13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights...

37
© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet 13. Seminar GIS & Internet UniBw UniBw M M ü ü nchen nchen , , 12. 12. 13.09.2012 13.09.2012 Intelligent Solutions for Smart Grids Intelligent Solutions for Smart Grids - - Control Center for Distribution Networks with Integration of GI Control Center for Distribution Networks with Integration of GI S S - - Systems Systems - - Solutions and scenarios for GIS Integration Solutions and scenarios for GIS Integration - - Project Examples Project Examples Dipl. Dipl. Ing Ing . Thomas . Thomas Vogl Vogl , Siemens AG , Siemens AG Infrastructures and Cities, Smart Grid Infrastructures and Cities, Smart Grid

Transcript of 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights...

Page 1: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

© Siemens AG 2012. All rights reserved.

13. Seminar GIS & Internet 13. Seminar GIS & Internet –– UniBwUniBw MMüünchennchen , , 12. 12. –– 13.09.201213.09.2012

Intelligent Solutions for Smart Grids Intelligent Solutions for Smart Grids -- Control Center for Distribution Networks with Integ ration of GIControl Center for Distribution Networks with Integ ration of GI SS--SystemsSystems-- Solutions and scenarios for GIS IntegrationSolutions and scenarios for GIS Integration-- Project ExamplesProject Examples

Dipl. Dipl. IngIng . Thomas . Thomas VoglVogl , Siemens AG, Siemens AGInfrastructures and Cities, Smart GridInfrastructures and Cities, Smart Grid

Page 2: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 2 12.Sept 2012

© Siemens AG 2012. All rights reserved.2

AgendaGrid Control Center and Graphical Information Syste ms (GIS)

Smart Grid –Grid Control Center by Siemens

GIS Integration –Solutions and Scenarios

GIS-Integration -Project Examples

GIS-Integration -Customer Requirements

Page 3: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 3 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Industry Infrastructure & Cities

Energy Healthcare

1) Listing planned

Attractive markets driven by megatrends

Globalization UrbanizationClimate changeDemographic

change

Industry Automation

Drive Technologies

Customer Services

Rail Systems

Mobility and Logistics

Low and Medium Voltage

Smart Grid

Building Technologies

Osram 1)

Fossil Power Generation

Wind Power

Solar & Hydro

Power Transmission

Oil & Gas

Energy Service

Imaging & Therapy

Clinical Products

Diagnostics

Customer Solutions

New Sector Infrastructure & Cities within Siemens

Page 4: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 4 12.Sept 2012

© Siemens AG 2012. All rights reserved.

� Products, systems and solutions forSubstation automationDistribution and feeder automationTelecontrolPower qualityProtection for power gridsMicro gridsDemand response

� Energy Market Mgmt. Systems� Energy Management Systems� Distribution Management Systems� Distributed Energy Management

Systems

� Products, Systems and Solutions forAC and DC Traction Power Supply

� Products, Systems and Solutions for Contact Lines (Mass Transit and Mainline)

� Network services and substation modernization

� Monitoring and diagnostic� Cable-, transformer- and

switchgear services� Smart metering solutions� Grid metering, Commercial &

Industrial metering� Communication network solutions� Network consulting, software

solutions and training

Infrastructure & Cities –Division Smart Grid

ServicesEnergy Automation Rail Electrification

IT Solutions

Smart Grid

Page 5: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 5 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Energy and Distribution Management SystemsElements of a Grid Control Center

Grid Control Center

Large Screen projectionOperator UI

Furniture

Uninterrupted Power SupplyIT Network

Database & 3rd PP SW

OperatingSystems

Spectrum Power TM SW

Servers(HW)

Building

Page 6: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 6 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Energy and Distribution Management SystemsFunctional Overview of a Grid Control Center

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Distribution Management DMS

Energy Market Mngt.EMM

Energy Management EMS

Others

e.g Generation, Electricity supply • for Rail, • Industry, • in combination with Gas, Water

App

licat

ions

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

Grid

-spe

cific

IT

User Interface High Availability(Multisite)

MainControl Center

MainControl Center

Information Network

(RTUs, ICCP, ...)

Information Network

(RTUs, ICCP, ...)

Information Network

(RTUs, ICCP, ...)

Information Network

(RTUs, ICCP, ...)

Information Network

(RTUs, ICCP, ...)

Information Network

(RTUs, ICCP, ...)

RegionalControl Center

RegionalControl Center

RegionalControl Center

RegionalControl Center

RegionalControl Center

RegionalControl Center

Service oriented architecture

SC

AD

A

Segment specific SCADA functions

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Base System

Page 7: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 7 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Divivion Smart Installed Base for Grid Control Center

Spectrum Power Control Centers ...

... ensures efficient network operation1... allows efficient data engineering2... is open and modular3... protects your investment4

• Standard HW, OS, DB

• Field proven

Spain

Germany

Switzerland

Canada

USA

GreatBritain

Turkey

Taiwan

Brazil

Philippines

Colombia

Algeria

Nether-lands

Denmark

Peru

India

Morocco

Lithuania

Mexico

Austria

Norway

Belgium

Finland

Slovakia

UAE

Chile

Italy

Argentina

Venezuela

Portugal

France

Vietnam

China

Singapore

Indonesia

Thailand Greece

> 205 - 201 - 5

Control Centers

Azerbaijan

Namibia

Bolivia

RomaniaBulgaria

Czech. RepublicJapan

Ukraine

Luxembourg

... are field proven: More than 1.600 control centers world wide

Egypt

Israel

Libya

MongoliaKazakhstan

Kuwait

Togo Nigeria

Honduras

Nicaragua

Uruguay

South Africa

Swaziland

Poland

Sudan

Sri Lanka

Saudi Arabia

PakistanHong Kong

Australia

New Zealand

Sweden

Nepal

Malaysia

> 60

Page 8: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 8 12.Sept 2012

© Siemens AG 2012. All rights reserved.8

AgendaGrid Control Center and Graphical Information Syste ms (GIS)

Smart Grid–Grid Control Center by Siemens

GIS Integration –Solutions and Scenarios

GIS-Integration -Project Examples

GIS-Integration -Customer Requirements

Page 9: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 9 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Reliable Power Supply –From the Power Source to the Consumer

Meter Meter……

20KV

Meter

220KV / 110 kV

220KV / 380 kV Transmission220KV

110KV

Industry AirportRailWindpark

Distribution ( Low Voltage )

Distribution (Medium voltage)• Distribution

substation

Generation and Transmission( High Voltage)

Distribution & Feeder Automation:• Transformer Station• Pole top-mounted

Mixed Behaviour :• Generation• Consumption

Mixed Behaviour :• Generation• Consumption

Mixed Behaviour :• Generation• Consumption

20KV

400 V

DistributionCabinet

DistributionCabinet…

Meter

Distribution Network

Page 10: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 10 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control –Building blocks for Distribution Network Operation

FieldEquipment

Electr./Gas/Water/Heat

Solutions incl.Primaryequipment

Distribution SCADA

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Distribution Network

Applications

Outage Management System (OMS)

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation

System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

OMSDatabase

OMSDatabase

Fault Detection &Outage Record

Creation

Fault Detection &Outage Record

CreationFault LocationFault Location

Restoration of ServiceRestoration of ServiceOutage RecordClosing

Outage RecordClosing

Reports & StatisticsGeneration

Reports & StatisticsGeneration

Fault RepairFault Repair

Crew AssignmentCrew Assignment

Fault IsolationFault Isolation

Outage RecordArchiving

Outage RecordArchiving

Distribution Network

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O FI, EFI

US-D2

ab

OFI,EFI

F1

Re m LB Ss

O FI, EFI

b

bc

c

OFI,EFI

abc (balanced load)

b

OFI,EFI,IFI

O FI, EFI

c

OFI ,EFI

OFI,EFI

OFI,EFI

OFI,EFI

OFI,EFI

ab

bc

c

c

OFI,EFI OFI,EFI,IFI

F5

c

Curr Rel

F4

a

Re m L BS s

P, Q, I

bc

R

OFI,EFI

P, Q, I

OFI,EFI

R em LB Ss

P, Q, I

OFI,EFI

R

OFI,EFI,I FI

LV DNA

a

US MV DNA

OFI,EFI

Cu rr Rel

OFI ,EFI

OFI,EFI

OFI,EFI

LV R

(balanced

OFI,EFI

OFI,EFI

b

Re m CB s

LV R

CB

EU MV DNA

load )

F2

O FI, EFI

OFI,EFI

US-S2

b

24.9

CB

F2

IEEE4

ab

LV R

CB

b

OFI,EFI

bc

O FI ,EFI

a

RR

OFI,EFI

OFI ,EFI

b

LV R

13.8c

O FI ,EFI

b

ab

F1

OFI,EFI

a

O FI, EFI

OFI,EFI

bc

OFI,EFI

CB

OFI,EFI

OFI,EFI

b

b

24.9

110

b

R em LB Ss

Curr Rel

OFI,EFI

b

GIS Feeder 9

IEEE13

OFI ,EFI, IFI

CB

b

R

OFI,EFI,I FI

Re m C Bs

F3

ac

P, Q,I

b

13.8

OYg/od

OFI,EFI

a

OFI,EFI

OFI,EFI

OFI,EFI

Curr Rel

a

c

F6

c

O FI, EFI

OFI,EFI

OFI,EFI

R

IEEE34

R

O FI, EFI

P, Q,I

Cur rRe l

R

O FI, EFI

b

OFI ,EFI

R

OFI ,EFI ,IFI

O FI, EFI

ac

Curr Rel

ab

LV R

O FI, EFI,I FI

abc

24.9

OFI,EFI

ac

a

P, Q, I

P, Q, I

O FI, EFI

LVR

US-S1

c

bc

ab

c

R

bc

a

R

bc

O Yg/od

R

abc (balanced load)

