prst clp500 en

Power Systems Automation 1/64

Version 2.2

2008-03-06

Distributed Platform for Supervision,Control and Protection

Technology that moves

the world


CLP 500 Overview

CLP 500SCC Application

Menu

CLP 500 Conclusions

CLP 500RTU Application

CLP 500ASE Application

CLP 500 Introduction


CLP 500 Versions

• Distributed Platform for Control, Supervision or Protection

• CLP 500 featuring RTU Functions

• CLP 500 featuring Command, Control and Protection Functions

• CLP 500 featuring Substation Automation Functions

• CLP 500 featuring Auxiliary Services Automation Functions

• CLP 500 featuring Power Plant Group Automation Functions

• CLP 500 featuring Local Tele-regulation Functions

• CLP 500 featuring Front-end Processor Functions

• CLP 500 featuring Traction Power Substations and Catenary Automation Functions


EFACEC’s Experience

Since 1985 in the Substation and Power Plant Automation Business

Over 700 systems based on CLP 500, in operation or contracted for Substation Protection, Command and Control, up to 400 kV

Over 70 power plant management systems in operation or contracted, based on CLP 500

Worldwide customer base Portugal, Spain, Switzerland, Bosnia-Herzegovina, Czech Republic, Romania

Brazil, Venezuela, Chile, Colombia, El Salvador

Thailand, Singapore, Vietnam

Morocco, Algeria, Tunisia, Mozambique

Bahrain

Field experience on integrating IEDs and protection relays from other vendors, as well as on integrating solutions with third parties dispatches


CLP 500 Overview


Menu

CLP 500 Conclusions





A single platform for the entire substation, integrating information from multiple data sources to multiple purposes

Concept – Standard PC Based Solution, HMI (optional)

• CLP 500 Platform Central Unit, featuring SCADALAN

Ethernet

and optionally, HMI – Human Machine Interface

• CLP 500’s Control and Acquisition Units

• CLP 500’s Protection Relays Family

• CLP 500’s Synchronization Unit

• CLP 500’s Bay Control Unit



Concept – Diskless PC Based Solution, without HMI





• CLP 500 Embedded Platform Central Unit, featuring SCADA only

LAN

Ethernet



Concept – Diskless PC BasedSolution, with HMI

• CLP 500 Embedded Platform Human Machine Interface *

* Also available a standard PC based version

• CLP 500 Embedded Platform Central Unit, featuring SCADA only





LAN

Ethernet


CLP 500 Platform’s components


100% ElectronicHigh MTBF

Reduced MTTR

CLP 500 Platform’s components – Central Unit …


Characteristics

• Modular and distributed solutions

• Optional redundancy

• SNTP Synchronization with GPS

• Embedded Technology

• WINDOWS XP Embedded

• Embedded WEB Server

• Up to 3 LAN Ethernet ports

• Up to 20 RS 232 serial ports

• Communications with up to 8 Control Centres

• Communications with IEDs

Protocols with Control Centres

• IEC 60870-5-101/104

• DNP 3.0

Protocols with Protection Relays and IEDs

• IEC 61850-8-1 (MMS/GOOSE)

• IEC 60870-5-101/103/104

• SPABUS, MODBUS, JBUS, PROCOME, M LINK, SEL FM

CLP 500 Platform’s components – … Central Unit


• Differences

• None

• Human Machine Interface implementation in a WEB environment, through rich client type applications

• And … why are there two names for the same interface?

• It is just a designation option …

• … to identify correctly the WEB’s server type

CLP 500 Platform’s components – HMI …


• Hardware without disks or cooling fans, 100% electronic

• Embedded technology

• WINDOWS XP Operating System - Embedded

WEB Server

CLP 500 Platform’s components – … HMI …


• Hardware types for client applications execution

• Industrial PC

• Desktop PC

• Laptop PC

• PDA

• Workstations quantity

• Up to 128, according to licensing

• Local and remote access through an IP connection (LAN, WAN)

CLP 500 Platform’s components – … HMI …


Commercial WEB Browser

Menu

• Help

• Event list

• Schematic Diagrams

• Diagnosis

• Database

• Alarm list

• etc.

