IEC 61850 Training Certificate

61850 certificate links:

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Important Updates to IEC 61850 Conformance Testing

The UCA is implementing changes to the IEC 61850 certification testing program in order to follow IEC requirements that only one revision of a standard can be valid at one time. Edition 1 was officially withdrawn by the IEC in December 2012 when Edition 2 became the current revision of the IEC 61850 standard. The UCA has therefore decided to phase out the issuing of Edition 1 only certificate and transition to Edition 2 conformance test certificates. The new Edition 2 conformance tests will include an option for certifying backward compatibility for Edition 1. This will allow new test certificates to cover both Edition 1 and 2 as required by utilities that install new equipment into existing Edition 1 systems or mixed systems (containing Ed. 1 and 2 devices).        
The end-of-life date for Edition 1 conformance testing and certification is targeted for December 31, 2020. However, the actual date may change depending on when updates to Edition 2 conformance tests are published with procedures for testing Edition 1 backward compatibility. Please read the official press release from the UCA for many more details

Announcement of End-of-Life for IEC 61850 Edition 1 Certification 

The IEC 61850 testing groups, within the UCA IUG, have concluded that the UCA IUG must enforce testing in accordance with the IEC position that there is one valid revision of a standard at any given time. Testing to a withdrawn standard is not consistent with the IEC position and would lead to supporting testing and certification of Edition 1, Edition 2, Edition 3, etc. 
Simultaneously long into the future. In the review of the current IEC 61850 QAP Addendum, it has become clear that this was never the intent. Furthermore, the testing groups recognize that an abrupt and immediate transition of testing from one version to another would be very disruptive to all impacted parties. The current IEC 61850 QAP Addendum is lacking adequate guidance for the process of updating the conformance testing procedures in synchronization with the standard. Therefore, to ensure a timely transition to new versions of standards while supporting a stable and growing market for IEC 61850 devices and applications the IEC 61850
QAP Addendum is being updated to define a migration path for how testing procedures are synchronized to new versions of the standards as follows: 

  • A guaranteed minimum period from the publication of a major revision of the IEC 61850 standard. Since the IEC process for releases is a 5-year interval, the current proposal is that conformance testing of a specific major release of 61850 should be guaranteed to be no less than 10 years. It is thought that this guidance allows utilities the stability for project planning. 
  • Upon the publication of a new release, which causes the withdrawal of the previous IEC standard, the conformance test procedures will need to be updated to not only test the conformance to the new standard but also backward compatibility to the previous standard and thereby provide utilities the assurance that new devices can be integrated into older systems protecting utility investment. 
  • Once the revised test procedures are available, and the 10-year minimum has been achieved, the UCA Conformance Testing for the older standard would cease
  • Conformance certificates shall indicate if the certificate is being issued based upon withdrawn standards.

Edition 1 Conformance Testing is currently outside of these criteria being proposed because the withdrawal date of Edition 1 of the standard was December 2012 and the publication date of Edition 1 was May 2005. The end-of-life for UCA Edition 1 Only Conformance Testing andCertification is targeted for December 31, 2020, and would still require that the backward.  
compatibility testing is available thereafter.   

This announcement is being provided so that the information needed for utility project planning and to protect utility investment in deployments based upon older versions of the standard. What is being proposed does not mean that older versions of devices would not be available, only that newer versions would be conformance tested to the current version and for compatibility with the older version. 

More about IEC 61850

Reference: (http://www.ucaiug.org). 

IEC 61850 Library

IEC 61850 library for Engineers  

{.pdf} Time_Synch_IEC_61850_and_C37118_Harmonize.
{.pdf} 615 series ANSI IEC 61850 Engineering Guide.
{.pdf} 650 series IEC 61850 Communication Protocol Manual.
{.pdf} 650 series IEC 61850 Communication Protocol Manual.
{.pdf} 670 series 2.0 IEC IEC 61850 Edition 1 Communication Protocol Manual.
{.pdf} 670 series 2.0 IEC IEC 61850 Edition 2 Communication Protocol Manual.
{.pdf} 2013 IEC 61850 INTEROPERABILITY TEST Munich, Germany.
{.pdf} 61850 easy.
{.pdf} ABB AFS660 Switch High-availability Ethernet device based on new IEC-standard redundancy protocols PRP/HSR.
{.pdf} ABB AFS660 Switch High-availability Ethernet device based on new IEC-standard redundancy protocols PRP/HSR.
{.pdf} ABB is implementing the first commercial installation of IEC 61850-9-2 LE process-bus technology.
{.pdf} ABB review Special Report IEC 61850.
{.pdf} Advanced protection and control IEDs from ABB.
{.pdf} AGILE DIGITAL SUBSTATIONS The complete guide.
{.pdf} Analysis and implementation of the IEC 61850 standard.
{.pdf} Application Considerations of IEC 61850/UCA 2 for Substation Ethernet Local Area Network Communication for Protection and Control.
{.pdf} Applications of IEC 61850 Standard to Protection Schemes.
{.pdf} Applications of Phasor Measurement Units.
{.pdf} Applications of PMU measurements in the Belgian electrical grid.
{.pdf} The Application-View Model of the International Standard IEC 61850.
{.pdf} Approach to optimized process Bus architectures.
{.pdf} Approach to optimized process Bus architectures.
{.pdf} Automation at Protection Speeds: IEC 61850 GOOSE Messaging as a Reliable, High-Speed Alternative to Serial Communications.
{.pdf} The Building Blocks of a Data-Aware Transport Network: Deploying Viable Ethernet and Virtual Wire Services via Multiservice ADMs.
{.pdf} Calibration System for Electronic Instrument Transformers With Digital Output .
{.pdf} Challenges and Integration of PV and Wind Energy Facilities from a Smart Grid Point of View.
{.pdf} Challenges and Lessons Learned from Commissioning an IEC 61850-90-5 Based Synchrophasor System.
{.pdf} Colombian electrical sector adopting high redundancy communication design on a new HV substation

 

⦁ COMMON REQUIREMENTS FOR ELECTRIC POWER EQUIPMENT.