CB

OFI,EFI,IFI F3

OFI,EFI

b

Cur rRe l

ab

ac

Yg/d

a

CB

a

TNA

US-D1

TR9 5

T R54

TR7 9

TR 164

TR3 20

0%

T R97

P=0 .00 0Q=0. 000I= 0.00%

TR 209

P=0. 000Q= 0.0 00I=0 .00%

TR28 5

TR 217

T R228

0%

TR7 8

88%

T R28 6

TR2 05

0%

T R299

T R244

TR88

TR7 1

0%

25 kVA

TR33 2

T R45

TR28 3

0%

T R189

50 kVA

TR 305

TR 4

T R297

0%

TR 28

50 kVA

75 kVA

0%

50 kV A

TR 256

TR 176

TR 227

T R70

T R13

TR 16

TR3 14

TR 24

TR2 61

0%

T R90

0%

TR 192

TR21 6

50 kV A

TR 307

TR30

TR 53

TR17 782%

0%

TR2 54

0%

TR 21

TR 163

P=0 .00 0Q=0. 000I= 0.00%

TR 223

0 %

TR6 5258 7%

TR3 31

TR52

0 %

TR 214

T R43

TR2 020 %

0%

TR9 9

0%

TR 83

T R354

128%

TR3 04

T R58

TR1 32

TR 14

0%

T R201

75 kVA

TR2 30

TR 317

Gen1

Gen2

L oad20 4

Lo ad117

Load 195

Load8 1

Load 84

Lo ad21 8

Lo ad175

Lo ad144

Load2 13

L oad23 4

Load 183

Lo ad17 9

Lo ad160

Load1 70

Load1 33

Lo ad228

Load2 22

Loa d132

Load2 24

L oad21 0

L oad2

Load1 04

Loa d29

L oad14 6

Loa d110

Load 242

Lo ad13

Loa d236

Load 169

Load9 1

Load6 7

L oad1 72

Loa d211 Load2 23

Load 113

L oad18 8

L oad2 07

Lo ad221

Loa d239

Load 208

Load1 36

Load 201

Load 76

Load 68

Lo ad124

Load2 26

Load 55

Lo ad14 5

L oad16 6

Loa d90

Load1 90

Lo ad3

Lo ad209Load1 74

L oad23 3

Load6 4

Loa d192

Load 164

L oad16

Load 191

Lo ad13 9

Loa d200

Loa d154

Load1 84

Loa d131

Lo ad20

Loa d193

L oad13 0

Load4 8L oad16 7

Load2 14

Load 69

Loa d66

L oad20 3

Loa d9

L oad18 7

L oad47

Load 227

Lo ad161

Load 156

Load 74

L oad11 6

Loa d140

Lo ad216

Lo ad119

Lo ad5

Loa d198

Lo ad238

Lo ad134

Loa d14

Loa d197

Load8

Load 237

Load 178

Loa d28

Lo ad20 5

Loa d40

Lo ad17 3

L oad22 9

Loa d56Loa d181

Load3 2

Load 15

Lo ad12 1

L oad77Load1 38

Loa d155

Load 182 Loa d199

Loa d159

Lo ad230

Load5 8

Load 62

Lo ad26

Load2 25

L oad43

Lo ad196

Lo ad168

Load2 1L oad1

Lo ad186

Lo ad18 0

Lo ad212

Lo ad20 6

Load 73

L oad11

Loa d157

Load 100

Load8 0

Load 45

Loa d52

Load 60

Lo ad42

Load1 26

Loa d142

Loa d185

L oad82

Lo ad220

Load1 65

Loa d44

Load 30

Lo ad97

L oad1 71

Lo ad215

Lo ad217

Load 177

L oad27

L oad20 2

Lo ad194

Load1 01

Load 241

Qc =0. 000Ic= 0.0

Qc =0. 000Ic= 0.0

Qc= 2.0 00I c=8 3.7

Qc=0. 000Ic =0. 0

Qc=0. 150I c=3. 5

Qc=2. 000Ic =83. 7

Qc=0. 100Ic =2. 3

Qc=0. 000Ic =0. 0

Qc=2. 000Ic =83. 7

Bu s836

B us31

B us4 06

B us27 9

B us7 20

Bus1 71

B us32 2

Bus5 91

B us716

Bus2 84

Bus 585

B us20 1

Bus 755

B us444

B us13 4

B us51

Bus 581

B us59 6

Bus 332

B us629

Bus 182

B us775

Bus5 88

B us296

B us385

B us454

B us62

B us62 6

Bus6 74

Bu s29

Bu s820

B us26 3

B us51 3

B us568

B us180V =13. 8/ -7.5 °

Bus1 77

B us1

B us61

B us85

B us540

Bus 816

B us41

B us36 5

Bu s351

Bus7 8

B us123

B us73 4

Bu s564

B us15

Bu s619

Bus4 77

Bus4 59

Bu s567

B us47

Bus8 51

B us94

Bus2 11

B us349

B us67

B us3 28

Bu s791

B us255

Bus 768

V =24. 9/ -0. 1°

B us77 4V =0. 22/ -7. 7°

B us28 8

B us103 8

B us379

Bus2 83

B us492

Bu s857

Bu s472

Bu s314V =24 .9/ 0. 0°

B us210

B us69 3

B us218

Bu s215

Bus6 50

Bus6 88

Bu s122

B us55 9

Bu s617

Bus2 99

B us128

Bus2 48

B us2 82

Bu s309Bu s704

Bus 757

Bu s219

Bu s116

Bus1 072

Bu s427

Bus7 17

B us4 38

B us1 32

B us276

B us33 6

Bus3 89

B us666V =13. 8/ -7.4 °

B us67 1

B us42

Bus7 72V=1 3.8 /-7. 9°

Bus8 50

Bu s762

B us19 8

Bus 225

B us549

B us855

Bus 849

B us57 6

Bus7 99

Bu s475

V =110 .0/ 0. 0°

Pi =0. 522Qi=0. 522

B us25 8

Bus 846

N et 872

V= 110. 0/ 0.0 °

P i=1 6.3 44Qi= 16. 344

Bus 536

Bus 727

Bus8 30

Bu s814

Bus5 97

B us54 4

Bus2 33

Bus 655

B us101

B us371

B us38 0

B us48 3

B us681

B us806

B us15 7

B us42 3

B us86 9

Bus 447

Bus2 32

Bu s1035

Bu s678

Bus 656B us345

Bus 273

Bu s235

B us53 4

B us22 0

B us800V =13. 8/ -7.5 °

B us39 0

Bus2 42

Bu s264

Bus2 57

B us78 8

Bus 882

B us245

Bu s680

B us67 9

B us19 4

Bu s275B us224

Bu s527

B us37 8

Bu s771

B us78 1

B us341

B us53

B us208

B us18 3

Bus 231

Bus7 79

B us509

B us113

Bus1 40

B us28

Bu s239

B us769

Bu s148

B us70 3

Bus 868

B us6 41

Net 873

Pi= 13. 870Qi =13. 870

Bus1 19Bus 95

Bu s151

V =24 .9/ 0. 0°

Bus3 50

Bus 557

Bu s621

B us803

B us34 0

B us4

B us18

Bus 861

B us560

Bus4 28

Bu s563

Bus7 56

B us41 1

B us43 2

B us69 6

B us8 71

Bus 531

B us287

Bus 144

B us85 8

Bu s712

Bus 741

B us8 18

B us709

Bus2 89

B us1 2Bus 39

Bu s690B us22 1

B us77 3

B us60 5

Bus1 42

B us5 0

B us120

B us633

Bus5 98

Bus 545

Bus5 89

B us2 49

B us72 1

Bus 867

B us57

B us61 0

Bus4 10

B us3 26

B us1 073

Bus2 43

B us2 98

Bu s821 B us78 0

B us74 2

B us64 3V =0. 22/ -7. 6°

B us247V =0. 22/ -7. 6°

Bus6 68

Bus5 05

B us60 6

Bu s300

B us244

B us508

Bus6 4

B us65 7

B us43 0

B us26 2

Bus2 60

Bus5 03

B us580

Bus 880

B us16 4

Bus 739

Bus8 1

B us66

Bus 866

B us17 0

Bu s301

Bu s746

B us35 6

Bus 646

B us543

B us317

Bus 622

B us193

Bu s778

B us65

Bu s538

B us632

B us41 9

B us11 0

Bu s752

B us4 60

B us81 3

Bus 524

Bu s72

B us902

Bu s400

B us39 1

Page 11: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 11 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control –The Distribution Management System (DMS)

FieldEquipment Electr./Gas/Water/Heat

Distribution SCADA

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Distribution Network

Applications

Outage Management System (OMS)

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation

System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

OMSDatabase

OMSDatabase

Fault Detection &Outage Record

Creation

Fault Detection &Outage Record

CreationFault LocationFault Location

Restoration of ServiceRestoration of ServiceOutage RecordClosing

Outage RecordClosing

Reports & StatisticsGeneration

Reports & StatisticsGeneration

Fault RepairFault Repair

Crew AssignmentCrew Assignment

Fault IsolationFault Isolation

Outage RecordArchiving

Outage RecordArchiving

Sub st6

Sub st5 0

Sub st1 9

S ubst 35

S ubst 12

Su bst 25

Sub st1 7

S ubs t43Su bst 15

S ubst 36

Su bst 75

S ubst 51S ubst 33

Su bst 68

Sub st5 2

S ubst 30

S ubst 7

S ubst 40

S ubst 18

S ubst 4

S ubs t63

S ubst 26

S ubst 58

Sub st4 5

S ubst 28

Sub st1 1

S ubst 73

Su bst 23

Su bst 69

Subs t3 7

S ubst 20

Su bst 22

S ubst 2

Sub st3 2

S ubst 42

Sub st6 5

S ubst 16

Subs t47

S ubst 72

S ubst 1

Subs t5

Subs t6 1

S ubst 53

Sub st2 1

S ubs t70

Subs t7 4

S ubst 64

S ubst 44

S ubst 55

S ubst 57S ubst 8

S ubst 59

S ubst 62

Subs t6 0

S ubst 24

Subs t31

Sub st3

S ubst 66

Sub st7 7

Subs t2 9

S ubs t14

Subs t34

Subs t4 1

Subs t1 3

S ubst 54

Su bst 39

S ubst 56

Sub st2 7

Sub st9

Subs t4 9

S ubst 38

ab

CB

OFI,EFI

OFI,EFI

bcOFI,EFI

a

Cur rRel Curr Rel

13.8

Curr Rel

c

P ,Q,I

OFI,EFI

110

O FI, EFI

US-D2

ab

OFI,EFI

F1

Re m LB Ss

O FI, EFI

b

bc

c

OFI,EFI

abc (balanced load)

b

OFI,EFI,IFI

O FI, EFI

c

OFI ,EFI

OFI,EFI

OFI,EFI

OFI,EFI

OFI,EFI

ab

bc

c

c

OFI,EFI OFI,EFI,IFI

F5

c

Curr Rel

F4

a

Re m L BS s

P, Q, I

bc

R

OFI,EFI

P, Q, I

OFI,EFI

R em LB Ss

P, Q, I

OFI,EFI

R

OFI,EFI,I FI

LV DNA

a

US MV DNA

OFI,EFI

Cu rr Rel

OFI ,EFI

OFI,EFI

OFI,EFI

LV R

(balanced

OFI,EFI

OFI,EFI

b

Re m CB s

LV R

CB

EU MV DNA

load )