Schematic Diagram

• Navigation

• Zoom

• Panning

• Layers

Alarm summary

CLP 500 Platform’s components – … HMI


CLP 500 Platform’s components – Modules

Digital Inputs

Digital Outputs

DC Analogue Inputs

Acquisition

Control

Automation

Digital Inputs

Digital Outputs

AC Analogue Inputs

Acquisition

Control

Automation

Protection

Digital Inputs

Digital Outputs

DC Analogue Inputs

AC Analogue Inputs

Acquisition

Control

Automation

Digital Inputs

Digital Outputs

AC Analogue Inputs

Acquisition

Control

Automation

Synchronism

Digital Inputs

Digital Outputs

AC Analogue Inputs

Acquisition

Bay Control

Automation

Synchronism


CLP 500 Integration on EFACEC SCADA Systems

Dispatchlevel

Substationlevel

Baylevel

National Dispatch Distribution Dispatch

Regional Dispatch

Communications network

Ethernet LAN IEC 60870-5-104, IEC 61850

DNP 3.0IEC 60870-5-101 /

104

Redundancy according to the customer needs


CLP 500 Integration on Other SCADA Systems

Dispatchlevel

Substationlevel

Baylevel

3rd partyNational Dispatch

Communications network

3rd partyDistribution

Dispatch

3rd partyRegional Dispatch

DNP 3.0IEC 60870-5-101 / 104

IEC 60870-5-103, MODBUS, DNP 3.0, SPA Bus, etc.

3rd partyProtections

and IEDs

Redundancy according to the customer needs

Ethernet LAN IEC 60870-5-104, IEC 61850


An Integrated Solution

Automation User Interface

ProtectionCommand

Communications

Supervision

Engineering

Control


CLP 500 Overview

Integrated solution for Substation Automation, including Command, Control and Protection Functions

Integrated solution for Power Plant Automation

Distributed data acquisition architecture

Modular, flexible and expandable (up to 256 protections or acquisition units)

Open system At the hardware and software level

Relational Database

Communications

High reliability


Design Principles…

Open Platform… Wide use of standard solutions (Hardware and Software)

Networks – Ethernet, LonWorks

Protocols – TCP/IP, IEC 60870-5-101 / 103 / 104, DNP 3.0, IEC 61850

Human Machine Interface – Windows XP / Windows XP embedded

Operating Systems – Windows XP / Windows XP embedded

Automation according to the IEC 61131-3 standard


… Design Principles…

… Open Platform Provides wide access to substation information

Suitable for the integration of 3rd party systems, products andsoftware

IEDs

Protections

Communication Interfaces and protocols

Software tools


… Design Principles

Reduction of the life cycle costs

Compatibility within EFACEC’s products, both at hardware and software level, reducing:

Training costs

Maintenance costs

Upgrade costs

Engineering costs

Phased implementations, protecting the initial investment

Distributed processing Real time database and automation

Suitable for the integration of commercially available solutions

Flexibility and modularity


CLP 500 Overview


Menu

CLP 500 Conclusions





RTUs


CLP 500RTU Scope …

Distribution Substations

Field experience


Distribution Substations Data acquisition and supervisory control fully performed by

EFACEC’s UA 500 and UAC 420, and 3rd party IEDs

… CLP 500RTU Scope


… CLP 500RTU Main Functions …

Supervision, Command and Control Functions AC and DC Analogue Measures and Treatment

Signalling Acquisitions and Treatment

Equipment Control

Local/Distance and Manual/Automatic

Event Logging (1 ms)

Alarm Management

Tap Regulation

Performed at Bay level

Substation level

Remotely, dispatch level


… CLP 500RTU Main Functions …

Human Machine Interface Functions

Cabinet or Desktop User Friendly Workplaces, provided by TFT Screens and Keyboards for Substation Control and Monitoring

TFT Screen for Bay Control and Monitoring

WEB Interface for HMI purposes

Schematics and Diagrams

Alarms and Lists

Acoustic Alarms

Archives, upon request

Online Configuration

Acquisition Units Integrated Configuration

Printers, upon request


… CLP 500RTU Main Functions

Communication Functions Proprietary Protocols

EFACEC Upon request

Standard Protocols Upstream

IEC 60870-5-101, IEC 60870-5-104 DNP 3.0

Downstream / Peer-to-peer IEC 60870-5-104, IEC 60870-5-103, IEC 61850, DNP 3.0 MODBUS