⦁ Communication in Power application.

⦁ Communication Protocols and Networks for Power Systems- Current Status and Future Trends.

⦁ Communications network solutions for smart grids.

⦁ The concept of IEC 61850.

⦁ CT Standard.

⦁ D2-01_07_Meeting requirements in an IEC 61850 station bus SAS.

⦁ Data transport network.

⦁ Dealing with Packet Delay Variation in IEEE 1588 Synchronization Using a Sample-Mode Filter.

⦁ Design and Implementation of Packet Analyzer for IEC 61850 Communication Networks in Smart Grid.

⦁ Design and Performance Testing of a Multivendor IEC61850–9-2 Process Bus Based Protection Scheme.

⦁ Design, Development, and Commissioning of a Supervisory Control and Data Acquisition (SCADA) Laboratory for Research and Training.

⦁ DEVELOPING PROTECTIVE RELAY FACEPLATES.

⦁ Developing Real-Time PMU Applications for Smart Transmission Grids.

⦁ Development of IEC61850 Based Substation Engineering Tools with IEC61850 Schema Library.

⦁ Differential Protection RET 54_/Diff6T function Application and Setting Guide.

⦁ Digital umspannwerk.

⦁ Digitalization in Transmission and Distribution.

⦁ Direct Evaluation of IEC 61850-9-2 Process Bus Network Performance.

⦁ Distributed busbar protection REB500 including line and transformer protection Product Guide.

⦁ Distributed Multifunction Fault Recorder.

⦁ A Distributed PMU for Electrical Substations With Wireless Redundant Process Bus.

⦁ Duplicate and Circulating Frames Discard Methods for PRP and HSR (IEC62439-3).

⦁ Dynamic Testing of an IEC 61850 Based 110 kV Smart Substation Solution.

⦁ EC 61850 for Substations.

⦁ ECT Evaluation by an Error Measurement System According to IEC 60044-8 and 61850-9-2.

⦁ Efficient Energy Automation with the IEC 61850 Standard Application Examples Energy Automation.

⦁ Emerging Applications of Synchronous Ethernet in Telecommunication Networks.

⦁ Enabling digital substations.

⦁ Energy Management of Internet Data Centers in Smart Grid.

⦁ Engineering Prespetive on IEC 61850.

⦁ Enhanced Engineering process SCL example.

⦁ Enhanced Engineering process SCL Files.

⦁ ERL 61850 IED Configurator.

⦁ ERL 61850 IED Configurator.

⦁ Ethernet & IEC 61850 Concepts, Implementation, Commissioning.

⦁ Ethernet in SAS. 

⦁ Ethernet in SAS.

⦁ Ethernet in Substation Automation Applications – Issues and Requirements.

⦁ Ethernet Module EN100 for IEC 61850 with electrical/optical 100 MBit Interface Application Examples.

⦁ Ethernet Networks Redundancy With Focus On IEC 61850 Applications. 

⦁ ETHERNET NETWORKS REDUNDANCY WITH FOCUS ON IEC 61850 APPLICATIONS.

⦁ Ethernet-Based Public Communication Services: Challenge and Opportunity.

⦁ Evaluation of IEC 61850-9-2 Samples Loss on Total Vector Error of an Estimated Phasor.

⦁ The Evaluation of Phasor Measurement Units and Their Dynamic Behavior Analysis.

⦁ Evaluation of Time Gateways for Synchronization of Substation Automation Systems.

⦁ Executive Summary (Introduction to MMS.

⦁ Feeder Protection and Control REF615 Application Manual.

⦁ Focus on the application – IEC 61850 experience with third-party system configuration tool.

⦁ Generic IEC61850 IED Connectivity Package User‘s Guide.

⦁ Get on the digital bus to SA.

⦁ GOOSE AIR.

⦁ GOOSE Configuration Example.

⦁ Goose messages for automated testing: 765 kV transmission network.

⦁ Goose Messaging Determining its potential in a real case.

⦁ GOOSER IEC 61850 Test System.

⦁ GPS and IEEE 1588 synchronization for the measurement of synchrophasors in electric power systems.

⦁ Grid Automation REC615 and RER615 IEC 61850 Engineering Guide.

⦁ HardFiber.

⦁ Hidden Challenges in the Implementation of 61850 in Larger Substation Automation Projects.

⦁ IEC60076.

⦁ iec61850-8-1{ed1.0}en-2004.

⦁ IEC61850 Based Process Bus Protection Solution for Remote Located Power Transformers.

⦁ IEC61850 Modeling for Switch Management.

⦁ IEC 60870-5-101/104 Slave Technical.

⦁ IEC 60870-5-103 Communication Protocol Manual.

⦁ IEC 61400-25-2.

 IEC 61850-3 and IEEE 1588.

⦁ IEC 61850-7-420 IEC 61850 Part 7-420 DER Logical Nodes.

⦁ IEC 61850-9-2 Based Process Bus.

⦁ IEC 61850-9-2 Process Bus and Its Impact on Power System Protection and Control Reliability.

