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Instructivo para formación en equipos SEL.
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Course Guide 2015
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It is hard to imagine what it would be like to live without electricity or have unpredictable service as an everyday norm. We live in a society that expects safe and reliable electric power, yet we are facing a potential shortage of industry workforce expertise that could jeopardize the integrity of the power system. Today, as an industry, we are challenged to find qualified personnel who understand the design, operation, and maintenance of electric power systems. Organizations that are short on experienced staff and do not have formal training programs need application-based training. SEL University steps up to meet our industry demands by offering training for power professionals concerned with protection, control, automation, monitoring, communications, metering, and management of utility and industrial electric power systems. To date, over 21,000 technicians, engineers, power system specialists, and managers have participated in SEL University’s wide range of courses specific to the power industry. We look forward to assisting you with all of your training needs.
SEL UniversityPower Through Knowledge
Jackie Peer Director of SEL University
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SELU addresses the urgent need for power industry workforce training with the comprehensive family of courses described in this catalog. These courses are taught by the best instructors in the industry. Their impressive knowledge is matched only by their enthusiasm for education.
SELU instructors understand that electric power systems have changed significantly over the past two or three decades and operate closer to security limits. Generation is becoming distributed, variable, and more difficult to dispatch. The power grid infrastructure is aging, and there is a growing demand for personnel equipped with mixed skills to support modern power systems.
In addition, the electric power industry is facing the challenge of an aging workforce. The loss of this historical knowledge jeopardizes the ability to maintain reliable electric service. Finally, the number of engineering graduates and skilled workers entering the workforce may not be enough to replace the imminent number of retirements. As dean of SELU and on behalf of our instructors, we look forward to meeting your workforce training needs.
Dr. Héctor J. Altuve Dean of SEL University
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Table of ContentsOverviewAbout SEL University ....................................6 Course Formats ............................................8 Training Programs ........................................9 Course Structure ........................................10
CoursesFundamentals Courses ..............................12 Application Courses ...................................22 Testing Courses ..........................................38 System Courses ..........................................42 Computer-Based Training (CBT) ...............46 Web-Based Training (WBT) ........................52
Classroom-Based TrainingRegularly Scheduled Courses ....................56 On-Demand Courses ..................................56
ProgramsTechnician Program ...................................59 Engineer Program ......................................59
Information and PoliciesCourse Information ....................................64 Course Policies ...........................................66
TextbooksModern Solutions Books ............................68 Stanley Zocholl Books ................................70
Course IndexCourse Index ...............................................71
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About SEL UniversityOur Mission We provide the education and training needed to make electric power safer, more reliable, and more economical.
What We Offer SEL University (SELU) is committed to helping you meet your power system training needs by providing training with unprecedented quality, depth, and value. SELU develops programs to help you seamlessly integrate digital technologies into your expanding power system infrastructure.
SELU training is for engineers and technicians working in power system protection, control, monitoring, communications, regulation, planning, design, operation, maintenance, and management. SELU training is suitable for personnel of electric utilities, consulting firms, and industrial companies.
IACET Authorized Provider SELU has been accredited as an Authorized Provider by the International Association for Continuing Education and Training (IACET). In obtaining this accreditation, SELU has demonstrated that it complies with the ANSI/IACET Standard which is recognized internationally as a standard of good practice. As a result of their Authorized Provider status, SELU is authorized to offer IACET CEUs for its programs that qualify under the ANSI/IACET Standard.
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Course FormatsClassroom-Based TrainingRegularly Scheduled Courses
⋅ Choose from over 60 existing course offerings in multiple convenient locations in cities around the world
⋅ Network with other industry professionals
⋅ Take advantage of hands-on training options, and confer with experts about your application
On-Demand Training ⋅ SEL University brings the equipment, course materials, and instructor—you supply the training room
⋅ Choose a standard course or a tailored option to meet your needs
⋅ Dramatically reduce travel expenses and train more employees at one time
⋅ SEL University offers training in 70 countries with over 330 locations and growing
eLearningSEL University offers two types of eLearning to best meet your needs.
Computer-Based Training (CBT) CBT courses serve as self-paced training for both individuals and companies.
⋅ Complete courses at your own pace
⋅ Access learning content online or download it to your device
⋅ Employ mySELU to view eLearning completion status
Web-Based Training (WBT) WBT courses provide live, instructor-led training delivered over the web via Adobe® Connect™. This allows the student to attend instructor-led training conveniently, without leaving the office.