F2

O FI, EFI

OFI,EFI

US-S2

b

24.9

CB

F2

IEEE4

ab

LV R

CB

b

OFI,EFI

bc

O FI ,EFI

a

RR

OFI,EFI

OFI ,EFI

b

LV R

13.8c

O FI ,EFI

b

ab

F1

OFI,EFI

a

O FI, EFI

OFI,EFI

bc

OFI,EFI

CB

OFI,EFI

OFI,EFI

b

b

24.9

110

b

R em LB Ss

Curr Rel

OFI,EFI

b

GIS Feeder 9

IEEE13

OFI ,EFI, IFI

CB

b

R

OFI,EFI,I FI

Re m C Bs

F3

ac

P, Q,I

b

13.8

OYg/od

OFI,EFI

a

OFI,EFI

OFI,EFI

OFI,EFI

Curr Rel

a

c

F6

c

O FI, EFI

OFI,EFI

OFI,EFI

R

IEEE34

R

O FI, EFI

P, Q,I

Cur rRe l

R

O FI, EFI

b

OFI ,EFI

R

OFI ,EFI ,IFI

O FI, EFI

ac

Curr Rel

ab

LV R

O FI, EFI,I FI

abc

24.9

OFI,EFI

ac

a

P, Q, I

P, Q, I

O FI, EFI

LVR

US-S1

c

bc

ab

c

R

bc

a

R

bc

O Yg/od

R

abc (balanced load)

CB

OFI,EFI,IFI F3

OFI,EFI

b

Cur rRe l

ab

ac

Yg/d

a

CB

a

TNA

US-D1

TR9 5

T R54

TR7 9

TR 164

TR3 20

0%

T R97

P=0 .00 0Q=0. 000I= 0.00%

TR 209

P=0. 000Q= 0.0 00I=0 .00%

TR28 5

TR 217

T R228

0%

TR7 8

88%

T R28 6

TR2 05

0%

T R299

T R244

TR88

TR7 1

0%

25 kVA

TR33 2

T R45

TR28 3

0%

T R189

50 kVA

TR 305

TR 4

T R297

0%

TR 28

50 kVA

75 kVA

0%

50 kV A

TR 256

TR 176

TR 227

T R70

T R13

TR 16

TR3 14

TR 24

TR2 61

0%

T R90

0%

TR 192

TR21 6

50 kV A

TR 307

TR30

TR 53

TR17 782%

0%

TR2 54

0%

TR 21

TR 163

P=0 .00 0Q=0. 000I= 0.00%

TR 223

0 %

TR6 5258 7%

TR3 31

TR52

0 %

TR 214

T R43

TR2 020 %

0%

TR9 9

0%

TR 83

T R354

128%

TR3 04

T R58

TR1 32

TR 14

0%

T R201

75 kVA

TR2 30

TR 317

Gen1

Gen2

L oad20 4

Lo ad117

Load 195

Load8 1

Load 84

Lo ad21 8

Lo ad175

Lo ad144

Load2 13

L oad23 4

Load 183

Lo ad17 9

Lo ad160

Load1 70

Load1 33

Lo ad228

Load2 22

Loa d132

Load2 24

L oad21 0

L oad2

Load1 04

Loa d29

L oad14 6

Loa d110

Load 242

Lo ad13

Loa d236

Load 169

Load9 1

Load6 7

L oad1 72

Loa d211 Load2 23

Load 113

L oad18 8

L oad2 07

Lo ad221

Loa d239

Load 208

Load1 36

Load 201

Load 76

Load 68

Lo ad124

Load2 26

Load 55

Lo ad14 5

L oad16 6

Loa d90

Load1 90

Lo ad3

Lo ad209Load1 74

L oad23 3

Load6 4

Loa d192

Load 164

L oad16

Load 191

Lo ad13 9

Loa d200

Loa d154

Load1 84

Loa d131

Lo ad20

Loa d193

L oad13 0

Load4 8L oad16 7

Load2 14

Load 69

Loa d66

L oad20 3

Loa d9

L oad18 7

L oad47

Load 227

Lo ad161

Load 156

Load 74

L oad11 6

Loa d140

Lo ad216

Lo ad119

Lo ad5

Loa d198

Lo ad238

Lo ad134

Loa d14

Loa d197

Load8

Load 237

Load 178

Loa d28

Lo ad20 5

Loa d40

Lo ad17 3

L oad22 9

Loa d56Loa d181

Load3 2

Load 15

Lo ad12 1

L oad77Load1 38

Loa d155

Load 182 Loa d199

Loa d159

Lo ad230

Load5 8

Load 62

Lo ad26

Load2 25

L oad43

Lo ad196

Lo ad168

Load2 1L oad1

Lo ad186

Lo ad18 0

Lo ad212

Lo ad20 6

Load 73

L oad11

Loa d157

Load 100

Load8 0

Load 45

Loa d52

Load 60

Lo ad42

Load1 26

Loa d142

Loa d185

L oad82

Lo ad220

Load1 65

Loa d44

Load 30

Lo ad97

L oad1 71

Lo ad215

Lo ad217

Load 177

L oad27

L oad20 2

Lo ad194

Load1 01

Load 241

Qc =0. 000Ic= 0.0

Qc =0. 000Ic= 0.0

Qc= 2.0 00I c=8 3.7

Qc=0. 000Ic =0. 0

Qc=0. 150I c=3. 5

Qc=2. 000Ic =83. 7

Qc=0. 100Ic =2. 3

Qc=0. 000Ic =0. 0

Qc=2. 000Ic =83. 7

Bu s836

B us31

B us4 06

B us27 9

B us7 20

Bus1 71

B us32 2

Bus5 91

B us716

Bus2 84

Bus 585

B us20 1

Bus 755

B us444

B us13 4

B us51

Bus 581

B us59 6

Bus 332

B us629

Bus 182

B us775

Bus5 88

B us296

B us385

B us454

B us62

B us62 6

Bus6 74

Bu s29

Bu s820

B us26 3

B us51 3

B us568

B us180V =13. 8/ -7.5 °

Bus1 77

B us1

B us61

B us85

B us540

Bus 816

B us41

B us36 5

Bu s351

Bus7 8

B us123

B us73 4

Bu s564

B us15

Bu s619

Bus4 77

Bus4 59

Bu s567

B us47

Bus8 51

B us94

Bus2 11

B us349

B us67

B us3 28

Bu s791

B us255

Bus 768

V =24. 9/ -0. 1°

B us77 4V =0. 22/ -7. 7°

B us28 8

B us103 8

B us379

Bus2 83

B us492

Bu s857

Bu s472

Bu s314V =24 .9/ 0. 0°

B us210

B us69 3

B us218

Bu s215

Bus6 50

Bus6 88

Bu s122

B us55 9

Bu s617

Bus2 99

B us128

Bus2 48

B us2 82

Bu s309Bu s704

Bus 757

Bu s219

Bu s116

Bus1 072

Bu s427

Bus7 17

B us4 38

B us1 32

B us276

B us33 6

Bus3 89

B us666V =13. 8/ -7.4 °

B us67 1

B us42

Bus7 72V=1 3.8 /-7. 9°

Bus8 50

Bu s762

B us19 8

Bus 225

B us549

B us855

Bus 849

B us57 6

Bus7 99

Bu s475

V =110 .0/ 0. 0°

Pi =0. 522Qi=0. 522

B us25 8

Bus 846

N et 872

V= 110. 0/ 0.0 °

P i=1 6.3 44Qi= 16. 344

Bus 536

Bus 727

Bus8 30

Bu s814

Bus5 97

B us54 4

Bus2 33

Bus 655

B us101

B us371

B us38 0

B us48 3

B us681

B us806

B us15 7

B us42 3

B us86 9

Bus 447

Bus2 32

Bu s1035

Bu s678

Bus 656B us345

Bus 273

Bu s235

B us53 4

B us22 0

B us800V =13. 8/ -7.5 °

B us39 0

Bus2 42

Bu s264

Bus2 57

B us78 8

Bus 882

B us245

Bu s680

B us67 9

B us19 4

Bu s275B us224

Bu s527

B us37 8

Bu s771

B us78 1

B us341

B us53

B us208

B us18 3

Bus 231

Bus7 79

B us509

B us113

Bus1 40

B us28

Bu s239

B us769

Bu s148

B us70 3

Bus 868

B us6 41

Net 873

Pi= 13. 870Qi =13. 870

Bus1 19Bus 95

Bu s151

V =24 .9/ 0. 0°

Bus3 50

Bus 557

Bu s621

B us803

B us34 0

B us4

B us18

Bus 861

B us560

Bus4 28

Bu s563

Bus7 56

B us41 1

B us43 2

B us69 6

B us8 71

Bus 531

B us287

Bus 144

B us85 8

Bu s712

Bus 741

B us8 18

B us709

Bus2 89

B us1 2Bus 39

Bu s690B us22 1

B us77 3

B us60 5

Bus1 42

B us5 0

B us120

B us633

Bus5 98

Bus 545

Bus5 89

B us2 49

B us72 1

Bus 867

B us57

B us61 0

Bus4 10

B us3 26

B us1 073

Bus2 43

B us2 98

Bu s821 B us78 0

B us74 2

B us64 3V =0. 22/ -7. 6°

B us247V =0. 22/ -7. 6°

Bus6 68

Bus5 05

B us60 6

Bu s300

B us244

B us508

Bus6 4

B us65 7

B us43 0

B us26 2

Bus2 60

Bus5 03

B us580

Bus 880

B us16 4

Bus 739

Bus8 1

B us66

Bus 866

B us17 0

Bu s301

Bu s746

B us35 6

Bus 646

B us543

B us317

Bus 622

B us193

Bu s778

B us65

Bu s538

B us632

B us41 9

B us11 0

Bu s752

B us4 60

B us81 3

Bus 524

Bu s72

B us902

Bu s400

B us39 1

Page 12: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 12 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control –The Combined DMS/OMS Solution

FieldEquipment Electr./Gas/Water/Heat

Distribution SCADA

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Distribution Network

Applications

Outage Management System (OMS)