⦁ IEC 61850-9-2 Process Bus Communication Interface for Light Weight Merging Unit Testing Environment.

⦁ IEC 61850 – Communication networks and systems in substations.

⦁ IEC 61850 – More Than Just GOOSE: A Case Study of Modernizing Substations in Namibia.

⦁ IEC 61850  Process Bus – It is Real!.

⦁ IEC 61850: COMMUNICATION NETWORKS AND SYSTEMS IN SUBSTATIONS.

⦁ IEC 61850 and Measurements.

⦁ IEC 61850 -Communication Networks and Systems in Substations:An Overview of Computer Science.

⦁ IEC 61850 driver FAQ.

⦁ IEC 61850 Enabled Automatic Bus Transfer Scheme for Primary Distribution Substations.

⦁ IEC 61850 General.

⦁ IEC 61850 GOOSE and IEEE C37.118 Synchrophasors Used for Wide-Area Monitoring and Control, SPS, RAS, and Load and Generation Management.

⦁ IEC 61850 Goose applications to distribution protection schemes.

⦁ IEC 61850 Goose applications to distribution protection schemes.

⦁ IEC 61850 MMS Client Driver Help.

⦁ IEC 61850 Model Expansion Toward Distributed Fault Localization, Isolation, and Supply Restoration.

⦁ IEC 61850 Process Bus – It is Real!.

⦁ IEC 61850 PROCESS CONNECTION – A SMART SOLUTION TO CONNECT THE PRIMARY EQUIPMENT TO THE SUBSTATION AUTOMATION SYSTEM.

⦁ IEC 61850 Protocol API User Manual.

⦁ IEC 61850 Qualifications.

⦁ IEC 61850 standard for SA.

⦁ The IEC 61850 standard for SA.

⦁ IEC 61850 standard for SA.

⦁ IEC 61850 Substation Configuration Language and Its Impact on the Engineering of Distribution Substation Systems.

⦁ IEC 61850 System Configurator.

⦁ IEC 61850 System Configurator.

⦁ IEC 61850 Technical Overview.

⦁ IEC 61850/61400 Model Designer.

⦁ IEC 61850: Role of Conformance Testing in Successful Integration.

⦁ IEC 61850: WHAT YOU NEED TO KNOW ABOUT FUNCTIONALITY AND PRACTICAL IMPLEMENTATION.

⦁ IEC 61850-Based Feeder Terminal Unit Modeling and Mapping to IEC 60870-5-104.

⦁ IEC 61850-Based Information Model and Configuration Description of Communication Network in Substation Automation.

⦁ IEC 62357: TC57 Architecture Part 1: Reference Architecture for Power System Information Exchange.

⦁ IEC 62439 PRP: Bumpless Recovery for Highly Available, Hard Real-Time Industrial Networks.

⦁ IEC Smart Grid Standardization Roadmap.

⦁ IED Configuration Guidelines.

⦁ IEEE-1588 Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems.

⦁ IEEE 802.1AS and IEEE 1588.

⦁ IEEE 802.3ba 40 and100 Gigabit Ethernet Architecture.

⦁ IEEE 1547.2 IEEE Application Guide for IEEE Std 1547™, IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems.

⦁ IEEE 1547.3 IEEE Guide for Monitoring, Information Exchange, and Control of Distributed Resources Interconnected with Electric Power Systems.

⦁ IEEE 1547.4 IEEE Guide for Design, Operation, and Integration of Distributed Resource Island Systems with Electric Power Systems.

⦁ IEEE 1547.6 IEEE Recommended Practice for Interconnecting Distributed Resources with Electric Power Systems Distribution Secondary Networks.

⦁ IEEE 1588.

⦁ IEEE 1588 Precision Time Protocol Time Synchronization Performance.

⦁ IEEE 1588 Precision Time Synchronization Solution for Electric Utilities.

⦁ IEEE 1588 Version 2.

⦁ IEEE 1615 IEEE Recommended Practice for Network Communication in Electric Power Substations.

⦁ IEEE Application Guide for IEEE Std 1547™, IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems.”
{.pdf} IEEE c37.118.1 IEEE Standard for Synchrophasor Measurements for Power Systems.
{.pdf} IEEE c37.118.2 2011 IEEE Standard for Synchrophasor Data Transfer for Power Systems.
{.pdf} IEEE Recommended Practice for Network Communication in Electric Power Substations.
{.pdf} IEEE Standard for a Precision Clock Synchronization Protocol for Networked Measurement and Control Systems.
     
{.pdf} IEEE Standard for Electric Power Systems Communications— Distributed Network Protocol (DNP3).
{.pdf} IEEE Standard for Ethernet.
{.pdf} IEEE Standard for Ethernet.
{.pdf} IEEE Standard for Ethernet Amendment 1: Physical Layer Specifications and Management Parameters for Extended Ethernet Passive Optical Networks.
{.pdf} IEEE Standard for Information technology— Telecommunications and information exchange between systems Local and metropolitan area networks— Specific requirements Part 17: Resilient packet ring (RPR) access method and physical layer specifications.
{.pdf} IEEE Standard for Service Interoperability in Ethernet Passive Optical Networks (SIEPON).
{.pdf} IEEE Standard for Synchrophasor Data Transfer for Power Systems.
{.pdf} IEEE Standard for Synchrophasor Measurements for Power Systems.
{.pdf} IEEE Standard Profile for Use of IEEE 1588™ Precision Time Protocol in Power System Applications.
{.pdf} IEEE Std 802.1.
{.pdf} Impact of IEC 61850-9-2 Standard-Based Process Bus on the Operating Performance of Protection IEDS: Comparative Study.
{.pdf} IMPLEMENTATION GUIDELINE FOR DIGITAL INTERFACE TO INSTRUMENT TRANSFORMERS USING IEC 61850-9-2.
{.pdf} An Implementation of FTTH based Home Gateway Supporting Various Services.
{.pdf} Implementing New Generation Protective Relay Schemes based on IEC61850 Standard for Substation Communication in the Eskom 765kV Transmission Network.
{.pdf} Implementing Vehicle-to-Grid (V2G) Technology With IEC 61850-7-420.
{.pdf} Industrial & Plant Communication.
{.pdf} Industrial automation systems Manufacturing Message Specification.
{.pdf} Industrial Communication.
     