⋅ Maximize your training budget
⋅ Learn anywhere that has an Internet connection
⋅ Request training on demand
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Training ProgramsProgramsMany SEL University courses are organized into programs consisting of one or more tracks. Program tracks are a recommended sequence for engineers, technicians, and managers concerned with protection, control, monitoring, and management of utility and industrial electric power systems. Each program track begins with power system and protection fundamentals courses and advances into elective application or testing courses, depending on the track of your choice.
Engineer ProgramThe SEL University Protection Program for Engineers consists of multiple tracks. These tracks are for individuals who want to specialize in a specific area of protection.
Technician ProgramThe SEL University Protection Program for Technicians is designed for those involved in setting, testing, and troubleshooting protective relays.
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Course StructureCourse IdentifiersPWRS: Power system courses provide a refresher on power system modeling, analysis, and operation for electrical engineers.
PROT: Protection courses teach technicians and engineers power system protection principles and application.
COM: Communications courses teach technicians and engineers introductory and advanced networking, cybersecurity, and data communication troubleshooting principles and best practices.
APP: Application courses build on the skills obtained in fundamentals courses and provide both technicians and engineers with hands-on settings experience.
TST: Testing courses put into practice the skills obtained in technician fundamentals courses and provide technicians with hands-on relay testing and troubleshooting experience.
SYS: Systems courses build on the skills obtained in application and fundamentals courses and provide technicians and engineers with advanced hands-on integration and design experience.
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Fundamentals CoursesFundamentals courses provide students with a conceptual introduction to power industry theories, terminology, regulations and standards, and best practices. Fundamentals courses provide students with the information they need to make informed decisions when planning and designing a protection, control, monitoring, or communications system.
These courses teach fundamental knowledge where hands-on experience with SEL relays is provided and are recommended prerequisites for application (APP) and systems (SYS) courses.
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PWRS 400Power System Fundamentals for Engineers
⋅ Describe the structure of modern power systems (generation, transmission, subtransmission, distribution, and consumption)
⋅ Describe the basic principles of operation: voltage and frequency control, real and reactive power flow control, economic operation, and steady-state and transient stability
⋅ Describe modeling of different power system components
⋅ Perform power flow and fault analysis of a complex power system using computer models
⋅ Describe the method of symmetrical components and the sequence network interconnections to study series and shunt unbalanced faults
⋅ Calculate the state of different power system components
⋅ Create conceptual designs and improvements of power systems that satisfy the basic principles of operation
4-day course
2.8 CEUs available
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PROT 300Symmetrical Components: Theory and Application
⋅ Define phasors and perform phasor operations
⋅ Define and identify advantages of the per-unit system
⋅ Convert systems into per-unit quantities
⋅ Define fault types
⋅ Simplify complex circuits using a Thévenin equivalent circuit
⋅ Identify the zero-, positive-, and negative-sequence components
⋅ Convert between phase and symmetrical component values
⋅ Calculate symmetrical components for nontraditional fault types and phase rotations
⋅ Determine sequence impedances for transformers, generators, and transmission lines
⋅ Connect sequence networks and calculate fault currents for various shunt and series fault types
⋅ Analyze various types of faults using symmetrical components and real event reports
⋅ Analyze how a delta-wye transformer’s phase shift is represented in the symmetrical component networks
⋅ Analyze and apply symmetrical components provided by the relay to determine fault type and location
3-day course
2.1 CEUs available
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PROT 301Protecting Power Systems for Technicians
⋅ Explain the importance of symmetrical components in analyzing power systems
⋅ Identify the types of protection schemes used for various applications
⋅ Define distribution and transmission line protection principles
⋅ Describe how differential, overcurrent, and mechanical methods are used to protect power transformers
⋅ Use metering and event reporting functions from modern protective relays to monitor protection system performance
3-day course
2.1 CEUs available
PROT 401Protecting Power Systems for Engineers
⋅ Identify the challenges and solutions to power system protection problems
⋅ Select the appropriate protection schemes for various applications
⋅ Analyze power system faults for balanced and unbalanced conditions using symmetrical components
⋅ Describe current and voltage transformers and their impact on protection scheme performance
⋅ Analyze signal processing in microprocessor-based relays
⋅ Identify, apply, and calculate settings for distribution and transmission line protection schemes, including overcurrent, directional overcurrent, distance, and pilot protection schemes
⋅ Identify, apply, and calculate settings for transformer, bus, and breaker failure protection schemes
⋅ Identify, apply, and calculate settings for generator and motor protection schemes
⋅ Identify and apply wide-area protection schemes, such as power swing blocking, out-of-step tripping, and load shedding
5-day course
3.5 CEUs available
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PROT 403Distribution System Protection
⋅ Describe the protection requirements of modern distribution systems
⋅ Identify and select distribution system protective devices
⋅ Select and calculate the settings of distribution system overcurrent protective devices
⋅ Apply negative-sequence overcurrent protection in distribution systems
