components and easier migration

§ Supports Service Orientated Architecture (SOA) - integrating web services and external process engines

§ Implementation can be staged as needed

•

Central GeneratingStation

Step-Up Transformer

DistributionSubstation

ReceivingStation

DistributionSubstation

Distribution

Gas Turbine Recip

Engine

Micro-

Common Information Model (CIM) is an object-oriented information model of the power system

DistributionSubstation

Commercial

Industrial Commercial

RecipEngine

Cogeneration

Fuel cell

Micro-turbine

Flywheel

Residential

Photovoltaics

Batteries

• The Common Information Model (CIM) for Energy and Utilities defines a utility industry standard object-model for development and integration of applications used for electric power systems integration.

• Generic Interface Definition (GID) defines industry standard services for data exchange across the integration bus.

Common Information Model (CIM) and Generic Interface Definition (GID) provide industry standard languages and interfaces for systems to communicate

CIM/GID Application Connector

IEC 61850 Substation Automation and CIM• The power system models of CIM and device models of IEC61850 intersect at the

fundamental driver for most operational energy applications in the control center: MEASUREMENTS

IEC61970/68CIM

IEC61850CIM

Power

System

Models

Device

Models

Measurements

Central GeneratingStation

Step-Up Transformer

1.Power Infrastructure

Utilities Must Manage 2 Infrastructures

DistributionSubstation

ReceivingStation

DistributionSubstation

DistributionSubstation

Commercial

Industrial Commercial

Gas Turbine

RecipEngine

Cogeneration

RecipEngine

Fuel cell

Micro-turbine

Flywheel

Residential

Photovoltaics

Batteries

•

Central GeneratingStation

Step-Up Transformer

Data network Users

2. Distributed Computing Infrastructure

1.Power Infrastructure

Utilities Must Manage 2 Infrastructures

DistributionSubstation

ReceivingStation

DistributionSubstation

DistributionSubstation

Commercial

Industrial Commercial

Gas Turbine

RecipEngine

Cogeneration

RecipEngine

Fuel cell

Micro-turbine

Flywheel

Residential

Photovoltaics

Batteries

Data Concentrator

Control Center

•

Documents, E-mail, Generic

Files Gateways to

Control Center Systems and ApplicationsSubstation

Data Concentrators and Masters

Legacy Approach: Ad Hoc Proprietary Links: Expensive

RTUs, IEDs, and Other

Field Devices

Control Center Databases

Files Gateways to Customer

Sites

IntraNet and Internet Access

Energy Market and

eCommerce Applications

Multitude of Legacy

Applications and Systems

IT Networking and Computer

Systems

Common Services/Protocols

RTUs, IEDs, and Other Field

Devices

Gateways to Customer Sites

Control Center Systems and Applications

Substation Data Concentrators and

Masters

IT Networking and Computer Systems

Model Driven Integration Addresses: Cost, Efficiency, and Complexity

“Verbs” include: request, send, query, authenticate, publish, subscribe …

Common Services/Protocols

Information Object Models

“Nouns” includes: power system data, application data, network management

data, security data …

Control Center Databases

Documents, E-mail, Generic Files

IntraNet and Internet Access

Energy Market and eCommerce

Applications

Multitude of Legacy Applications and

Systems

IntelliGrid Architecture http://www.intelligrid.info

The Utility Integration Bus (UIB)Enterprise Service Bus (ESB) for utilities

lThe UIB leverages the capabilities of the IBM WebSphere SOA to enable application in operational applications to build a bridge between the business and operations in energy utilities.

lThe UIB provides an environment for building off-the-shelf adapters using IBM WebSphere SOA technology that can be interfaced to operational applications and reused among multiple systemsapplications and reused among multiple systems

§Standards based data models (CIM)

§Standards based interfaces and services (GID)