     
     
     
{.pdf} INDUSTRIAL INFORMATION TECHNOLOGY.
{.pdf} Installation and commissioning manual Line distance protection IED REL 670.
{.pdf} INSTRUCTION MANUAL DISTANCE RELAY WITH INTEGRAL DIGITAL COMMUNICATION GRZ100.
{.pdf} INSTRUCTION MANUAL TRANSFORMER PROTECTION RELAY GRT100.
     
{.pdf} The Integrated Energy and Communication Systems Architecture.
{.pdf} AN INTEGRATED PMU AND PROTECTION SCHEME FOR POWER SYSTEMS.
{.pdf} Integration of a New Standard.
{.pdf} Integration of IEC 61850 GSE and Sampled Value Services to Reduce Substation Wiring.
{.pdf} Integration of IEC 61850 GSE and Sampled Value Services to Reduce Substation Wiring.
{.pdf} INTERNSHIP REPORT USE OF IEC 61850 FOR ASSET MANAGEMENT IN LOW VOLTAGE MICROGRIDS.
     
{.pdf} Interoperability and Performance Analysis of IEC61850 Based Substation Protection System.
{.pdf} Interoperability Requirements for IEC 61850 System Configuration Tools.
     
{.pdf} Introduction and Overview of IEC 61850 Configuration and Diagnostics.
     
{.pdf} IP and Ethernet Communication Technologies and Topologies for IED networks.
     
{.pdf} Issues and Approaches on Extending Ethernet Beyond LANs.
{.pdf} Kalki SCL Manager.
{.pdf} Laboratory Investigation of IEC 61850-9-2-Based Busbar and Distance Relaying With Corrective Measure for Sampled Value Loss/Delay.
{.pdf} Large Scale Grid Integration of Renewable Energy Sources – Way Forward.
{.pdf} Leading the way to Digital Substations.
{.pdf} Lecture 5a Substation Automation Systems.
{.pdf} LINE PROTECTION TESTS USING PROCESS BUS IEC 61850-9-2 WITH NETWORK LOADING.
{.pdf} Logical nodes.
{.pdf} MAGNUM 6K FAMILY OF SWITCHES.
{.pdf} Magnum 6KL Managed Edge Switch.
{.pdf} Memory Requirements Analysis for PRP and HSR Hardware Implementations on FPGAs.
{.pdf} MiCOM Px4x-92LE Technical Manual IEC 61850-9-2LE Interface.
{.pdf} MiCOM Px4x-92LE Technical Manual IEC 61850-9-2LE Interface.
{.pdf} MIGRATION PATHS FOR IEC 61850 SUBSTATION COMMUNICATION NETWORKS TOWARDS SUPERB REDUNDANCY BASED ON HYBRID PRP AND HSR TOPOLOGIES.
{.pdf} Model Implementation Conformance Statement (MICS) for IEC 61850 for the SEL Real-Time Automation Controllers.
{.pdf} Model Implementation Conformance Statement for the IEC 61850 interface in SEL-351A.
{.pdf} Model Implementation Conformance Statement for the IEC 61850 interface in SEL-351S.
{.pdf} Model Implementation Conformance Statement for the IEC 61850 interface in SEL-2411.
{.pdf} Model Implementation Conformance Statement for the IEC 61850 interface in SEL-2440.
{.pdf} Modeling and (Co-)simulation of power systems, controls, and components for analysing complex energy systems.
{.pdf} Modeling and Simulation for Performance Evaluation of IEC61850-Based Substation Communication Systems.
{.pdf} The move to IEC61850  what and when will it be delivered?.
{.pdf} MU.
{.pdf} MU320 Merging Unit.
{.pdf} MU Agile AMU Technical Manual Analogue Merging Unit.
{.pdf} Network Interactions and Performance of a Multifunction IEC 61850 Process Bus.
{.pdf} A network scheme for process bus in smart substations without using external synchronization.
{.pdf} A New IED With PMU Functionalities For Electrical Substations.
{.pdf} Next-generation substations.
{.pdf} Non-conventional instrument transformers Advanced GIS substations with IEC 61850-9-2 LE process bus.
{.pdf} A Novel Communication Network for Three-Level Wide Area Protection System.
{.pdf} Object Modeling of Data and DataSets in the International Standard IEC 61850.
{.pdf} Offprint of an article published in PAC World, Fall 2008 Standard IEC 61850 – Network Redundancy using IEC 62439.
     