⋅ Select protection schemes for distribution substation equipment, including power transformers and low-voltage buses
⋅ Identify protection practices and regulations of distribution systems with dispersed generation
3-day course
2.1 CEUs available
Prerequisite PROT 401
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PROT 405Industrial Power System Protection
⋅ Describe the protection requirements of industrial medium-voltage power systems
⋅ Calculate settings for thermal and overcurrent protection for medium-size induction motors
⋅ Determine the protection schemes and settings for medium-size transformers
⋅ Apply overcurrent protection and relay coordination concepts to medium-voltage radial overhead and underground lines
⋅ Implement modern protection systems for industrial generators
4-day course
2.8 CEUs available
Prerequisite PROT 401
PROT 407Transmission Line Protection
⋅ Describe the protection requirements of modern power transmission lines
⋅ Identify protection and fault location methods to apply in modern transmission lines
⋅ Identify the strengths and limitations of available tools to protect transmission lines against phase-to-phase and phase-to-ground faults
⋅ Define and address protection problems for high-voltage transmission lines
⋅ Implement modern directional and distance elements into existing protection
⋅ Select the best pilot protection schemes for transmission lines
⋅ Implement directional comparison pilot and line differential protection schemes
⋅ Explain the effects of reclosing (three-pole and single-pole) and breaker failure protection to preserve the stability of high-voltage transmission systems
3-day course
2.1 CEUs available
Prerequisite PROT 401
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PROT 411Substation Equipment Protection
⋅ Describe the protection requirements of power transformers and buses
⋅ Specify current transformers for protective relay applications
⋅ Define transformer protection issues and identify solutions using digital relays
⋅ Define bus protection problems and identify solutions for digital relays
⋅ Calculate relay settings for transformer and bus protection relays
3-day course
2.1 CEUs available
Prerequisite PROT 401
PROT 409Generation System Protection
⋅ Identify the protection requirements of synchronous generators
⋅ Apply generation system protection principles
⋅ Identify and select appropriate protection schemes for various generator applications
⋅ Determine settings for system backup using phase distance and overcurrent elements
⋅ Apply high- and low-impedance neutral grounding techniques
⋅ Calculate settings for critical generator protection elements, including:
ê Differential and ground fault
ê Out-of-step protection elements
ê Loss-of-field, overexcitation, and overvoltage
3-day course
2.1 CEUs available
Prerequisite PROT 401
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PROT 413Generation Station Protection
⋅ Review electromechanical characteristics of synchronous generators
⋅ Review symmetrical components concepts applied to balanced and unbalanced electrical fault analysis
⋅ Explore power plant arrangements and methods for generator grounding
⋅ Review protection fundamentals, such as primary and backup concepts, description of protection system elements, and digital relay architecture
⋅ Review current and voltage transformers and their impact on protection scheme performance
⋅ Review generator stator phase and ground fault protection schemes
⋅ Review generator rotor ground fault protection schemes
⋅ Review generator abnormal operation protection schemes, including, but not limited to, thermal, current unbalance, loss of excitation, out of step, and overexcitation
⋅ Discuss common power system protection issues at power plants
⋅ Discuss the importance of generator 100% stator ground fault protection
⋅ Discuss the challenges in detecting simultaneous unbalance faults, such as an open-phase conductor touching the ground
⋅ Discuss bus protection concepts and analyze bus protection schemes
⋅ Discuss transformer protection challenges, concepts, and schemes
⋅ Review motor thermal and short-circuit protection principles
⋅ Review protective relaying schemes applied to plant auxiliary systems
4.5-day course
3.2 CEUs available
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COM 201Multiplexing and TDM Communications
⋅ Apply the basics of SONET-based communications technologies to a network design
⋅ Identify the principles of fiber-optic-based transmission and media
⋅ Identify multiplexing considerations and applications
⋅ Describe the fundamentals and importance of time-division multiplexing
⋅ Design a multinode SONET-based network
⋅ Assign network traffic based on circuit requirements
1-day course
0.7 CEUs available
COM 203SEL Cybersecurity Best Practices for Critical Infrastructure
⋅ Identify modern cybersecurity architectures and strategies
⋅ Identify firewall principles and best practices
⋅ Identify methods to secure Ethernet communications protocols
⋅ Identify network and enterprise authentication methods
⋅ Define regulatory and operational controls needed for secure operation
⋅ Identify the goals of cryptography
⋅ Differentiate between symmetric and asymmetric algorithms
⋅ Define the components required for central authentication
1-day course
0.7 CEUs available
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COM 401Coming Soon Data Communications Fundamentals
⋅ Define the purpose of system integration and communications-assisted applications
⋅ Describe intelligent electronic device (IED) data contents, data integration, and data consumers
⋅ Identify device communications methods and topologies
⋅ Define common communications protocols, including IEC 61850, Modbus®, and DNP3
⋅ Distinguish between serial and Ethernet networks
⋅ Identify SEL best practices in configuring device communications
⋅ Identify the advantages of networking multiple IEDs together
4-day course
2.8 CEUs available
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Application CoursesSEL University application (APP) courses provide the skills you need to apply SEL products in cost-effective power system protection solutions. You will learn how to use advanced features effectively to get the most from your products and systems. Application courses build on fundamentals courses and apply foundational skills in a hands-on setting, using SEL equipment.