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation

System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

OMSDatabase

OMSDatabase

Fault Detection &Outage Record

Creation

Fault Detection &Outage Record

CreationFault LocationFault Location

Restoration of ServiceRestoration of ServiceOutage RecordClosing

Outage RecordClosing

Reports & StatisticsGeneration

Reports & StatisticsGeneration

Fault RepairFault Repair

Crew AssignmentCrew Assignment

Fault IsolationFault Isolation

Outage RecordArchiving

Outage RecordArchiving

Sub st6

Sub st5 0

Sub st1 9

S ubst 35

S ubst 12

Su bst 25

Sub st1 7

S ubs t43Su bst 15

S ubst 36

Su bst 75

S ubst 51S ubst 33

Su bst 68

Sub st5 2

S ubst 30

S ubst 7

S ubst 40

S ubst 18

S ubst 4

S ubs t63

S ubst 26

S ubst 58

Sub st4 5

S ubst 28

Sub st1 1

S ubst 73

Su bst 23

Su bst 69

Subs t3 7

S ubst 20

Su bst 22

S ubst 2

Sub st3 2

S ubst 42

Sub st6 5

S ubst 16

Subs t47

S ubst 72

S ubst 1

Subs t5

Subs t6 1

S ubst 53

Sub st2 1

S ubs t70

Subs t7 4

S ubst 64

S ubst 44

S ubst 55

S ubst 57S ubst 8

S ubst 59

S ubst 62

Subs t6 0

S ubst 24

Subs t31

Sub st3

S ubst 66

Sub st7 7

Subs t2 9

S ubs t14

Subs t34

Subs t4 1

Subs t1 3

S ubst 54

Su bst 39

S ubst 56

Sub st2 7

Sub st9

Subs t4 9

S ubst 38

ab

CB

OFI,EFI

OFI,EFI

bcOFI,EFI

a

Cur rRel Curr Rel

13.8

Curr Rel

c

P ,Q,I

OFI,EFI

110

O FI, EFI

US-D2

ab

OFI,EFI

F1

Re m LB Ss

O FI, EFI

b

bc

c

OFI,EFI

abc (balanced load)

b

OFI,EFI,IFI

O FI, EFI

c

OFI ,EFI

OFI,EFI

OFI,EFI

OFI,EFI

OFI,EFI

ab

bc

c

c

OFI,EFI OFI,EFI,IFI

F5

c

Curr Rel

F4

a

Re m L BS s

P, Q, I

bc

R

OFI,EFI

P, Q, I

OFI,EFI

R em LB Ss

P, Q, I

OFI,EFI

R

OFI,EFI,I FI

LV DNA

a

US MV DNA

OFI,EFI

Cu rr Rel

OFI ,EFI

OFI,EFI

OFI,EFI

LV R

(balanced

OFI,EFI

OFI,EFI

b

Re m CB s

LV R

CB

EU MV DNA

load )

F2

O FI, EFI

OFI,EFI

US-S2

b

24.9

CB

F2

IEEE4

ab

LV R

CB

b

OFI,EFI

bc

O FI ,EFI

a

RR

OFI,EFI

OFI ,EFI

b

LV R

13.8c

O FI ,EFI

b

ab

F1

OFI,EFI

a

O FI, EFI

OFI,EFI

bc

OFI,EFI

CB

OFI,EFI

OFI,EFI

b

b

24.9

110

b

R em LB Ss

Curr Rel

OFI,EFI

b

GIS Feeder 9

IEEE13

OFI ,EFI, IFI

CB

b

R

OFI,EFI,I FI

Re m C Bs

F3

ac

P, Q,I

b

13.8

OYg/od

OFI,EFI

a

OFI,EFI

OFI,EFI

OFI,EFI

Curr Rel

a

c

F6

c

O FI, EFI

OFI,EFI

OFI,EFI

R

IEEE34

R

O FI, EFI

P, Q,I

Cur rRe l

R

O FI, EFI

b

OFI ,EFI

R

OFI ,EFI ,IFI

O FI, EFI

ac

Curr Rel

ab

LV R

O FI, EFI,I FI

abc

24.9

OFI,EFI

ac

a

P, Q, I

P, Q, I

O FI, EFI

LVR

US-S1

c

bc

ab

c

R

bc

a

R

bc

O Yg/od

R

abc (balanced load)