{.pdf} On the Use of IEEE 1588 in Existing IEC 61850-Based SASs: Current Behavior and Future Challenges.
{.pdf} One-Way Delay and PTP (IEEE 1588v2) Test Applications.
{.pdf} Optimal Integration of Disparate C37.118 PMUs in Wide-Area PSS With Electromagnetic Transients.
{.pdf} Overview of IEC 61850.
{.pdf} Overview of IEC 61850.
{.pdf} Packet Tracer Network Simulator.
{.pdf} The Parallel Redundancy Protocol for Industrial IP Networks.
{.pdf} Performance Analysis of IEC 61850 Sampled Value Process Bus Networks.
{.pdf} Performance assessment of an IEC 61850-9-2 based protection scheme for the mesh corner of a 400kV transmission substation.
{.pdf} Performance Evaluation of Time-critical Communication Networks for Smart Grids based on IEC 61850.
     
{.pdf} Performance of IEC 61850-9-2 Process Bus and Corrective Measure for Digital Relaying.
{.pdf} Phasor measurement based on IEC 61850-9-2 and Kalman–Filtering.
{.pdf} Plan Ahead for Substation Automation.
{.pdf} Plc based sa and SCADA.
{.pdf} Plug-in rapid-wire integrated.
{.pdf} pmu.
{.pdf} A PMU for the Measurement of Synchronized Harmonic Phasors in Three-Phase Distribution Networks.
{.pdf} The PMU Interface using IEC 61850.
{.pdf} PMU Interoperability, Steady-State ,and Dynamic Performance Tests.
{.pdf} PMU-based Voltage Instability Detection through Linear Regression.
{.pdf} Power network telecommunication PowerLink – power line carrier system.
{.pdf} Power network telecommunication PowerLink – technical data.
{.pdf} Power network telecommunication SWT 3000 Teleprotection.
{.pdf} The power of IEC 61850.
{.pdf} The power of IEC 61850.
{.pdf} POWER SYSTEM MONITORING.
{.pdf} Power Systems Communications.
{.pdf} a practical application primer for protection engineers.
     
{.pdf} Practical Applications of Ethernet in Substations and Industrial Facilities.
     
{.pdf} Practical Considerations for Ethernet Networking Within Substations.
{.pdf} Practical Experience with IEEE 1588 High Precision Time Synchronization in Electrical Substation based on IEC 61850 Process Bus.
{.pdf} Precision Clock Synchronization.
{.pdf} Precision Time Protocol.
{.pdf} PROPAGATION AND INTERACTION OF ETHERNET PACKETS WITH IEC 61850 SAMPLED VALUES IN POWER UTILITY COMMUNICATION NETWORKS.
{.pdf} Protection and Control System Upgrade Based on IEC- 61850 and PRP.
{.pdf} Protocol Implementation Conformance Statement (PICS) for IEC 61850 for the SEL Real-Time Automation Controllers.
{.pdf} PRP and HSR for High Availability Networks in Power Utility Automation: A Method for Redundant Frames Discarding.
{.pdf} PRP and HSR Version 1 (IEC 62439-3 Ed.2), Improvements, and a Prototype Implementation.
{.pdf} The Real-Time Publisher/Subscriber Communication Model for Distributed Substation Systems.
{.pdf} Reason RT411 Technical Manual Time Signal Distributor.
     
{.pdf} Redundancy in Substation LANs with the Rapid Spanning Tree Protocol (IEEE 802.1w).
{.pdf} Reliable data networks for electric power systems.
{.pdf} Requirements for Ethernet Networks in Substation Automation.
{.pdf} Resilience technologies in Ethernet.
{.pdf} ROLE OF PHASOR MEASUREMENT UNIT (PMU) IN WIDE AREA MONITORING AND CONTROL.
{.pdf} SA Hand Book.
{.pdf} SAM600 process bus.
{.pdf} The SAM600 process bus IO system integrates conventional instrument transformers into modern, IEC 61850-9-2

 

⦁ process bus substation automation, protection, and control systems..
{.pdf} Sampled Values.
{.pdf} SAS Application pictures.
{.pdf} SCADA and IP.
{.pdf} SCADA Systems: Challenges for Forensic Investigators.
{.pdf} Seamless redundancy.
     
{.pdf} Selecting, Designing, and Installing Modern Data Networks in Electrical Substations.
{.pdf} Selection Guide / Ethernet Switches.
{.pdf} Sepam Ethernet Guide.
{.pdf} Sepam IEC 61850 communication.
     
     
     
{.pdf} SICAM A8000 Serie CP-8000 Master Modul mit I/O.
{.pdf} SICAM A8000 Series.
{.pdf} SICAM A8000 Series  Wherever energy flows Protection Technology / Substation Automation / Power Quality and Measurements.
{.pdf} SICAM A8000 Series CP-8000, CP-8021, CP-8022 User Manual.
{.pdf} SICAM A8000 Series Operation, telecontrol, and automation in the smallest spaces.
     
{.pdf} Simulation and testing of the over-current protection system based on IEC 61850 Process-Buses and dynamic estimator.
{.pdf} Simulation of Parallel Redundant WLAN with OPNET.
{.pdf} SINEAX CAM Parameterization of IEC61850 bus card.
{.pdf} SIPROTEC 4, SIPROTEC easy, SIPROTEC 600 Series, Communication, Accessories.
{.pdf} SIPROTEC 5 Communication protocol IEC 60870-5-103.
     
     
{.pdf} SIPROTEC 5 Communication Protocol IEC 60870-5-104.
{.pdf} SIPROTEC 5 Communication protocol IEC 61850.
     
     
{.pdf} SIPROTEC 5 Modbus.
{.pdf} SIPROTEC 5 Process Bus.
{.pdf} SIPROTEC 5Communication protocol DNP3.
     