Master-master or master-slave: multiple channels with multi-protocol support, including redundant links

Twisted-pair, Fibre Optics Ethernet


Other CLP 500RTU Functions

Auto-diagnosis and Watchdog

Operational Statistics

Time Synchronization

High Precision through GPS and SNTP

Power Quality Analysis

Harmonic Analysis

Sag and Swell Analysis

Voltage Auxiliary Services Management

Non-interruptible Power Supply Management

Substation Facilities Management


Example of an Architecture with 3rd Parties Integration


Example of a Human Machine Interface – Schematic Diagram


CLP 500 Overview


Menu

CLP 500 Conclusions





Substation Automation and Telecontrol


CLP 500ASE Scope …


Field experience



EFACEC’s UA 500 and UAC 420, and 3rd party IEDs

Automation functions

… CLP 500ASE Scope


… CLP 500ASE Main Functions …



Equipment Control



Alarm Management

Tap Regulation


Substation level




Some Automation Functions Automatic Switching Sequences

Transformer Unit Automatic Substitution

Bay Automatic Transfer

Automatic Voltage Regulation

Load Shedding/Restoration; Frequency Shedding

Scheduled Capacitor Bank Control

Reclosing

Topology Verification, Bus-bar and Feeder Colouring

Distributed Automation Bay level

Substation level



Human Machine Interface Functions Cabinet or Desktop User Friendly Workplaces, provided by TFT

Screens and Keyboards for Substation Control and Monitoring




Alarms and Lists

Acoustic Alarms



Acquisition Units Integrated Configuration



… CLP 500ASE Main Functions

Communication Functions Proprietary Protocols

EFACEC

Upon request


IEC 60870-5-101, IEC 60870-5-104 DNP 3.0

Downstream / Peer-to-peer IEC 60870-5-104, IEC 60870-5-103, IEC 61850, DNP 3.0 MODBUS




Other CLP 500ASE Functions



Time Synchronization High Precision through GPS and SNTP

Power Quality Analysis Harmonic Analysis






Example of a Human Machine Interface – Schematic Diagram


Example of a Human Machine Interface – Automation

Automatic Tap Regulation


CLP 500 Overview


Menu

CLP 500 Conclusions





Substation Command, Control and Protection Systems


CLP 500SCC Scope …


Transmission Substations

Field experience up to 400 kV


CLP 500SCC Scope


EFACEC’s UA 500, SYNC 420 and UAC 420, and 3rd party IEDs

Protection functions fully performed by EFACEC’s TPU 420digital protection relays

Transmission Substations Data acquisition and supervisory control fully performed by

EFACEC’s BCU 500 and 3rd party IEDs

Protection functions are performed by EFACEC’s TPU 420 family and 3rd party digital protection relays


CLP 500SCC Main Functions …

Some Protection Functions Line Differential

Earth Directional

Over Current

Over/Under Voltage

Distance Protection with Reclosing

Bus-bar Differential

Transformer Differential

Synchrocheck, Automatic and Manual

Breaker Failure

Teleprotection

Interlocking

Oscillography and Fault Location


… CLP 500SCC Main Functions …



Equipment Control



Alarm Management

Tap Regulation


Substation level




Automation Functions Automatic Switching Sequences

Transformer Unit Automatic Substitution

Bay Automatic Transfer

Automatic Voltage Regulation

Load Shedding/Restoration; Frequency Shedding

Scheduled Capacitor Bank Control

Reclosing

Topology Verification, Bus-bar and Feeder Colouring

Distributed Automation Bay level

Substation level



Human Machine Interface Functions Cabinet or Desktop User Friendly Workplaces, provided by TFT

Screens and Keyboards for Substation Control and Monitoring




Alarms and Lists

Acoustic Alarms


Trend and Oscillography Displays


Acquisition Units and Protections Integrated Configuration



… CLP 500SCC Main Functions

Communications Functions Proprietary Protocols

EFACEC Upon request


IEC 60870-5-101, IEC 60870-5-104 DNP 3.0

Downstream / Peer-to-peer IEC 60870-5-104, IEC 60870-5-103, IEC 61850, DNP 3.0 MODBUS, SPA Bus, Fastmeter, Courier