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APP 87SEL-387 and SEL-587 Percentage-Restrained Differential Relays
⋅ Explain the application considerations of differential protection
⋅ Apply internal or external phase shift and zero-sequence compensation using two different setting methods in both relays
⋅ Use SELogic® control equations to customize the relay logic to meet your application requirements
⋅ Analyze Sequential Events Recorder (SER) reports and generate COMTRADE files from event reports
⋅ Explain testing considerations2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 101Hands-On Introduction to SEL Relays
⋅ Describe digital relay protection and operating methods
⋅ Communicate with the SEL-351S Relay via the front-panel human-machine interface (HMI) and pushbuttons
⋅ Send and receive relay settings using acSELErator QuickSet® SEL-5030 Software
Optional Day 2
⋅ Identify SEL-351S Relay product features
⋅ Apply effective protection and coordination settings for an example distribution system
⋅ Perform tests to verify relay protection element operation
⋅ Identify basic protection requirements for power systems
1- or 2-day course
0.7 or 1.4 CEUs available
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APP 300GSEL-300G Generator Relay
⋅ Apply the SEL-300G Relay protection, monitoring, and control features
⋅ Communicate with the relay through front-panel controls and serial ports
⋅ Calculate and enter settings for the relay
⋅ Determine data requirements for relay settings and resistance temperature detectors (RTDs)
⋅ Retrieve data from the relay using HyperTerminal®
⋅ Analyze fault records and relay element response using acSELErator Analytic Assistant® SEL-5601 Software and other software programs
⋅ Analyze Sequential Events Recorder (SER) reports
2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 311L
SEL-311L Line Current Differential Relay
⋅ Calculate and apply settings for line current differential protection
⋅ Set the SEL-311L Relay using HyperTerminal® and acSELErator QuickSet® SEL-5030 Software
⋅ Use SELogic® control equations to customize the relay logic
⋅ Apply backup protection, reclosing, and synchronism-check features of the SEL-311L Relay
⋅ Analyze Sequential Events Recorder (SER) reports
⋅ Implement relay-to-relay logic communications via the MirrorEd BitS® communications protocol
2-day course
1.4 CEUs available
Prerequisite CBT 101
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APP 351SEL-351 Protection System
⋅ Apply the SEL-351S Relay protection, monitoring, and control features
⋅ Communicate with the relay through the front panel and serial port
⋅ Use acSELErator QuickSet® SEL-5030 Software to apply relay settings, program SELogic® control equations, and analyze fault records and relay element response
⋅ Analyze Sequential Events Recorder (SER) reports
⋅ Implement relay-to-relay logic communications via the MirrorEd BitS® communications protocol
⋅ Identify multiple applications for the SEL-351 Relay family
⋅ Differentiate between SEL-351, SEL-351A, and SEL-351S Relay features
2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 351RSEL-351R Recloser Control
⋅ Describe how to upgrade existing substation and pole-mounted recloser controls
⋅ Communicate with the recloser control through front-panel and serial port interfaces
⋅ Use acSELErator QuickSet® SEL-5030 Software to apply EZ settings, program SELogic® control equations, and analyze event reports
⋅ Discuss relay-to-relay logic communications via MirrorEd BitS® communications protocol
⋅ Coordinate with upstream feeder relays for high-speed fault clearing on distribution circuits
⋅ Apply high-side transformer blown fuse detection logic to protect customers from potentially damaging unbalanced voltages
⋅ Use the fault detection capability to identify feeder trouble points
2-day course
1.4 CEUs available
Prerequisite CBT 101
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APP 351R/651R
SEL-351R and SEL-651R Recloser Controls
⋅ Describe how to upgrade existing substation and pole-mounted recloser controls
⋅ Communicate with the recloser control through front-panel and serial port interfaces
⋅ Use acSELErator QuickSet® SEL-5030 Software to apply EZ settings, program SELogic® control equations, and analyze event reports
⋅ Discuss relay-to-relay logic communications via MirrorEd BitS® communications protocol
⋅ Coordinate with upstream feeder relays for high-speed fault clearing on distribution circuits
⋅ Apply high-side transformer blown fuse detection logic to protect customers from potentially damaging unbalanced voltages
⋅ Use the fault detection capability to identify feeder trouble points
⋅ Apply settings to implement Automatic Network Reconfiguration (ANR)
