If you can't read please download the document
Upload
duongdien
View
234
Download
2
Embed Size (px)
Citation preview
Future proof Communicationnetworks for power utilities
CNEE Romania 10/2013 Andrej Leder
Agenda
Why do we talk about transition to Packet Switched Networks (PSN) ?
How will fiber optical networks develop ?
Why ABB communication solutions ?
What is the role of PLC in transmission networks today ?
October 24, 2013 | Slide 2 ABB Group
What has changed in Telecommunication?
Traditionally wide area networks (WAN) are build oncircuit oriented network (PDH/SDH)
October 24, 2013 | Slide 3 ABB Group
In Telecommunication main application changed fromvoice to data (e.g. Tripleplay service High speedinternet, Television, Telephone)
Strong growth on bandwidth demand(e.g. Video on demand)
Source of revenue overbooking(e.g. no bandwith guarantee for end-users)
New market requirements in public telecom:
Use of Packet Switched Networks inpublic telecom segments (Ethernet/IP-MPLS)
Why does it affect operational networks?
Public Telecom networks
ABB GroupOctober 24, 2013 | Slide 4
Operational Utility networksShift to Packet Switched Networks Circuit oriented networks(IP/MPLS) (SDH/PDH)
1 Netwon-Evans 2011: Global Study of Data Communications Usage Patterns andPlans in the Electric Power Industry: 2011-2015 Volume 3
Market 4.3 trillion USD1 OT/IT Market 5 billion USD (0.1%)1Defines technology standards Follows the telecom industryVery competitive market Niche market
Telecom suppliers push into operational utility networksTelecom suppliers promote IP/MPLS in utilitiesSome Telecom suppliers outphase PDH/SDH
According a current CIGRE report:
IP/MPLS is not an optimal solution for operational utilitynetworks. IP/MPLS is neither cost-effective nor effort-reducingvery heavy burden in terms of processes1
Circuit oriented networks are still the main solution inoperational utility networks
Customers are unsure and need security of investment
Also today SDH technology is implemented in newlyreleased products from different vendors
Guarantees long life time of PDH/SDH
October 24, 2013 | Slide 5 ABB Group
1 CIGRE 2012: Line and System Protection using Digital Circuit andPacket Communications, JWG D2B5.30
Will operational networks also be based on IP/MPLS?
ABB GroupOctober 24, 2013 | Slide 6
T&D SubstationT&D Substation
Packet Switched Networks ApplicationsIEC61850 an evolving standard
Modeling according
to IEC61850 for
distributed generation
solarIEC 61850-7-420
windIEC 61400-25-x
IEC 61850
IEC 61850-80-1exchange IEC61850 information
via IEC60870-5-101/104
IEC 61850-90-2IEC61850 information exchange
between Network Control Center
IEC 61850-90-1IEC61850 information exchange
between Substations
IEC62271-3IEC61850 information exchange
From primary apparatus in Substations
IEC 61850
Not yet issued
Available standard
IEC 61850 IEC 61850IEC 61850-8-1
IEC61850 information exchange
In Substations
Control CenterControl Center
IEC 61850
waterIEC 61850-7-410
IEC
61850
IEC
61850
IEC 61850
GbESwitches
Technology changeThe battle for the future WAN
TDMPDH / SDH / SONET(Circuit Switched)
TDMNext Gen. SDH
(EoS)
PACKETSCarrier Class
Ethernet(Packet Switched)
S/S EthernetSwitch
Telecom Industry, Carriers
IP/MPLSRouters
Data-centricnetworks (IT)
ITU-T
IEEE
/MEF
/IEC
LAN
IndustrialEthernet
Provider BackboneBridging (PBB)
Carrier Ethernet
Industrial Ethernet
Additional optical ITU-T technologiesCWDM/DWDM (Coarse/Dense Wavelength Division Multiplexing)
OTN (Optical Transport Networks)
Cyber security - the drawback of PSN
PSN networks & applications are affected by cyber security
Beside the challenges of PSN technology and implementationthere is a big challenge for cyber security
Standards focus on customer organization, supplierorganization or on supplier products
Utility industry has not yet consolidated view
October 24, 2013 | Slide 8 ABB Group
What will change in future for operational networks?
Also operational networks will also grow to Packet SwitchedNetworks. The exact way and timeline is still unclear.
CIGRE names MPLS-TP as a promising technology,which is still under definition (OAM)1
Integration of installed base is an important aspect. Platformhas to interwork with existing (SDH) network.