CB

OFI,EFI,IFI F3

OFI,EFI

b

Cur rRe l

ab

ac

Yg/d

a

CB

a

TNA

US-D1

TR9 5

T R54

TR7 9

TR 164

TR3 20

0%

T R97

P=0 .00 0Q=0. 000I= 0.00%

TR 209

P=0. 000Q= 0.0 00I=0 .00%

TR28 5

TR 217

T R228

0%

TR7 8

88%

T R28 6

TR2 05

0%

T R299

T R244

TR88

TR7 1

0%

25 kVA

TR33 2

T R45

TR28 3

0%

T R189

50 kVA

TR 305

TR 4

T R297

0%

TR 28

50 kVA

75 kVA

0%

50 kV A

TR 256

TR 176

TR 227

T R70

T R13

TR 16

TR3 14

TR 24

TR2 61

0%

T R90

0%

TR 192

TR21 6

50 kV A

TR 307

TR30

TR 53

TR17 782%

0%

TR2 54

0%

TR 21

TR 163

P=0 .00 0Q=0. 000I= 0.00%

TR 223

0 %

TR6 5258 7%

TR3 31

TR52

0 %

TR 214

T R43

TR2 020 %

0%

TR9 9

0%

TR 83

T R354

128%

TR3 04

T R58

TR1 32

TR 14

0%

T R201

75 kVA

TR2 30

TR 317

Gen1

Gen2

L oad20 4

Lo ad117

Load 195

Load8 1

Load 84

Lo ad21 8

Lo ad175

Lo ad144

Load2 13

L oad23 4

Load 183

Lo ad17 9

Lo ad160

Load1 70

Load1 33

Lo ad228

Load2 22

Loa d132

Load2 24

L oad21 0

L oad2

Load1 04

Loa d29

L oad14 6

Loa d110

Load 242

Lo ad13

Loa d236

Load 169

Load9 1

Load6 7

L oad1 72

Loa d211 Load2 23

Load 113

L oad18 8

L oad2 07

Lo ad221

Loa d239

Load 208

Load1 36

Load 201

Load 76

Load 68

Lo ad124

Load2 26

Load 55

Lo ad14 5

L oad16 6

Loa d90

Load1 90

Lo ad3

Lo ad209Load1 74

L oad23 3

Load6 4

Loa d192

Load 164

L oad16

Load 191

Lo ad13 9

Loa d200

Loa d154

Load1 84

Loa d131

Lo ad20

Loa d193

L oad13 0

Load4 8L oad16 7

Load2 14

Load 69

Loa d66

L oad20 3

Loa d9

L oad18 7

L oad47

Load 227

Lo ad161

Load 156

Load 74

L oad11 6

Loa d140

Lo ad216

Lo ad119

Lo ad5

Loa d198

Lo ad238

Lo ad134

Loa d14

Loa d197

Load8

Load 237

Load 178

Loa d28

Lo ad20 5

Loa d40

Lo ad17 3

L oad22 9

Loa d56Loa d181

Load3 2

Load 15

Lo ad12 1

L oad77Load1 38

Loa d155

Load 182 Loa d199

Loa d159

Lo ad230

Load5 8

Load 62

Lo ad26

Load2 25

L oad43

Lo ad196

Lo ad168

Load2 1L oad1

Lo ad186

Lo ad18 0

Lo ad212

Lo ad20 6

Load 73

L oad11

Loa d157

Load 100

Load8 0

Load 45

Loa d52

Load 60

Lo ad42

Load1 26

Loa d142

Loa d185

L oad82

Lo ad220

Load1 65

Loa d44

Load 30

Lo ad97

L oad1 71

Lo ad215

Lo ad217

Load 177

L oad27

L oad20 2

Lo ad194

Load1 01

Load 241

Qc =0. 000Ic= 0.0

Qc =0. 000Ic= 0.0

Qc= 2.0 00I c=8 3.7

Qc=0. 000Ic =0. 0

Qc=0. 150I c=3. 5

Qc=2. 000Ic =83. 7

Qc=0. 100Ic =2. 3

Qc=0. 000Ic =0. 0

Qc=2. 000Ic =83. 7

Bu s836

B us31

B us4 06

B us27 9

B us7 20

Bus1 71

B us32 2

Bus5 91

B us716

Bus2 84

Bus 585

B us20 1

Bus 755

B us444

B us13 4

B us51

Bus 581

B us59 6

Bus 332

B us629

Bus 182

B us775

Bus5 88

B us296

B us385

B us454

B us62

B us62 6

Bus6 74

Bu s29

Bu s820

B us26 3

B us51 3

B us568

B us180V =13. 8/ -7.5 °

Bus1 77

B us1

B us61

B us85

B us540

Bus 816

B us41

B us36 5

Bu s351

Bus7 8

B us123

B us73 4

Bu s564

B us15

Bu s619

Bus4 77

Bus4 59

Bu s567

B us47

Bus8 51

B us94

Bus2 11

B us349

B us67

B us3 28

Bu s791

B us255

Bus 768

V =24. 9/ -0. 1°

B us77 4V =0. 22/ -7. 7°

B us28 8

B us103 8

B us379

Bus2 83

B us492

Bu s857

Bu s472

Bu s314V =24 .9/ 0. 0°

B us210

B us69 3

B us218

Bu s215

Bus6 50

Bus6 88

Bu s122

B us55 9

Bu s617

Bus2 99

B us128

Bus2 48

B us2 82

Bu s309Bu s704

Bus 757

Bu s219

Bu s116

Bus1 072

Bu s427

Bus7 17

B us4 38

B us1 32

B us276

B us33 6

Bus3 89

B us666V =13. 8/ -7.4 °

B us67 1

B us42

Bus7 72V=1 3.8 /-7. 9°

Bus8 50

Bu s762

B us19 8

Bus 225

B us549

B us855

Bus 849

B us57 6

Bus7 99

Bu s475

V =110 .0/ 0. 0°

Pi =0. 522Qi=0. 522

B us25 8

Bus 846

N et 872

V= 110. 0/ 0.0 °

P i=1 6.3 44Qi= 16. 344

Bus 536

Bus 727

Bus8 30

Bu s814

Bus5 97

B us54 4

Bus2 33

Bus 655

B us101

B us371

B us38 0

B us48 3

B us681

B us806

B us15 7

B us42 3

B us86 9

Bus 447

Bus2 32

Bu s1035

Bu s678

Bus 656B us345

Bus 273

Bu s235

B us53 4

B us22 0

B us800V =13. 8/ -7.5 °

B us39 0

Bus2 42

Bu s264

Bus2 57

B us78 8

Bus 882

B us245

Bu s680

B us67 9

B us19 4

Bu s275B us224

Bu s527

B us37 8

Bu s771

B us78 1

B us341

B us53

B us208

B us18 3

Bus 231

Bus7 79

B us509

B us113

Bus1 40

B us28

Bu s239

B us769

Bu s148

B us70 3

Bus 868

B us6 41

Net 873

Pi= 13. 870Qi =13. 870

Bus1 19Bus 95

Bu s151

V =24 .9/ 0. 0°

Bus3 50

Bus 557

Bu s621

B us803

B us34 0

B us4

B us18

Bus 861

B us560

Bus4 28

Bu s563

Bus7 56

B us41 1

B us43 2

B us69 6

B us8 71

Bus 531

B us287

Bus 144

B us85 8

Bu s712

Bus 741

B us8 18

B us709

Bus2 89

B us1 2Bus 39

Bu s690B us22 1

B us77 3

B us60 5

Bus1 42

B us5 0

B us120

B us633

Bus5 98

Bus 545

Bus5 89

B us2 49

B us72 1

Bus 867

B us57

B us61 0

Bus4 10

B us3 26

B us1 073

Bus2 43

B us2 98

Bu s821 B us78 0

B us74 2

B us64 3V =0. 22/ -7. 6°

B us247V =0. 22/ -7. 6°

Bus6 68

Bus5 05

B us60 6

Bu s300

B us244

B us508

Bus6 4

B us65 7

B us43 0

B us26 2

Bus2 60

Bus5 03

B us580

Bus 880

B us16 4

Bus 739

Bus8 1

B us66

Bus 866

B us17 0

Bu s301

Bu s746

B us35 6

Bus 646

B us543

B us317

Bus 622

B us193

Bu s778

B us65

Bu s538

B us632

B us41 9

B us11 0

Bu s752

B us4 60

B us81 3

Bus 524

Bu s72

B us902

Bu s400

B us39 1

Page 13: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 13 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control –The OMS Solution with Distribution Network Applicat ions

FieldEquipment Electr./Gas/Water/Heat

Distribution SCADA

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Distribution Network

Applications

Outage Management System (OMS)

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation

System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

OMSDatabase

OMSDatabase

Fault Detection &Outage Record

Creation

Fault Detection &Outage Record

CreationFault LocationFault Location

Restoration of ServiceRestoration of ServiceOutage RecordClosing

Outage RecordClosing

Reports & StatisticsGeneration

Reports & StatisticsGeneration

Fault RepairFault Repair

Crew AssignmentCrew Assignment

Fault IsolationFault Isolation

Outage RecordArchiving

Outage RecordArchiving

Sub st6

Sub st5 0

Sub st1 9

S ubst 35

S ubst 12

Su bst 25

Sub st1 7

S ubs t43Su bst 15

S ubst 36

Su bst 75

S ubst 51S ubst 33

Su bst 68

Sub st5 2

S ubst 30

S ubst 7

S ubst 40

S ubst 18

S ubst 4

S ubs t63

S ubst 26

S ubst 58

Sub st4 5

S ubst 28

Sub st1 1

S ubst 73

Su bst 23

Su bst 69

Subs t3 7

S ubst 20

Su bst 22

S ubst 2

Sub st3 2

S ubst 42

Sub st6 5

S ubst 16

Subs t47

S ubst 72

S ubst 1

Subs t5

Subs t6 1

S ubst 53

Sub st2 1

S ubs t70

Subs t7 4

S ubst 64

S ubst 44

S ubst 55

S ubst 57S ubst 8

S ubst 59

S ubst 62

Subs t6 0

S ubst 24

Subs t31

Sub st3

S ubst 66

Sub st7 7

Subs t2 9

S ubs t14

Subs t34

Subs t4 1

Subs t1 3

S ubst 54

Su bst 39

S ubst 56

Sub st2 7

Sub st9

Subs t4 9

S ubst 38

ab

CB

OFI,EFI

OFI,EFI

bcOFI,EFI

a

Cur rRel Curr Rel

13.8

Curr Rel

c

P ,Q,I

OFI,EFI

110

O FI, EFI

US-D2

ab

OFI,EFI

F1

Re m LB Ss

O FI, EFI

b

bc

c

OFI,EFI

abc (balanced load)

b

OFI,EFI,IFI

O FI, EFI

c

OFI ,EFI

OFI,EFI

OFI,EFI

OFI,EFI

OFI,EFI

ab

bc

c

c

OFI,EFI OFI,EFI,IFI

F5

c

Curr Rel

F4

a

Re m L BS s

P, Q, I

bc

R

OFI,EFI

P, Q, I

OFI,EFI

R em LB Ss

P, Q, I

OFI,EFI

R

OFI,EFI,I FI

LV DNA

a

US MV DNA

OFI,EFI

Cu rr Rel

OFI ,EFI

OFI,EFI

OFI,EFI

LV R

(balanced

OFI,EFI

OFI,EFI

b

Re m CB s

LV R

CB

EU MV DNA

load )

F2

O FI, EFI

OFI,EFI

US-S2

b

24.9

CB

F2

IEEE4

ab

LV R

CB

b

OFI,EFI

bc

O FI ,EFI

a

RR

OFI,EFI

OFI ,EFI

b

LV R

13.8c

O FI ,EFI

b

ab

F1

OFI,EFI

a

O FI, EFI

OFI,EFI

bc

OFI,EFI

CB

OFI,EFI

OFI,EFI

b

b

24.9

110

b

R em LB Ss

Curr Rel

OFI,EFI

b

GIS Feeder 9

IEEE13

OFI ,EFI, IFI

CB

b

R

OFI,EFI,I FI

Re m C Bs

F3

ac

P, Q,I

b

13.8

OYg/od

OFI,EFI

a

OFI,EFI

OFI,EFI

OFI,EFI

Curr Rel

a

c

F6

c

O FI, EFI

OFI,EFI

OFI,EFI

R

IEEE34

R

O FI, EFI

P, Q,I

Cur rRe l

R

O FI, EFI

b

OFI ,EFI

R

OFI ,EFI ,IFI

O FI, EFI

ac

Curr Rel

ab

LV R

O FI, EFI,I FI

abc

24.9

OFI,EFI

ac

a

P, Q, I

P, Q, I

O FI, EFI

LVR

US-S1

c

bc

ab

c

R

bc

a

R

bc

O Yg/od

R

abc (balanced load)