Other CLP 500SCC Functions



Time Synchronization

High Precision through GPS and SNTP

Power Quality Analysis

Harmonic Analysis






Example of a Human MachineInterface – Schematic Diagram I


Example of a Human MachineInterface – Schematic Diagram II


x420 RANGEx420 RANGE

• Robust BoxRobust Box• CPU Board with three 32 bit processorsCPU Board with three 32 bit processors• 100 Mbps Ethernet Redundant Board100 Mbps Ethernet Redundant Board• Up to two I/O Expansion BoardsUp to two I/O Expansion Boards• Graphical Programmable LogicGraphical Programmable Logic• Mechanism for Test Simulation,Mechanism for Test Simulation, including virtual injection of AC including virtual injection of AC analogue measures analogue measures• LAN based Distributed AutomationLAN based Distributed Automation• Flexible ConfigurationFlexible Configuration• IEC 60870-5-104 ProtocolIEC 60870-5-104 Protocol• IEC 61850 IEC 61850

• Industrial PC without moving Industrial PC without moving

parts (disk, fans) parts (disk, fans)• Hard Disk based on Flash Hard Disk based on Flash RAM RAM• Redundant ConfigurationRedundant Configuration• Manages DAU500s and/or Manages DAU500s and/or x420s x420s• Up to 20 Serial PortsUp to 20 Serial Ports• Up to 3 LAN PortsUp to 3 LAN Ports• Communications with up to 8 Communications with up to 8 Control CentresControl Centres

• Communications with several Communications with several IEDs IEDs• Wide range of protocols Wide range of protocols available available• Windows XP Embedded Windows XP Embedded Operating SystemOperating System• CE MarkingCE Marking• IEC 61850IEC 61850

• Data AcquisitionData Acquisition• Alarm ProcessingAlarm Processing• Chronological RecordChronological Record• User and System DiagramUser and System Diagram• Single and Sequential Single and Sequential ControlControl• Modifiable Configuration Modifiable Configuration Online Online• Windows XP Operating Windows XP Operating System System

• Oracle DatabaseOracle Database

GPS Synchronization of the GPS Synchronization of the entire System via Ethernetentire System via Ethernet

UAC 420 UAC 420

• Supervision and Control UnitSupervision and Control Unit• Measurement of Electric ValuesMeasurement of Electric Values• Energy CountingEnergy Counting• Option of 2 or 8 DC Analogue InputsOption of 2 or 8 DC Analogue Inputs• Dedicated I/O Expansion Board with Dedicated I/O Expansion Board with 32 Digital Inputs 32 Digital Inputs

• RedundantRedundant• High PerformanceHigh Performance• Automatic Self Automatic Self Configuration Configuration• High Speed Fault RecoveryHigh Speed Fault Recovery• Zero Packet LossZero Packet Loss• IEC 61850IEC 61850

Example of a Station Level Architecture


• Measures AcquisitionMeasures Acquisition• Bay Automation Unit Bay Automation Unit (Frequency and/or (Frequency and/or Voltage Load Shedding, etc.) Voltage Load Shedding, etc.)

• Alarms AcquisitionAlarms Acquisition• Alarms GroupingAlarms Grouping• Serial Communication with Serial Communication with Protection Relays (several Protection Relays (several protocols available) protocols available)• IEC 61850IEC 61850

Local Control Interface

• Supervision and Control of the Circuit Breaker (directly on the equipment)

Example of a Bay Level Architecture

• Acquisition of Circuit Acquisition of Circuit Breaker StatusBreaker Status• InterlockingInterlocking• Circuit Breaker CommandCircuit Breaker Command• Sectionalizers CommandSectionalizers Command• SynchrocheckSynchrocheck• HMIHMI


Example of CLP 500’s Cabinets with 3rd Parties Integration


CLP 500 Overview


Menu

CLP 500 Conclusions





Conclusions

EFACEC Advantages Adaptable to each project specification

Flexible and Modular Architecture Configurable Distributed Automation Functions Configurable Database

Flexibility with third party systems Standards Adoption Communication and Integration Skills Upstream and Downstream

Initial Investment Protection Expandable Open Systems


Power Systems AutomationWorld Wide References

Rua Eng. Frederico Ulrich - 4471-907 Moreira Maia, Portugal | Tel. +351 22 940 20 00 | Fax +351 22 940 30 05 | E-mail: [email protected]

prst clp500 en

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