§CIM aware instance mapping tools

§Relationships with existing E&U OEMs for off-the-shelf applications

§Off-the-shelf support for widely used E&U protocols

§Off-the-shelf adapters to numerous industrial and process applications

SAFE + UIB and CIM/GID enables best practices for power system operations

Business Performance Management Services

ProcessServices

Information Services

Development Platform

Interaction Services

Infrastructure Services

Application and Data Access ServicesBusiness

Application

Services

Enterprise Business and Operations Applications and Data

Partner

Services

CIM/GID Application and Data Access Services

Business Application and CIM/GID Data Services

Enterprise Service Bus

WebSphere

Slashing Service Costs; Increasing Service Levels

Automated Meter InfrastructureüAverting DisastersüInstant alerts of threshold breachüProvides data to self heal GRIDüSCADA/Telemetry

Dashboards -üThe eyes and ears of

your business

Smart Grid

Utilities üKnow the state of your infrastructure

at anytimeüManage your infrastructure remotelyüReduce the cost of manpower

WebSphere Message Broker

Power Meters / CountersüImprove customer serviceüAlert occupant of excessive

useüFault reporting / monitoring

Federated Registry

Federated ESB Policy & Security Mgt

Multiple ESBs… Cross-ESB Manageability… Inter-ESB Connectivity

Other ESBs(TIBCO, webMethods,

etc.)

Other ESBs(BEA, Oracle,

SAP, etc.)

WebSphere Message Broker

DataPowerWebSphere ESB

Universal Transformation

(WebSphere TX)

Universal Message Backbone

(WebSphere MQ)

Universal Adapters(WebSphere Adapters)

Cross-ESB Capabilities

… …

IBM WebSphere connectivity adapters using the UIB off-the-shelf OPC adapters

e-BusinessApp’s

Trading Hub/ Market Places

BO

Development& Build Eng Rational

Data Model Engine

DB2

Portal Services WS Portal

Syst Mgt & Security

Tivoli

Bus Process Model

WS Modeler

Service

Enterprise Service Bus

Collaboration Engine Lotus

ServiceService ServiceManugistics

R&DIBM

Data Modeling &OptimizationService

YesYes Yes Yes Yes Yes Yes

PlantSystems

ENGINEERINGDATA

ENDevicesLab InstrumentsDCS – PLC - NC

PWLab Data

Wireless & PervasiveDevices

ServiceService Service Service Service Service

MAXIMO

PLC PLC PLC PLC PLC

Sensors, Actuators, and Drives

Distributed Control System (DCS)

Sensor & ActuatorEmerging Technology Enabling

YesYes Yes Yes Yes Yes Yes

Program Highlights

Xcel Energy is implementing Smart Grid City Project for city of Boulder, CO. This next-generation grid will allow customers and utilities to collaboratively manage power generation, delivery and energy consumption. Smart Grid City will boast a fully inter-connected energy system capable of managing various parts of the grid involved in producing power and delivering it to consumers.Key components of Smart Grid City include:

•A dynamic system rich in information technology•A dynamic system rich in information technology•High-speed, real-time, two-way communications•Sensors throughout the grid enabling rapid diagnosis and corrections•Decision-making data and support for peak efficiency•Distributed generation technologies (such as wind turbines, solar panels, and plug-in hybrid electric vehicles)•Automated “smart substations”•In-home energy control devices•Automated home energy use

DataPower Appliances

Demilitarized Zone

XML Firewall and Web

2 way sensors CIS Secure Zone

Enterprise Service

Dom

ain Firew

all

Inter-Enterprise Zone

Protocol F

irewall

MessageBroker

and Web Services Gateway

XS40

Enterprise Service

Bus

Service Bus

Gateway

XI50 Back-end Resource Gateway

XI50

Dom

ain Firew

all

Protocol F

irewall

Network Infrastructure

ESB

Smart Grid Solution

Proposed Solution: WebSphere Datapower XI 50 ESB gateway as a DMZ solution along with the IBM WebSphere Message Broker, IBM WAS, IBM WebSphere Service Registry and Repository and IBM WebSphere® MQ as an integration hub for SOA enablement.

Key Benefits: Key Benefits: •Complete XML threat protection and security management•Significant performance gains due to Datapower XI 50•Protocol and format bridging capability•Simplicity of implementation•Centralized governance, security policy management, Service level monitoring and management and advanced auditing and logging features