⋅ Determine several protection methods based on course application examples
⋅ Create and use acSELErator QuickSet application designs
ê Enable and disable protection features and settings in application designs
ê Apply SEL-351R EZ settings application design
3-day course
2.1 CEUs available
Prerequisite CBT 101
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APP 411LSEL-411L Advanced Line Differential Protection, Automation, and Control System
⋅ Navigate acSELErator QuickSet® SEL-5030 Software
⋅ Identify settings calculation formulas and terminology for 87L applications
⋅ Determine effective line differential protection settings for example systems
⋅ Configure 87L for serial and Ethernet applications
⋅ Create SEL-411L Relay logic equations for 87L protection functions
⋅ Monitor system performance with real-time metering using human-machine interface (HMI) tools
⋅ Test 87L protection schemes and verify proper relay operation
⋅ Retrieve and analyze events using COMTRADE files and the Sequential Events Recorder (SER)
⋅ Configure traveling wave fault location
2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 421SEL-421 Protection, Automation, and Control System
⋅ Apply the SEL-421 Relay protection, monitoring, metering, and control features, including current and voltage selection logic
⋅ Use SELogic® control equations with math and comparison variables in the independent protection and automation areas
⋅ Apply relay settings, program SELogic control equations, and analyze fault records and relay element responses using acSELErator QuickSet® SEL-5030 Software
⋅ Analyze Sequential Events Recorder (SER) reports and use COMTRADE files
⋅ Implement relay-to-relay logic via MirrorEd BitS® communications
⋅ Map and retrieve critical analog and digital information in DNP3 Level 2
⋅ Select the appropriate Enable Source Selection (ESS) setting for required applications
⋅ Communicate with the relay via the front-panel HMI interfaces, including pushbuttons and associated LEDs, display points, targeting LEDs, and front-panel metering
3-day course
2.1 CEUs available
Prerequisite CBT 101
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APP 451SEL-451 Protection, Automation, and Bay Control System
⋅ Identify the features, functions, and applications of the SEL-451 Relay, including high-speed Ethernet capabilities
⋅ Communicate with the relay HMI interface, including pushbuttons, display points, targeting LEDs, and front-panel metering
⋅ Use acSELErator QuickSet® SEL-5030 Software to apply relay settings, program SELogic® control equations, and test protection operations
⋅ Apply the SEL-451 Relay protection, monitoring, metering, and control features, including current and voltage selection logic
⋅ Use the relay’s bay control features and applications
⋅ Implement relay-to-relay logic via MirrorEd BitS® communications
⋅ Retrieve event reports, COMTRADE files, and Sequential Events Recorder (SER) reports for analysis
Optional Day 3:
⋅ Identify switch-on-to-fault protection schemes
⋅ Explain the relay’s fault type identification selection logic
⋅ Set the relay’s directional elements
⋅ Apply settings for high-impedance fault detection using Arc Sense™ technology (AST)
⋅ Determine autoreclosing protection settings
2- or 3-day course
1.4 or 2.1 CEUs available
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APP 487B
SEL-487B Bus Protection Relay
⋅ Determine bus classifications and interpret station diagrams
⋅ Establish a bus protection philosophy
⋅ Describe differential bus protection schemes, principles, and performance standards
⋅ Determine input information needed for protection zone selection
⋅ Assign relay inputs using SELogic® control equations and alias names
⋅ Develop settings for different busbar configurations
⋅ Program front-panel LEDs to indicate latch bit status
⋅ Access the relay status and event history for multiple relays2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 487ESEL-487E Transformer Protection Relay
⋅ Set the SEL-487E differential element for a variety of transformer types and applications
⋅ Use acSELErator QuickSet® SEL-5030 Software to manage settings, control operations, and monitor transformer performance
⋅ Set restricted earth fault (REF), overcurrent, and volts/hertz elements to protect the transformer
⋅ Calculate test quantities, simulate fault conditions, and verify protection settings
⋅ Use Commissioning Assistant software to simplify installation and testing
⋅ Use SEL event analysis tools to retrieve and analyze event records captured by the SEL-487E Relay
⋅ Monitor an in-service transformer, using Sequential Events Recorder (SER), thermal, and through-fault monitors
3-day course
2.1 CEUs available