{.pdf} SIPROTEC 7SC805.
{.pdf} SIPROTECMerging Unit 6MU805 V4.01 Manual.
{.pdf} SMART GRID COMMUNICATIONS AND MEASUREMENT TECHNOLOGY.
{.pdf} smart grids.
{.pdf} The Smart Substatiion usiing IIEC 61850 Ediitiion 2.
{.pdf} Solutions for Digital Substation.
{.pdf} SOLVING ELECTRICAL SUBSTATION TIMING PROBLEMS.
     
{.pdf} Stand Alone Merging Unit User Guide MGU010000.
{.pdf} A Study on GOOSE Communication based on lEC 61850 using MMS Ease Lite.
{.pdf} Substation Automation Process Bus.
{.pdf} Substation Automation Systems.
     
{.pdf} A Survey of Communication Network Paradigms for Substation Automation.
{.pdf} A Survey of Ethernet LAN Security.
{.pdf} SWITCHGEAR OPTIMIZATION USING IEC 61850-9-2.
{.pdf} Switchgear Optimization Using IEC 61850-9-2 and Non-Conventional Measurements.
{.pdf} Synchronized Phasor Measurements and Their Applications.
{.pdf} Synchrophasor Standards Development – IEEE C37.118 & IEC 61850.
{.pdf} System 800xA IEC 61850 Connect Configuration.
{.pdf} System 800xA IEC 61850 Engineering Workflow.
{.pdf} System Engineer Configures IEC 61850 Gateway to DNP3 Substation.
     
{.pdf} System-Level Tests of Transformer Differential Protection Using an IEC 61850 Process Bus.
{.pdf} TCP/IP Protocol Suite.
{.pdf} Technical Requirements for DER Integration Architectures.
{.pdf} Teleprotection over an IP/MPLS Network.
{.pdf} Testing a SIPROTEC GOOSE bus protection scheme using an OMICRON CMC.
{.pdf} Time Signal Distributor.
{.pdf} Time Signal Distributor.
{.pdf} Time Synchronization (IEEE 1588) and Seamless Communication Redundancy (IEC 62439-3) Techniques for Smart Grid Substations.
     
     
{.pdf} Time Synchronized Low-Voltage Measurements for Smart Grids.
{.pdf} Towards Implementation of IEC 61850 GOOSE Messaging in Event-Driven IEC 61499 Environment.
{.pdf} Traffic Generation of IEC 61850 Sampled Values.
{.pdf} Transforming Critical Communications Networks for Substation Automation Communications network infrastructure requirements and architectures.
{.pdf} Two Improvements Related to Overcurrent Functions for Bus Protection in Distribution Systems.
{.pdf} Use of IEEE 1588–2008 for a Sampled Value Process Bus in Transmission Substations.
{.pdf} Use of Precision Time Protocol to Synchronize Sampled-Value Process Buses.
{.pdf} User Experiences Implementing IEC61850 in Intelligent Electronic Devices.
{.pdf} A user-friendly implementation of IEC 61850 in a new generation of protection and control devices.
     
{.pdf} Using OPNET to Model and Evaluate the MU Performance Based on IEC 61850-9-2LE.
{.pdf} Utilization of GOOSE in MV Substation.
{.pdf} Utilizing IEC 61850, Ethernet, and IP Standards for Integrated Substation Communications.
{.pdf} VAMP RELAYS IEC 61850 interface Configuration instructions.
     
     
     
{.pdf} The Virginia Tech Calibration System.
{.pdf} Virtual Power Plant for Grid Services using IEC 61850.
{.pdf} VSE 006 IEC 61850 interface module.
     