CB

OFI,EFI,IFI F3

OFI,EFI

b

Cur rRe l

ab

ac

Yg/d

a

CB

a

TNA

US-D1

TR9 5

T R54

TR7 9

TR 164

TR3 20

0%

T R97

P=0 .00 0Q=0. 000I= 0.00%

TR 209

P=0. 000Q= 0.0 00I=0 .00%

TR28 5

TR 217

T R228

0%

TR7 8

88%

T R28 6

TR2 05

0%

T R299

T R244

TR88

TR7 1

0%

25 kVA

TR33 2

T R45

TR28 3

0%

T R189

50 kVA

TR 305

TR 4

T R297

0%

TR 28

50 kVA

75 kVA

0%

50 kV A

TR 256

TR 176

TR 227

T R70

T R13

TR 16

TR3 14

TR 24

TR2 61

0%

T R90

0%

TR 192

TR21 6

50 kV A

TR 307

TR30

TR 53

TR17 782%

0%

TR2 54

0%

TR 21

TR 163

P=0 .00 0Q=0. 000I= 0.00%

TR 223

0 %

TR6 5258 7%

TR3 31

TR52

0 %

TR 214

T R43

TR2 020 %

0%

TR9 9

0%

TR 83

T R354

128%

TR3 04

T R58

TR1 32

TR 14

0%

T R201

75 kVA

TR2 30

TR 317

Gen1

Gen2

L oad20 4

Lo ad117

Load 195

Load8 1

Load 84

Lo ad21 8

Lo ad175

Lo ad144

Load2 13

L oad23 4

Load 183

Lo ad17 9

Lo ad160

Load1 70

Load1 33

Lo ad228

Load2 22

Loa d132

Load2 24

L oad21 0

L oad2

Load1 04

Loa d29

L oad14 6

Loa d110

Load 242

Lo ad13

Loa d236

Load 169

Load9 1

Load6 7

L oad1 72

Loa d211 Load2 23

Load 113

L oad18 8

L oad2 07

Lo ad221

Loa d239

Load 208

Load1 36

Load 201

Load 76

Load 68

Lo ad124

Load2 26

Load 55

Lo ad14 5

L oad16 6

Loa d90

Load1 90

Lo ad3

Lo ad209Load1 74

L oad23 3

Load6 4

Loa d192

Load 164

L oad16

Load 191

Lo ad13 9

Loa d200

Loa d154

Load1 84

Loa d131

Lo ad20

Loa d193

L oad13 0

Load4 8L oad16 7

Load2 14

Load 69

Loa d66

L oad20 3

Loa d9

L oad18 7

L oad47

Load 227

Lo ad161

Load 156

Load 74

L oad11 6

Loa d140

Lo ad216

Lo ad119

Lo ad5

Loa d198

Lo ad238

Lo ad134

Loa d14

Loa d197

Load8

Load 237

Load 178

Loa d28

Lo ad20 5

Loa d40

Lo ad17 3

L oad22 9

Loa d56Loa d181

Load3 2

Load 15

Lo ad12 1

L oad77Load1 38

Loa d155

Load 182 Loa d199

Loa d159

Lo ad230

Load5 8

Load 62

Lo ad26

Load2 25

L oad43

Lo ad196

Lo ad168

Load2 1L oad1

Lo ad186

Lo ad18 0

Lo ad212

Lo ad20 6

Load 73

L oad11

Loa d157

Load 100

Load8 0

Load 45

Loa d52

Load 60

Lo ad42

Load1 26

Loa d142

Loa d185

L oad82

Lo ad220

Load1 65

Loa d44

Load 30

Lo ad97

L oad1 71

Lo ad215

Lo ad217

Load 177

L oad27

L oad20 2

Lo ad194

Load1 01

Load 241

Qc =0. 000Ic= 0.0

Qc =0. 000Ic= 0.0

Qc= 2.0 00I c=8 3.7

Qc=0. 000Ic =0. 0

Qc=0. 150I c=3. 5

Qc=2. 000Ic =83. 7

Qc=0. 100Ic =2. 3

Qc=0. 000Ic =0. 0

Qc=2. 000Ic =83. 7

Bu s836

B us31

B us4 06

B us27 9

B us7 20

Bus1 71

B us32 2

Bus5 91

B us716

Bus2 84

Bus 585

B us20 1

Bus 755

B us444

B us13 4

B us51

Bus 581

B us59 6

Bus 332

B us629

Bus 182

B us775

Bus5 88

B us296

B us385

B us454

B us62

B us62 6

Bus6 74

Bu s29

Bu s820

B us26 3

B us51 3

B us568

B us180V =13. 8/ -7.5 °

Bus1 77

B us1

B us61

B us85

B us540

Bus 816

B us41

B us36 5

Bu s351

Bus7 8

B us123

B us73 4

Bu s564

B us15

Bu s619

Bus4 77

Bus4 59

Bu s567

B us47

Bus8 51

B us94

Bus2 11

B us349

B us67

B us3 28

Bu s791

B us255

Bus 768

V =24. 9/ -0. 1°

B us77 4V =0. 22/ -7. 7°

B us28 8

B us103 8

B us379

Bus2 83

B us492

Bu s857

Bu s472

Bu s314V =24 .9/ 0. 0°

B us210

B us69 3

B us218

Bu s215

Bus6 50

Bus6 88

Bu s122

B us55 9

Bu s617

Bus2 99

B us128

Bus2 48

B us2 82

Bu s309Bu s704

Bus 757

Bu s219

Bu s116

Bus1 072

Bu s427

Bus7 17

B us4 38

B us1 32

B us276

B us33 6

Bus3 89

B us666V =13. 8/ -7.4 °

B us67 1

B us42

Bus7 72V=1 3.8 /-7. 9°

Bus8 50

Bu s762

B us19 8

Bus 225

B us549

B us855

Bus 849

B us57 6

Bus7 99

Bu s475

V =110 .0/ 0. 0°

Pi =0. 522Qi=0. 522

B us25 8

Bus 846

N et 872

V= 110. 0/ 0.0 °

P i=1 6.3 44Qi= 16. 344

Bus 536

Bus 727

Bus8 30

Bu s814

Bus5 97

B us54 4

Bus2 33

Bus 655

B us101

B us371

B us38 0

B us48 3

B us681

B us806

B us15 7

B us42 3

B us86 9

Bus 447

Bus2 32

Bu s1035

Bu s678

Bus 656B us345

Bus 273

Bu s235

B us53 4

B us22 0

B us800V =13. 8/ -7.5 °

B us39 0

Bus2 42

Bu s264

Bus2 57

B us78 8

Bus 882

B us245

Bu s680

B us67 9

B us19 4

Bu s275B us224

Bu s527

B us37 8

Bu s771

B us78 1

B us341

B us53

B us208

B us18 3

Bus 231

Bus7 79

B us509

B us113

Bus1 40

B us28

Bu s239

B us769

Bu s148

B us70 3

Bus 868

B us6 41

Net 873

Pi= 13. 870Qi =13. 870

Bus1 19Bus 95

Bu s151

V =24 .9/ 0. 0°

Bus3 50

Bus 557

Bu s621

B us803

B us34 0

B us4

B us18

Bus 861

B us560

Bus4 28

Bu s563

Bus7 56

B us41 1

B us43 2

B us69 6

B us8 71

Bus 531

B us287

Bus 144

B us85 8

Bu s712

Bus 741

B us8 18

B us709

Bus2 89

B us1 2Bus 39

Bu s690B us22 1

B us77 3

B us60 5

Bus1 42

B us5 0

B us120

B us633

Bus5 98

Bus 545

Bus5 89

B us2 49

B us72 1

Bus 867

B us57

B us61 0

Bus4 10

B us3 26

B us1 073

Bus2 43

B us2 98

Bu s821 B us78 0

B us74 2

B us64 3V =0. 22/ -7. 6°

B us247V =0. 22/ -7. 6°

Bus6 68

Bus5 05

B us60 6

Bu s300

B us244

B us508

Bus6 4

B us65 7

B us43 0

B us26 2

Bus2 60

Bus5 03

B us580

Bus 880

B us16 4

Bus 739

Bus8 1

B us66

Bus 866

B us17 0

Bu s301

Bu s746

B us35 6

Bus 646

B us543

B us317

Bus 622

B us193

Bu s778

B us65

Bu s538

B us632

B us41 9

B us11 0

Bu s752

B us4 60

B us81 3

Bus 524

Bu s72

B us902

Bu s400

B us39 1

Page 14: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 14 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control –The Full-blown Distribution Management System

FieldEquipment Electr./Gas/Water/Heat

Distribution SCADA

Base System

Enterprise Service Bus

Adapter

Service

Adapter Adapter Adapter Adapter

SCADA IMM

HISTNAFA

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Service

Geographical Information

System

CustomerRelationship Management

EnterpriseResourcePlanningAdapter

Easy to integrate into enterprise ITbased on Enterprise Service Bus

AdapterAdapter

Distribution Network

Applications

Outage Management System (OMS)

Geo-graphic Information System

(GIS)

Mobile WorkforceManagement

CustomerInformation

System

Advanced Metering Infrastructure (AMI)

Interface & Services Interface & Services Interface & Services Interface & Services

OMSDatabase

OMSDatabase

Fault Detection &Outage Record

Creation

Fault Detection &Outage Record

CreationFault LocationFault Location

Restoration of ServiceRestoration of ServiceOutage RecordClosing

Outage RecordClosing

Reports & StatisticsGeneration

Reports & StatisticsGeneration

Fault RepairFault Repair

Crew AssignmentCrew Assignment

Fault IsolationFault Isolation

Outage RecordArchiving

Outage RecordArchiving

Sub st6

Sub st5 0

Sub st1 9

S ubst 35

S ubst 12

Su bst 25

Sub st1 7

S ubs t43Su bst 15

S ubst 36

Su bst 75

S ubst 51S ubst 33

Su bst 68

Sub st5 2

S ubst 30

S ubst 7

S ubst 40

S ubst 18

S ubst 4

S ubs t63

S ubst 26

S ubst 58

Sub st4 5

S ubst 28

Sub st1 1

S ubst 73

Su bst 23

Su bst 69

Subs t3 7

S ubst 20

Su bst 22

S ubst 2

Sub st3 2

S ubst 42

Sub st6 5

S ubst 16

Subs t47

S ubst 72

S ubst 1

Subs t5

Subs t6 1

S ubst 53

Sub st2 1

S ubs t70

Subs t7 4

S ubst 64

S ubst 44

S ubst 55

S ubst 57S ubst 8

S ubst 59

S ubst 62

Subs t6 0

S ubst 24

Subs t31

Sub st3

S ubst 66

Sub st7 7

Subs t2 9

S ubs t14

Subs t34

Subs t4 1

Subs t1 3

S ubst 54

Su bst 39

S ubst 56

Sub st2 7

Sub st9

Subs t4 9

S ubst 38

ab

CB

OFI,EFI

OFI,EFI

bcOFI,EFI

a

Cur rRel Curr Rel

13.8

Curr Rel

c

P ,Q,I

OFI,EFI

110

O FI, EFI

US-D2

ab

OFI,EFI

F1

Re m LB Ss

O FI, EFI

b

bc

c

OFI,EFI

abc (balanced load)

b

OFI,EFI,IFI

O FI, EFI

c

OFI ,EFI

OFI,EFI

OFI,EFI

OFI,EFI

OFI,EFI

ab

bc

c

c

OFI,EFI OFI,EFI,IFI

F5

c

Curr Rel

F4

a

Re m L BS s

P, Q, I

bc

R

OFI,EFI

P, Q, I

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R em LB Ss

P, Q, I

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LV DNA

a

US MV DNA

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(balanced

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EU MV DNA

load )

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IEEE4

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b

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110

b

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GIS Feeder 9

IEEE13

OFI ,EFI, IFI

CB

b

R

OFI,EFI,I FI

Re m C Bs

F3

ac

P, Q,I

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OYg/od

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a

c

F6

c

O FI, EFI

OFI,EFI

OFI,EFI

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IEEE34

R

O FI, EFI

P, Q,I

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R

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b

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ac

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ab

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abc

24.9

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ac

a

P, Q, I

P, Q, I

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LVR

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c

bc

ab

c

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bc

a

R

bc

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abc (balanced load)