Prerequisite CBT 101
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APP 487VSEL-487V Capacitor Protection and Control System
⋅ Navigate acSELErator QuickSet® SEL-5030 Software and settings tools
⋅ Calculate system and data settings for example cap bank nameplates
⋅ Enable grounded-wye or ungrounded capacitor bank applications
⋅ Determine settings for 60P and 60N current unbalance protection
⋅ Test SEL-487V differential and unbalance tripping operations
⋅ Isolate location of faulted phase and section
⋅ Monitor voltage sag and swell conditions
⋅ Set up switching and automatic control of capacitor bank operations
⋅ Configure synchrophasor real-time control applications
2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 651RSEL-651R Advanced Recloser Control
⋅ Upgrade existing substation and pole-mounted recloser controls
⋅ Communicate with the recloser control through the front-panel and serial port interfaces
⋅ Apply settings to implement Automatic Network Reconfiguration (ANR)
⋅ Determine several protection methods based on course application examples
⋅ Create and use acSELErator QuickSet® application designs
ê Enable and disable protection features and settings in application designs
ê Apply SEL-651R EZ settings application design
2-day course
1.4 CEUs available
Prerequisite CBT 101
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APP 700GSEL-700G Generator Protection Relay
⋅ Use acSELErator QuickSet® SEL-5030 Software to read and send settings to the relay
⋅ Enter system and generator data into configuration software
⋅ Set two-zone stator and field (rotor) ground detection schemes
⋅ Determine effective settings for differential, current unbalance, overexcitation, and loss-of-field protection
⋅ Protect small generators and large (387 MVA, 22 kV) unit-connected generation systems
⋅ Synchronize generator-breaker close operations
⋅ Verify relay tripping and protection for various faults and abnormal conditions
⋅ Apply IEEE standards and formulas to determine a range of protection settings
2-day course
1.4 CEUs available
Prerequisite CBT 101
APP 710
SEL-710 Motor Protection Relay
⋅ Enter nameplate data with acSELErator QuickSet® SEL-5030 Software
⋅ Communicate with the relay front-panel and serial port interfaces
⋅ Calculate and apply settings for the thermal model and thermal overload protection element
⋅ Determine motor relay settings to meet varied motor protection requirements and to maximize motor performance and safety
⋅ Retrieve and analyze motor trend reports, start reports, and event reports
⋅ Apply methods learned in class to troubleshoot and commission motor protection
2-day course
1.4 CEUs available
Prerequisite CBT 101
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APP 735
SEL-735 and SEL-734 Power Quality and Revenue Meters
⋅ Communicate with the meter through the front-panel and serial port interfaces
⋅ Recognize basic metering terms, such as meter forms and elements
⋅ Set the meter using acSELErator QuickSet® SEL-5030 Software
⋅ Determine meter functions and settings to meet system monitoring requirements
⋅ Monitor power quality
2-day course
1.4 CEUs available
APP 751SEL-751/A Feeder Protection Relays
⋅ Determine and enter phase, ground, and neutral overcurrent settings for an example application
⋅ Use acSELErator QuickSet® SEL-5030 Software to read and send settings to an SEL relay
⋅ Implement a secure arc-flash detection system
⋅ Apply under- and overvoltage, under- and overfrequency, synchronism-check, and breaker failure protection schemes
⋅ Implement resistance temperature detector (RTD)-based protection for thermal monitoring and tripping
⋅ Create customized SELogic® protection functions and display points
⋅ Determine reclosing settings for utility feeders
⋅ Retrieve and analyze event data
⋅ Implement relay-to-relay communications using the MirrorEd BitS® communications protocol
2-day course
1.4 CEUs available
Prerequisite CBT 751A
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APP 787SEL-787 Transformer Protection Relay
⋅ Use acSELErator QuickSet® SEL-5030 Software to read and send settings to the relay
⋅ Determine system and transformer winding data and configuration settings
⋅ Calculate CT compensation, operate and restraint, and harmonic blocking settings
⋅ Test high- and low-voltage CT configuration settings using Commissioning Assistant software
⋅ Determine settings for through-fault protection and monitoring
⋅ Apply effective protection for REF, overexcitation, undervoltage, and underfrequency protection
⋅ Use the SEL-787 Relay to test settings during event simulations
2-day course
1.4 CEUs available
Prerequisite CBT 101
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APP 2032SEL-2032 Communications Processor