     
{.pdf} VSE 006 IEC 61850 interface module Configuration instructions.
{.pdf} A Web-Based Remote Access Laboratory Using SCADA.
{.pdf} What Is IEC 61850?.
{.pdf} What Protection Engineers Need to Know About Networking.
{.pdf} White Paper on Standards for DER Communications Using IEC 61850.
{.pdf} Wide area voltage protection.
{.pdf} Wide-Area Ethernet Network Configuration for System Protection Messaging.
{.pdf} Wide-Area Ethernet Network Configuration for System Protection Messaging.
{.pdf} Wide-Area Protection and Power System Utilization.
{.pdf} (2003). “Communication networks and systems in substations – Part 1: Introduction and overview.”
{.pdf} (2003). “Communication networks and systems in substations – Part 2: Glossary.”
{.pdf} (2003). “Communication networks and systems in substations – Part 3: General requirements.”
{.pdf} (2003). “Communication networks and systems in substations – Part 4: System and project management.”
{.pdf} (2003). “Communication networks and systems in substations – Part 5: Communication requirements for functions and device models.”
{.pdf} (2003). “COMMUNICATION NETWORKS AND SYSTEMS IN SUBSTATIONS Part 10: Conformance Testing.”
{.pdf} (2003). “IEEE Standard Test Method for Use in the Evaluation of Message Communications Between Intelligent Electronic Devices in an Integrated Substation Protection, Control, and Data Acquisition System.”
{.pdf} (2005). “Communication networks and systems in substations – Part 7-3: Basic communication structure for substation and feeder equipment – Common data classes.”
{.pdf} (2005). “Communication networks and systems in substations – Part 7-4: Basic communication structure for substation and feeder equipment – Compatible logical node classes and data classes.”
{.pdf} (2005). “Communication networks and systems in substations – Part 9-1: Specific Communication Service
{.pdf} Mapping (SCSM) – Sampled values over a serial unidirectional multidrop point to point link.”
{.pdf} (2007). “Communication networks and systems in substations – Part 7-1: Basic communication structure for substation and feeder equipment – Principles and models.”
{.pdf} (2009). “Communication networks and systems for power utility automation – Part 7-420: Basic communication structure – Distributed energy resources logical nodes.”
{.pdf} (2010). “Communication networks and systems for power utility automation – Part 7-2: Basic information and communication structure – Abstract communication service interface (ACSI).”
{.pdf} (2010). “Communication networks and systems for power utility automation – Part 90-1: Use of IEC 61850 for the communication between substations.”
{.pdf} (2011). “Communication networks and systems for power utility automation – Part 8-1: Specific communication  service mapping (SCSM) – Mappings to MMS (ISO 9506-1 and ISO 9506-2) and to ISO/IEC 8802-3.”
{.pdf} (2011). “Communication networks and systems for power utility automation – Part 9-2: Specific communication service mapping (SCSM) – Sampled values over ISO/IEC 8802-3.”
{.pdf} (2012). “Communication networks and systems for power utility automation – Part 6: Configuration description language for communication in electrical substations related to IEDs.”
{.pdf} (2012). “Communication networks and systems for power utility automation – Part 90-5: Use of IEC 61850 to transmit synchrophasor information according to IEEE C37.118.”
{.pdf} (2013). “Communication networks and systems for power utility automation – Part 90-7: Object mdels for power converters in distributed energy resources (DER) systems.”
{.pdf} (2013). “IEEE c37.242 IEEE Guide for Synchronization, Calibration, Testing, and Installation of Phasor Measurement Units (PMUs) for Power System Protection and Control.”
{.pdf} (2014). “IEEE Recommended Practice for Network Communication in Electric Power Substations.”
{.pdf} on an electric power substation Internet protocol (IP) network are provided. For the power
{.pdf} engineer new to IP networking, this document provides an introduction to the concepts that need
{.pdf} to be mastered as well as specific recommendations to follow when deploying the technologies.
{.pdf} For equipment manufacturers and system integrators, it provides direction and requirements to
{.pdf} facilitate interoperable electric utility information networks
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{.pdf} Almas, M. S., et al. (2014). Synchrophasor network, laboratory, and software applications developed in the STRONg<sup>2</sup>rid project. PES General Meeting | Conference & Exposition, 2014 IEEE.
{.pdf} Antonova, G., et al. (2011). Communication redundancy for substation automation. Protective Relay Engineers, 2011 64th Annual Conference for.
{.pdf} Apostolov, A., et al. (2006). A Distributed Recording System Based on IEC 61850 Process Bus. Power Systems Conference: Advanced Metering, Protection, Control, Communication, and Distributed Resources, 2006. PS ’06.
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{.pdf} Astarloa, A., et al. (2013). System-on-Chip implementation of Reliable Ethernet Networks nodes. Industrial Electronics Society, IECON 2013 – 39th Annual Conference of the IEEE.
{.pdf} Atienza, E. (2010). Testing and troubleshooting IEC 61850 GOOSE-based control and protection schemes. Protective Relay Engineers, 2010 63rd Annual Conference for.
{.pdf} Bhardwaj, V., et al. (2014). A review of various standards for digital substation. Green Computing Communication and Electrical Engineering (ICGCCEE), 2014 International Conference on.
{.pdf} Bonfiglio, A., et al. (2013). The smart microgrid pilot project of the University of Genoa: Power and communication architectures. AEIT Annual Conference, 2013.
{.pdf} Castello, P., et al. (2014). Improving the availability of distributed PMU in electrical substations using wireless redundant process bus. Instrumentation and Measurement Technology Conference (I2MTC) Proceedings, 2014 IEEE International.
{.pdf} Chao, Z., et al. (2009). An integrated PMU and protection scheme for power systems. Universities Power Engineering Conference (UPEC), 2009 Proceedings of the 44th International.
{.pdf} Dan, Z., et al. (2010). A new scheme of control and protection based on utilizing phasor measurement technique. Control and Decision Conference (CCDC), 2010 Chinese.
{.pdf} Darby, A. B., et al. (2014). Experience using PRP Ethernet redundancy for Substation Automation Systems. Developments in Power System Protection (DPSP 2014), 12th IET International Conference on.