CB

OFI,EFI,IFI F3

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b

Cur rRe l

ab

ac

Yg/d

a

CB

a

TNA

US-D1

TR9 5

T R54

TR7 9

TR 164

TR3 20

0%

T R97

P=0 .00 0Q=0. 000I= 0.00%

TR 209

P=0. 000Q= 0.0 00I=0 .00%

TR28 5

TR 217

T R228

0%

TR7 8

88%

T R28 6

TR2 05

0%

T R299

T R244

TR88

TR7 1

0%

25 kVA

TR33 2

T R45

TR28 3

0%

T R189

50 kVA

TR 305

TR 4

T R297

0%

TR 28

50 kVA

75 kVA

0%

50 kV A

TR 256

TR 176

TR 227

T R70

T R13

TR 16

TR3 14

TR 24

TR2 61

0%

T R90

0%

TR 192

TR21 6

50 kV A

TR 307

TR30

TR 53

TR17 782%

0%

TR2 54

0%

TR 21

TR 163

P=0 .00 0Q=0. 000I= 0.00%

TR 223

0 %

TR6 5258 7%

TR3 31

TR52

0 %

TR 214

T R43

TR2 020 %

0%

TR9 9

0%

TR 83

T R354

128%

TR3 04

T R58

TR1 32

TR 14

0%

T R201

75 kVA

TR2 30

TR 317

Gen1

Gen2

L oad20 4

Lo ad117

Load 195

Load8 1

Load 84

Lo ad21 8

Lo ad175

Lo ad144

Load2 13

L oad23 4

Load 183

Lo ad17 9

Lo ad160

Load1 70

Load1 33

Lo ad228

Load2 22

Loa d132

Load2 24

L oad21 0

L oad2

Load1 04

Loa d29

L oad14 6

Loa d110

Load 242

Lo ad13

Loa d236

Load 169

Load9 1

Load6 7

L oad1 72

Loa d211 Load2 23

Load 113

L oad18 8

L oad2 07

Lo ad221

Loa d239

Load 208

Load1 36

Load 201

Load 76

Load 68

Lo ad124

Load2 26

Load 55

Lo ad14 5

L oad16 6

Loa d90

Load1 90

Lo ad3

Lo ad209Load1 74

L oad23 3

Load6 4

Loa d192

Load 164

L oad16

Load 191

Lo ad13 9

Loa d200

Loa d154

Load1 84

Loa d131

Lo ad20

Loa d193

L oad13 0

Load4 8L oad16 7

Load2 14

Load 69

Loa d66

L oad20 3

Loa d9

L oad18 7

L oad47

Load 227

Lo ad161

Load 156

Load 74

L oad11 6

Loa d140

Lo ad216

Lo ad119

Lo ad5

Loa d198

Lo ad238

Lo ad134

Loa d14

Loa d197

Load8

Load 237

Load 178

Loa d28

Lo ad20 5

Loa d40

Lo ad17 3

L oad22 9

Loa d56Loa d181

Load3 2

Load 15

Lo ad12 1

L oad77Load1 38

Loa d155

Load 182 Loa d199

Loa d159

Lo ad230

Load5 8

Load 62

Lo ad26

Load2 25

L oad43

Lo ad196

Lo ad168

Load2 1L oad1

Lo ad186

Lo ad18 0

Lo ad212

Lo ad20 6

Load 73

L oad11

Loa d157

Load 100

Load8 0

Load 45

Loa d52

Load 60

Lo ad42

Load1 26

Loa d142

Loa d185

L oad82

Lo ad220

Load1 65

Loa d44

Load 30

Lo ad97

L oad1 71

Lo ad215

Lo ad217

Load 177

L oad27

L oad20 2

Lo ad194

Load1 01

Load 241

Qc =0. 000Ic= 0.0

Qc =0. 000Ic= 0.0

Qc= 2.0 00I c=8 3.7

Qc=0. 000Ic =0. 0

Qc=0. 150I c=3. 5

Qc=2. 000Ic =83. 7

Qc=0. 100Ic =2. 3

Qc=0. 000Ic =0. 0

Qc=2. 000Ic =83. 7

Bu s836

B us31

B us4 06

B us27 9

B us7 20

Bus1 71

B us32 2

Bus5 91

B us716

Bus2 84

Bus 585

B us20 1

Bus 755

B us444

B us13 4

B us51

Bus 581

B us59 6

Bus 332

B us629

Bus 182

B us775

Bus5 88

B us296

B us385

B us454

B us62

B us62 6

Bus6 74

Bu s29

Bu s820

B us26 3

B us51 3

B us568

B us180V =13. 8/ -7.5 °

Bus1 77

B us1

B us61

B us85

B us540

Bus 816

B us41

B us36 5

Bu s351

Bus7 8

B us123

B us73 4

Bu s564

B us15

Bu s619

Bus4 77

Bus4 59

Bu s567

B us47

Bus8 51

B us94

Bus2 11

B us349

B us67

B us3 28

Bu s791

B us255

Bus 768

V =24. 9/ -0. 1°

B us77 4V =0. 22/ -7. 7°

B us28 8

B us103 8

B us379

Bus2 83

B us492

Bu s857

Bu s472

Bu s314V =24 .9/ 0. 0°

B us210

B us69 3

B us218

Bu s215

Bus6 50

Bus6 88

Bu s122

B us55 9

Bu s617

Bus2 99

B us128

Bus2 48

B us2 82

Bu s309Bu s704

Bus 757

Bu s219

Bu s116

Bus1 072

Bu s427

Bus7 17

B us4 38

B us1 32

B us276

B us33 6

Bus3 89

B us666V =13. 8/ -7.4 °

B us67 1

B us42

Bus7 72V=1 3.8 /-7. 9°

Bus8 50

Bu s762

B us19 8

Bus 225

B us549

B us855

Bus 849

B us57 6

Bus7 99

Bu s475

V =110 .0/ 0. 0°

Pi =0. 522Qi=0. 522

B us25 8

Bus 846

N et 872

V= 110. 0/ 0.0 °

P i=1 6.3 44Qi= 16. 344

Bus 536

Bus 727

Bus8 30

Bu s814

Bus5 97

B us54 4

Bus2 33

Bus 655

B us101

B us371

B us38 0

B us48 3

B us681

B us806

B us15 7

B us42 3

B us86 9

Bus 447

Bus2 32

Bu s1035

Bu s678

Bus 656B us345

Bus 273

Bu s235

B us53 4

B us22 0

B us800V =13. 8/ -7.5 °

B us39 0

Bus2 42

Bu s264

Bus2 57

B us78 8

Bus 882

B us245

Bu s680

B us67 9

B us19 4

Bu s275B us224

Bu s527

B us37 8

Bu s771

B us78 1

B us341

B us53

B us208

B us18 3

Bus 231

Bus7 79

B us509

B us113

Bus1 40

B us28

Bu s239

B us769

Bu s148

B us70 3

Bus 868

B us6 41

Net 873

Pi= 13. 870Qi =13. 870

Bus1 19Bus 95

Bu s151

V =24 .9/ 0. 0°

Bus3 50

Bus 557

Bu s621

B us803

B us34 0

B us4

B us18

Bus 861

B us560

Bus4 28

Bu s563

Bus7 56

B us41 1

B us43 2

B us69 6

B us8 71

Bus 531

B us287

Bus 144

B us85 8

Bu s712

Bus 741

B us8 18

B us709

Bus2 89

B us1 2Bus 39

Bu s690B us22 1

B us77 3

B us60 5

Bus1 42

B us5 0

B us120

B us633

Bus5 98

Bus 545

Bus5 89

B us2 49

B us72 1

Bus 867

B us57

B us61 0

Bus4 10

B us3 26

B us1 073

Bus2 43

B us2 98

Bu s821 B us78 0

B us74 2

B us64 3V =0. 22/ -7. 6°

B us247V =0. 22/ -7. 6°

Bus6 68

Bus5 05

B us60 6

Bu s300

B us244

B us508

Bus6 4

B us65 7

B us43 0

B us26 2

Bus2 60

Bus5 03

B us580

Bus 880

B us16 4

Bus 739

Bus8 1

B us66

Bus 866

B us17 0

Bu s301

Bu s746

B us35 6

Bus 646

B us543

B us317

Bus 622

B us193

Bu s778

B us65

Bu s538

B us632

B us41 9

B us11 0

Bu s752

B us4 60

B us81 3

Bus 524

Bu s72

B us902

Bu s400

B us39 1

Page 15: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 15 12.Sept 2012

© Siemens AG 2012. All rights reserved.

SCADA

SecuritySmart MetersMapData(GIS)

InteractiveVoiceResponse System&Customer Information System

Distribution Network Analysis

Personnel& Unit Data

Grid Control –Requirements from the Operator of a Distribution Ne twork

Operational DataModel

+ +All applications In one UI In one operational data model

Page 16: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 16 12.Sept 2012

© Siemens AG 2012. All rights reserved.16

AgendaGrid Control Center and Graphical Information Syste ms (GIS)

Smart Grid–Grid Control Center by Siemens

GIS Integration –Solutions and Scenarios

GIS-Integration -Project Examples

GIS-Integration -Customer Requirements

Page 17: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 17 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center –The Top 5 for Advanced Distribution Management Syst ems

Spectrum Power 7for Large EMS/DMS

Solutions for Advanced Distribution Management Syst ems

Integrated, highly-available and user-friendly HMI for Visualization of geographic and schematic Network Displays (based on GIS – Geographi c Information System)

Unified and integrated Data Model for SCADA, Outage Management Systems and Applications for Distribution Networks Analysis

Advanced Applications for Distribution Grid Analysi s & Optimization

Outage Management Systems (OMS) incl. integration w ith SCADA and for very large Distribution Management Systems

Interfaces and Service Oriented Architecture for IT Integration

Gartner

1

2

3

4

5

Page 18: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 18 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Visualization

� Navigation in the network is based on the status of the equipment

� Schematic display layout is optimized for network control and operation � Removing details not needed for operation� Adding details needed for operation� Optimizing layout & location of equipment

� Advanced DMS solutions include Automatic Display Generation of schematic displays based on geographic displays of GIS-systems

Schematic View

� Navigation in the network is based on the geo-graphical coordinates of the equipment.

� Geographic display layout uses land-based maps to access equipment for operation and control based on their geographic position .

� SCADA operation & control actions require an entire, properly scaled network view on the screen.

� This properly scaled network view is often difficult to achieve with geographic displays and the underlying geographic coordinate-system.

Geographic View

1 of 5

Page 19: 13. Seminar GIS & Internet – UniBw München , 12. – 13.09...© Siemens AG 2012. All rights reserved. 13. Seminar GIS & Internet – UniBw München , 12. – 13.09.2012 Intelligent

Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 19 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Example for Integrated Visualization

SCADA

1.Operate device from Schematic Display.

GIS

2. Show change to device in GIS view

OMS

3. Analyze outages and generate outage reports

1 of 5

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 20 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Unified and integrated Data Model

IEC TC57 Standards

Network Operation

Records&

Asset Management

Operational Planning

& Optimization

Maintenance&

Construction

Interface

Network Extension Planning

Customer Support

Meter Reading&

Control

Energy Management

& Energy Trading

InterfaceInterfaceInterface

InterfaceInterfaceInterfaceInterface

Interface Standard Interface

Utility Electric NetworkPlanning, Construction, Maintenance and Operations

There are three main standards within CIM:

� IEC 61970 –EMS Application Program Interface

� IEC 61968 –System Interfaces for Distribution

� IEC 62325 –Energy Market Communications

IEC-Standard and Common Information Model (CIM)

2 of 5

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 21 12.Sept 2012

© Siemens AG 2012. All rights reserved.