⋅ Integrate SEL and non-SEL IEDs using communications processor settings and database functions
⋅ Identify and use settings classes of the communications processor for data acquisition, control, and automatic notification with SEL and non-SEL IEDs
⋅ Recognize and configure multitier applications
⋅ Identify DNP3 Level 2 and Modbus® protocols and application settings
⋅ Set the SEL-2701 Ethernet Processor to function in an Ethernet network
3-day course
2.1 CEUs available
APP 849
SEL-849 Motor Management Relay
⋅ Communicate with the relay via the web server
⋅ Determine required settings for the example motor control center application
⋅ Apply thermal overload protection settings
⋅ Apply arc-flash and current unbalance protection to maximize motor performance and safety
⋅ Monitor and analyze motor performance, starting reports, and event reports
⋅ Install, set, and commission motor protection
1-day course
0.7 CEUs available
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APP 2240SEL-2240 Axion Distributed Control and Integration Platform
The SEL-3530 RTAC can operate as the CPU for an SEL Axion® platform; thus, there is a high degree of overlap in course objectives and material with APP 3530.
⋅ Describe the expectations of modern integrated protection and control systems
⋅ Describe system applications
⋅ Configure the web interface for reading status and alarm logs from the RTAC
⋅ Efficiently manage the RTAC settings and database for common integration needs
⋅ Identify and properly configure DNP3, SEL, and Modbus® protocols application settings
⋅ Establish transparent communications to connected IEDs
⋅ Create advanced logic processing functions with the IEC 61131-3 programming language
⋅ Manage security and logic settings for NERC CIP requirements
⋅ Configure the human-machine interface (HMI) for status and control
3-day course
2.1 CEUs available
APP 3530SEL-3530 Real-Time Automation Controller (RTAC)
⋅ Describe the expectations of modern integrated protection and control systems
⋅ Describe system applications
⋅ Configure the web interface for reading status and alarm logs from the RTAC
⋅ Efficiently manage the RTAC settings and database for common integration needs
⋅ Identify and properly configure DNP3, SEL, and Modbus® protocols application settings
⋅ Establish transparent communications to connected IEDs
⋅ Create advanced logic processing functions with the IEC 61131-3 programming language
⋅ Manage security and logic settings for NERC CIP requirements
⋅ Configure the human-machine interface (HMI) for status and control
3-day course
2.1 CEUs available
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APP 3620
Sensible Cybersecurity Using the Ethernet Security Gateway
⋅ Describe the security expectations of modern integrated protection and control systems
⋅ Identify the SEL-3620 feature set and role within the defense-in-depth strategy
⋅ Configure local and network security
⋅ Commission the SEL-3620 using the web interface
⋅ Create user accounts for authenticated privileges
⋅ Configure syslog event collection in the SEL-3620
⋅ Configure secure communications using certificates and IPsec
⋅ Create firewall rules to filter transgressing packets
⋅ Configure event collection and logging
⋅ Configure secure communications at the device level
⋅ Use the SEL-3620 for device management
⋅ Access devices through the SEL-3620
⋅ Use the SEL-3620 for password management
2-day course
1.4 CEUs available
Prerequisite COM 203
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APP ICONSEL ICON Integrated Communications Optical Network
⋅ Identify the major features and functions of the SEL ICON®
⋅ Set up a node in the SEL-5051 Network Management System (HMI software)
⋅ Configure, test, commission, and troubleshoot the following communications circuits for an OC-48 ring network using SEL-5051 Software:
⋅ Configure GPS time source inputs for SONET frequency (SSM timing) and distributed time-of-day synchronization
⋅ Configure security parameters in the SEL ICON to help meet NERC CIP requirements
⋅ Perform commissioning testing to validate alarming and switching between nodes and around the ring
2-day course
1.4 CEUs available
Prerequisite COM 201
ê EIA-232
ê IEEE C37.94
ê Transfer Trip
ê 4-Wire E&M
ê FXS/FXO
ê Asynchronous DS1
ê 10 Mb Ethernet
ê 100 Mb Ethernet
ê DS0 Grooming
ê DS1 Synchronous Applications
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Testing CoursesSEL University testing (TST) courses build on our fundamentals courses. These are hands-on courses that cover relay setting, testing, commissioning, and troubleshooting, which enables you to test applied SEL products. Look through each description to determine the right testing course for you.