Because of demanding utility application requirements specificfeatures are required (e.g. low jitter, bidirectional switching,EMC, temperature)
A utility should not rush into new technologies. A utility shoulduse well established and utility proven technologies.
October 24, 2013 | Slide 9 ABB Group
1 CIGRE 2012: Line and System Protection using Digital Circuit andPacket Communications
Will we see only one type of product?What are the specific utility requirements
ABB GroupOctober 24, 2013 | Slide 10
Security
Utility Grade
Industrial
Telecom
Ruggedness
Reliability Utility Grade means
High levels of Electromagnetic Immunity
Wide variation in environmentalinfluences (temperature, vibration,shock etc.)
External Type Testing and intensiveapplication testing
Sustainable product lifecycle strategy
Allowing redundant network structuresin terms of media, path diversity,network resilience and hardwareduplication
Utility standards (e.g. IEC 61850)
Will we see only one PSN network in utilities?What are differences between IT/OT
ABB GroupOctober 24, 2013 | Slide 11
Administrational networks (IT) Operational networks (OT)
High data volume Medium data volumeConstant network changes Few network changes
driven by organisation driven by infrastructure
Although both networks will be based on PSNThese networks will stay separate
Maintenance during night Maintenance during dayToday pure IP environment High diversity of (legacy) protocols
IT environment OT environment
ABB GroupSlide 12
ABB active participation in defining future solutions
ABB GroupOctober 24, 2013 | Slide 13
Why ABB for utility communication solutionsActive participation in defining future solutions
ABB has experts in all relevant organisations definingfuture solutions and standards for power utility environmentsuch as:
CIGRE (Working groups B&D)
IEC (Working groups for IEC61850)
IEEE (e.g. 1588v2)
ABB is very much committed to integrate future standardsinto the product portfolio
ABB has a long term commitment for the utilitycommunications market
Why ABB for utility communication solutionsIEC & CIGRE - ABB Power Systems participation
ABB GroupOctober 24, 2013 | Slide 14
6 active members in CIGRE Working Groups, e.g.:
D2.23: The use of Ethernet Technology in the Power Utility Environment
D2.28: Communication Architecture for IP-Based Substation Communication
D2.35: Scalable Communication Transport Solutions over Optical Networks
JWG D2B5.30: Line and System Protection using Digital Circuit and PacketCommunications
13 active members in IEC working groups, e.g.
Members in all relevant working groups of TC57 Standardization of IEC61850TR: Use of IEC61850 for the communication between substationsTR: Use of IEC61850 for communication between substations and controlcentersTR: Network Engineering Guidelines for substation LAN
Several members in other working groups
ABB Group
Application requirements
Power utilities need to reliably transmit and distributeelectrical energy
Various applications help the utility to ensure the reliableenergy transmission and distribution
Some of them are mission critical
Requiring real time communication
Requiring predictable and constant communicationchannels
The utility communication network helps to achievereliable energy transmission and distribution andaccordingly it needs to fulfil the requirements definedby the applications without compromise
Utilities mission in the focus
25.11.2011 | Slide 15
ABB Group
Application requirementsOverview about various applications
25.11.2011 | Slide 16
Service Data rate Acceptable latency [ms]Voice 2.4 100 kbit/s per channel < 100TelecontrolSCADA 0.05 64 kbit/s < 1000
Distance ProtectionBlockingPermissive Intertrip
< 64 kbit/s< 64 kbit/s< 64 kbit/s
< 4 - 8< 5 - 10< 8 - 16
Line Differential Protection1)
EHV (Extreme High Voltage)HV (High Voltage)MV (Medium Voltage)
64 kbit/s 2 Mbit/s64 kbit/s 2 Mbit/s64 kbit/s 2 Mbit/s
< 5< 10< 40
Video Surveillance 256 kbit/s 10 Mbit/s < 1000Other operational data 64 kbit/s 100 Mbit/s < 1000
1) Line Differential Protection is very sensitive to Jitter (time accuracy) and asymmetrical delay
ABB Group
Application requirements
Various protocols and technology used IEC 60870-5-101/ 104, DNP3, Modbus,
Special communication structures possible
Typically point to multipoint structure SCADA server needs to talk to all outstations
Outstations need to talk to SCADA server only
Redundant Server configuration possible Point to point link between servers
Connectivity from each outstation to both Servers
High availability of communication ch