CIM is an object oriented information model of the power grid

� Classes describe the objects, their attributes and their relations with other objects (i.e. a transformers is included in a substation, has a name,nominal voltage,etc…)

� Instances describe the concrete objects of a class as they exist in the system

Grid Control Center Unified and integrated Data Model

CIM ( IEC 61970 ) is an object oriented information model of the power grid

2 of 5

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 22 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Unified and integrated Data Model

61968-13 CIM RDF Model Exchange Format for Distribution (CDPSM)

61968-1 Interface Architecture and General Requirements61968-100 Enterprise Service Bus (ESB) Profile61968-2 Glossary61968-3 Network Operations61968-4 Asset Management

61968-6 Maintenance and Construction61968-5 Operational Planning and Optimization

61968-7 Network Extension Planning61968-8 Customer Support61968-9 Meter Reading& Control61968-11 Common Information Model (CIM) for Distribution61968-12 Compliance and Interoperability Testing

61968-14-2 CIM profile for MultiSpeak61968-14-1 Mapping between MultiSpeak and IEC 61968

IEC 61968 – Defines System Interfaces for Distributi on

2 of 5

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 23 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Unified and integrated Data Model

61968-13 CIM RDF Model Exchange Format for Distribution (CDPSM)

61968-1 Interface Architecture and General Requirements61968-100 Enterprise Service Bus (ESB) Profile61968-2 Glossary61968-3 Network Operations61968-4 Asset Management

61968-6 Maintenance and Construction61968-5 Operational Planning and Optimization

61968-7 Network Extension Planning61968-8 Customer Support61968-9 Meter Reading& Control61968-11 Common Information Model (CIM) for Distribution61968-12 Compliance and Interoperability Testing

61968-14-2 CIM profile for MultiSpeak61968-14-1 Mapping between MultiSpeak and IEC 61968

IEC 61968 – Defines System Interfaces for Distributi on

2 of 5

61968-100 defines Enterprise Service Bus (ESB) Pro file

Defines the general concept and design of messages for integration via an Enterprise Service Bus.

Defines how the messages shall be derived based on CIM –message structure: message header and message payload.

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 24 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center Advanced Applications for Distribution Networks Ana lysis

� One Distribution Network Application Suite for all distribution networks

� Integration with OMS/DMS systems via SOA (Service Oriented Architecture)

� supports different network types� Balanced / unbalanced � symmetrical / unsymmetrical� radial / meshed

� covers the drivers in a Smart Grid:� Increasing network sizes� Increasing performance requirements� Closed loop operations� Need to know real-time operation

conditions better – state estimation� Distributed generation

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Qc=0.10 0Ic=2 .3

Q c=0 .000Ic =0.0

Qc =2.0 00Ic=83.7

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3 of 5

Fault Location (FLOC)

Fault Isolation & Service Restoration (FISR)

Fault Analysis

Distribution System Powerflow(DSPF)

Distribution System State Estimator (DSSE)

Short Term Load Scheduler (STLS)

Volt-/Var Control (VVC)

Short Circuit Calculation (SCC)

Optimal Feeder Reconfiguration (OFR)

Optimal Capacitor Placement (OCP)

Distribution Security Analysis (DSA)

NetworkAnalysis

&Optimization

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 25 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Crew Management

Grid Control Center Outage Management System ( incl. integration with SCADA)

OMS creates Outage Record ensures transparency and triggers further workflows

3

Generating a Switching Procedureto isolate the fault and to re-supply power to customers

4

Assigning the Crew to execute the switching procedure(s)5

Generating the Outage Report for outage-specific documentation6

Switching Procedure

Problem in the Field ...1

...enforces trip of a Circuit Breaker e.g. generates SCADA Alarm2

Before

At

After

Create Outage Record

Generate Outage Report

4 of 5

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Page 26 12.Sept 2012

© Siemens AG 2012. All rights reserved.

• AGC Automatic Generation Control• CFE Communication Front End• CIM Common Information Model• CME CIM Market Extension• ICCP Inter Control Center Comm. Protocol• IMM Information Model Manager• LC Limit Calculator• LF Load Forecast• LFC Load Frequency Control• LM E Load Management Electricity / Gas• MIA Market Interface Application• OEP Operational Economic Planning• OMS Optimal Maintenance Scheduling• OS Outage Scheduler (Generation/Transmission)• OTS Operator Training Simulator• PDG Preliminary Dispatch Generation• SM W Supply Managment Water• TM Transaction Management• TNA Transmission Network Application

IMM SCADA Archiv OutageManagement

Load Management

E/G

ICCP

Adapter Adapter Adapter Adapter Adapter

Adapter

CFE

Adapter

DistributionNetworkAnalysis

Adapter

EngineeringModel andData (CIM)

DataInformationExchange

Model (CME)Real Time Data Collection

and Processing

Control Center with SCADA and Applications

TransmissionNetwork System

StabilityAnalysis

TransmissionNetwork Analysis

Customer InformationSystem

Trouble CallCenter

Interact. VoiceResponse

System

Advanced MeterInfrastructure

Load Profile Management

Meter DataManagement

Geographical InformationSystem

GIS-Maps & Coordinates

Network Structure &

Connectivity

SOA-Adapter SOA-Adapter SOA-Adapter SOA-Adapter SOA-Adapter SOA-Adapter

Enterprise Service Bus Services (ESB with IEC 61968 )

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

SOA-Adapter

Planning & Asset Management

Grid Planning

AssetManagement

High Speed Bus Services

Grid Control Center Interfaces and Service Oriented Architecture for IT Integration 5 of 5

Spectrum Power™Service-Oriented-Architecture

*) Services IEC 61968

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 27 12.Sept 2012

© Siemens AG 2012. All rights reserved.27

AgendaGrid Control Center and Graphical Information Syste ms (GIS)

Smart Grid–Grid Control Center by Siemens

GIS Integration –Solutions and Scenarios

GIS-Integration -Project Examples

GIS-Integration -Customer Requirements

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 28 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Grid Control Center -How much GIS-Integration is needed ?

Degree of Integration

Sco

pe o

f In

tegr

atio

n

The answer is ...... this is heavily dependant on the utility workfl ows for operating the distribution grid

• Different Users for GIS and Control Center

• Data Models of GIS and DMS Control Center maintained separately

• Different data entry tools• Different operator

consoles and UIs

No Integration

• Some Users both for GIS and Control Center

• Data Models maintained separately, but simplified mapping of equipment via mapping-tables

• Common Operator console, but with different UIs

UI–Client-Integration • Many common Users for GIS and Control Center

• Common Data Model with defined Data Mastership ensures data consistency.

• Improved utilization of data entry tools

Data-Model-Integration

Data Model • GIS-Information in the Control Center is mandatory for Distribution Grid Operation, Outage Management, ...

• Integrated Data Model • Integrated consoles & UI

Appl. - Integration

Data Model, UI, Applications

Operator Usability

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

Page 29 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Project Example (# 01) UI-Navigation between DMS and Google-Maps

UI Integration Scenario between DMS and GIS-Display, Google Maps

Use Case Show geographical location of equipment to operator

DMSSCADA – Station Display

user interface

object ID

Google Maps,GIS-Display,

Map Object IDto coordinates

coordinates

GIS – Display

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Page 30 12.Sept 2012

© Siemens AG 2012. All rights reserved.

Project Example (# 02) GIS as Data Source

GIS as Data Source

DMS Control Center

Rules

GISImportTools

Data Mapping

Table

GIS-Data-Model with

• Land-based GIS-Maps with Geographic coordinates

• Network Structure & Connectivity , (Substations, connectivity, attributes,..)

• Electrical and Equipment- Data ( power lines, line-length, line-impedances, transformers, .. )

Gateway e.g. XML

GIS Data Import

Network Connectivity

Substation Display

Geographical Map with Network

Distribution PowerFlowdetects overload based on static attributes of power lines and transformers modeled in GIS

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Project Example (# 02) Workflow for a complete GIS Data Export

Complete exportof GIS Database1

Tiling the network 2

Change detection =>comparing the GIS database versus last data import

3

Delta-ImportOnly Tiles with changes will be imported

4

Data-Adaption to Control Center DMS Import Format

5

Auto-Display Generationfor Geographical and Schematic displays

6

GIS-Export

NetworkTiling

ChangeDetection

Delta-Import

Data-Adaption

AutomaticDisplay-

Generation

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Project Example (# 02) Automatic Display Generation

Schematic Display (Auto-generated from GIS)

Geographic Display(Imported from GIS)

Automatic Layout and Schematizing A Layout – and optimization algorithm auto-generates the schematic displays based on the geographic displays

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Project Example (# 03) Overview of Components and Data Flows

3

Data for association between • Customer and • Distribution Transformer Station

2

Data for • Trouble Call Mgmt.• Distribution Power Flow

Data for DMS Control Center• GIS-Displays• Network Data• Equipment Data

1

SAP

• Customer- Access-Data

• Customer Load Profiles

Production System Test System

DMSControl Center

Geographic Information System

• GIS-Maps with Geographic coordinates

• Network Structure & Connectivity , (Substations, attributes,..)

• Electrical and Equipment-Data ( power lines, line-length, line-impedances, transformers, .. )

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Project Example (# 03)Utility-Workflow

Start of GIS-Export for SAP1 1Transfer of GIS-Export-Data to SAP2 2

Import of GIS-Data into SAP3 3Start of SAP-Export for DMS - TCM ( Trouble Call Management )4 4

End of Display-Import at Production-System11 11

Start of GIS-Export for DMS5 5Start of Import of SAP-Data for DMS– TCM ( Trouble Call Management )6 6

Start of GIS-Import at DMS-Test-System7 7End of GIS-Import at DMS-Test-SystemData Verification, Start Auto-Display-Gene.8 8

Start of GIS-Import at DMS-Production-System9 9End of Auto-Display-Gene. at Test-SystemEnd of GIS-Import at Productive-System10 10a 10b

GIS DMSProduction CC

DMSTest CC

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Project Example (# 03)User Interface for Network Displays

Geographic and corresponding Schematic Display Imported Geographic Display

Auto-Generated Schematic DisplayGeographic Display with special Info for Urban Area

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Sector Infrastructure & Cities13. Seminar GIS & Internet – UniBw München Referent Thomas Vogl (Siemens AG)

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Summary and Outlook

Integration between GIS and Grid Control Center helps to increase efficiency for Grid operation in the Control Room

and to shorten reaction timesEfficiency

The scope and the degree of GIS-Integration has to follow the utility process and the utility-specific workflows

to manage and operate the distribution grid

Process &Workflows

The usage of GIS-systems varies from utility to utility. Intelligent Technologies like Change-Detection, Delta-Import, Auto-

Display-Builder help to improve engineering efforts for GIS-Integration

IntelligentTechnologies

Compliance with standards leads to more robust solutions and increased openness for utility-IT Integration with a Service Oriented

Architecture. The basis is CIM / IEC61970 (EMS-Power Grid)

and IEC 61968 (System Interfaces for Distribution)

Standards & Services (SOA)

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GenerationTransmission

Distribution Customers-Industries and Residences

Industry

Fit for the Smart Grid ... ... with integrated solutions for Grid Control Cent er

Thank you for your attention!