{.pdf} Das, N., et al. (2013). Process-to-bay level peer-to-peer network delay in IEC 61850 substation communication systems. Power Engineering Conference (AUPEC), 2013 Australasian Universities.
{.pdf} De Dominicis, C. M., et al. (2010). Experimental evaluation of synchronization solutions for substation automation systems. Instrumentation and Measurement Technology Conference (I2MTC), 2010 IEEE.
{.pdf} Dolezilek, D. (2010). Case Study Examples of Interoperable Ethernet Communications within Distribution, Transmission, and Wide-Area Control Systems. Communications Workshops (ICC), 2010 IEEE International Conference on.
{.pdf} Dutra, C. A., et al. (2014). Process bus reliability analysis. Developments in Power System Protection (DPSP 2014), 12th IET International Conference on.
{.pdf} Feuerhahn, S., et al. (2011). Comparison of the communication protocols DLMS/COSEM, SML, and IEC 61850 for smart metering applications. Smart Grid Communications (SmartGridComm), 2011 IEEE International Conference on.
{.pdf} Gajic, Z., et al. (2010). Using IEC 61850 analog goose messages for OLTC control of parallel transformers. Developments in Power System Protection (DPSP 2010). Managing the Change, 10th IET International Conference on.
{.pdf} GE “Communiicatiion Protocolls.”
{.pdf} Georg, H., et al. (2013). Performance evaluation of time-critical communication networks for Smart Grids based on IEC 61850. Computer Communications Workshops (INFOCOM WKSHPS), 2013 IEEE Conference on.
{.pdf} Gonzalez-Redondo, M. J., et al. (2013). IEC 61850 GOOSE transfer time measurement in the development stage. Industrial Electronics (ISIE), 2013 IEEE International Symposium on.
{.pdf} Hakala-Ranta, A., et al. (2009). Utilizing possibilities of IEC 61850 and goose. Electricity Distribution – Part 1, 2009. CIRED 2009. 20th International Conference and Exhibition on.
{.pdf} Hoga, C. (2011). Seamless communication redundancy of IEC 62439. Advanced Power System Automation and Protection (APAP), 2011 International Conference on.
{.pdf} Huu-Dung, N., et al. (2014). An improved High-availability Seamless Redundancy (HSR) for dependable Substation Automation System. Advanced Communication Technology (ICACT), 2014 16th International Conference on.
{.pdf} Hyo-Sik, Y., et al. (2007). Communication Networks for Interoperability and Reliable Service in Substation Automation System. Software Engineering Research, Management & Applications, 2007. SERA 2007. 5th ACIS International Conference on.
{.pdf} Ingram, D. M. E., et al. (2011). Multicast traffic filtering for sampled value process bus networks. IECON 2011 – 37th Annual Conference on IEEE Industrial Electronics Society.
{.pdf} Ingram, D. M. E., et al. (2012). “Use of Precision Time Protocol to Synchronize Sampled-Value Process Buses.” Instrumentation and Measurement, IEEE Transactions on 61(5): 1173-1180.
{.pdf} Ingram, D. M. E., et al. (2013). “Network Interactions and Performance of a Multifunction IEC 61850 Process Bus.” Industrial Electronics, IEEE Transactions on 60(12): 5933-5942.
{.pdf} Janssen, M. C., et al. (2011). Bringing IEC 61850 and Smart Grid together. Innovative Smart Grid Technologies (ISGT Europe), 2011 2nd IEEE PES International Conference and Exhibition on.
{.pdf} Khan, R. H., et al. (2013). Pilot protection schemes over a multi-service WiMAX network in the smart grid. Communications Workshops (ICC), 2013 IEEE International Conference on.
{.pdf} Kirrmann, H., et al. (2011). Seamless and low-cost redundancy for substation automation systems (high availability seamless redundancy, HSR). Power and Energy Society General Meeting, 2011 IEEE.
{.pdf} Martin, K. E., et al. (2014). “An Overview of the IEEE Standard C37.118.2&#x2014;Synchrophasor Data Transfer for Power Systems.” Smart Grid, IEEE Transactions on 5(4): 1980-1984.
{.pdf} Mekkanen, M., et al. (2013). Reliability evaluation and comparison for next-generation substation function based on IEC 61850 using Monte Carlo simulation. Communications, Signal Processing, and their Applications (ICCSPA), 2013 1st International Conference on.
{.pdf} Mekkanen, M., et al. (2014). Analysis and methodology for measuring the IEC61850 GOOSE messages latency: Gaining interoperability testing. Computer Applications and Information Systems (WCCAIS), 2014 World Congress on.
{.pdf} Mo, J., et al. (2010). Evaluation of process bus reliability. Developments in Power System Protection (DPSP 2010). Managing the Change, 10th IET International Conference on.
{.pdf} Ouellette, D. S., et al. (2010). Using a real-time digital simulator to affect the quality of IEC 61850 GOOSE and sampled value data. Developments in Power System Protection (DPSP 2010). Managing the Change, 10th IET International Conference on.
{.pdf} Parikh, P., et al. (2013). Fault location, isolation, and service restoration (FLISR) technique using IEC 61850 GOOSE. Power and Energy Society General Meeting (PES), 2013 IEEE.
{.pdf} Ptaszynski, M., and P. Wronek (2014). Mikronika’s new solutions for power substations with the process of bus technology. Signals and Electronic Systems (ICSES), 2014 International Conference on.
{.pdf} Ransom, D. L., and C. Chelmecki (2014). “Using GOOSE Messages in a Main&#x2013; Tie&#x2013; Main Scheme.” Industry Applications, IEEE Transactions on 50(1): 17-24.
{.pdf} Selga, J. M., et al. (2013). “Solutions to the Computer Networking Challenges of the Distribution Smart Grid.” Communications Letters, IEEE 17(3): 588-591.
{.pdf} Seung-Ho, Y., et al. (2012). Performance analysis of IEC 61850 based substation. Advanced Communication Technology (ICACT), 2012 14th International Conference on.
{.pdf} Sichwart, N., et al. (2013). Transformer Load Tap Changer control using IEC 61850 GOOSE messaging. Power and Energy Society General Meeting (PES), 2013 IEEE.
{.pdf} Sidhu, T., et al. (2011). Configuration and performance testing of IEC 61850 GOOSE. Advanced Power System Automation and Protection (APAP), 2011 International Conference on.
{.pdf} Sidhu, T. S., et al. (2010). Packet scheduling of GOOSE messages in IEC 61850 based substation intelligent electronic devices (IEDs). Power and Energy Society General Meeting, 2010 IEEE.
{.pdf} Skendzic, V., and A. Guzma (2006). Enhancing Power System Automation Through the Use of Real-Time Ethernet. Power Systems Conference: Advanced Metering, Protection, Control, Communication, and Distributed Resources, 2006. PS ’06.
{.pdf} Song, Y., et al. (2010). Analysis of the reliability of IED and GOOSE network in 500kV substation based on IEC61850 standard. Computer Application and System Modeling (ICCASM), 2010 International Conference on.
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