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TST 101SEL Relay Testing Basics
⋅ Establish a serial communications link with an SEL relay using HyperTerminal® and SEL software
⋅ Enter settings into an SEL relay
⋅ Equate Relay Word bits and SELogic® control equations to traditional relay element outputs and discrete contact logic
⋅ Test, commission, and troubleshoot using the metering, sequential events recording, and event reporting features of SEL relays
⋅ Analyze information recorded by the relay using SEL software
⋅ Calculate relay test points to verify responses
⋅ Find information in SEL relay instruction manuals
2-day course
1.4 CEUs available
TST 103SEL Feeder Relay Testing
⋅ Establish communications with an SEL relay using acSELErator QuickSet® SEL-5030 Software
⋅ Enter settings into an SEL relay
⋅ Equate Relay Word bits and SELogic® control equations to traditional relay element outputs and discrete contact logic
⋅ Test, commission, and troubleshoot using metering, sequential events recording, and event reporting features of SEL relays
⋅ Calculate relay test points based on relay settings
⋅ Analyze relay response with information recorded by the relay using SEL software
⋅ Find information in SEL relay instruction manuals
⋅ Understand differential relay concepts and determine appropriate test values
3-day course
2.1 CEUs available
Prerequisites TST 101, CBT 101
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TST 107SEL Transmission Substation Relay Testing
⋅ Establish a serial communications link with an SEL relay using HyperTerminal® and SEL software
⋅ Enter settings into an SEL relay
⋅ Equate Relay Word bits and SELogic® control equations to traditional relay element outputs and discrete contact logic
⋅ Test, commission, and troubleshoot using metering, sequential events recording, and event reporting features of SEL relays
⋅ Analyze information recorded by the relay using SEL software
⋅ Calculate relay test points to verify response
⋅ Find information in SEL relay instruction manuals
⋅ Understand differential relay concepts and determine appropriate test values
3-day course
2.1 CEUs available
Prerequisites TST 101, CBT 101
TST 700GTesting SEL-700G Generator Protection Relays
⋅ Test, commission, and troubleshoot SEL generator protection relays
⋅ Establish communication with an SEL generator relay using SEL software
⋅ Equate Relay Word bits and SELogic® control equations to traditional relay element outputs and contact diagram logic
⋅ Interpret system one-line diagrams for common protection applications
⋅ Develop effective element testing procedures
⋅ Calculate relay test points
⋅ Apply current to validate element operation and time delays
⋅ Retrieve and analyze data recorded by SEL relays
⋅ Ensure relay settings are functioning correctly and protection schemes work
2-day course
1.4 CEUs available
Prerequisite CBT 101
4141
4242
Systems CoursesSEL University systems (SYS) courses build upon the competencies learned in the fundamentals courses. Systems courses provide step-by-step, hands-on instruction using SEL product features and help you configure system networks, implement a defense-in-depth security posture, and visualize and act on system data in real time.
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SYS 310Modern Synchrophasor Visualization, Control, and Analysis
⋅ Identify common synchrophasor components, applications, and communications schemes
⋅ Identify the IEEE C37.118 standard and its communications requirements
⋅ Configure synchrophasor precise-time measurement using the SEL-2407® Satellite-Synchronized Clock
⋅ Configure phasor measurement units (SEL-421 Relays) using acSELErator QuickSet® SEL-5030 Software
⋅ Configure phasor data concentration and archiving using the SEL-5073 SynchroWAVE® Phasor Data Concentrator (PDC) Software
⋅ Configure custom IEC 61131-3 control logic for data output and control schemes using the SEL-3378 Synchrophasor Vector Processor
⋅ Configure SEL-5078-2 SynchroWAVE® Central Software for viewing both real-time and historical synchrophasor data
2-day course
1.4 CEUs available
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SYS 403IEC 61850 Fundamentals and Applications
⋅ Organize and configure all SEL intelligent electronic devices (IEDs) in a substation project
⋅ Configure incoming and outgoing Generic Object-Oriented Substation Event (GOOSE) messages and manufacturing message specifications (MMS) reports
⋅ Read IED Capability Description (ICD) and Configured IED Description (CID) files
⋅ Determine available IEC 61850 messaging options
⋅ Load device settings and IEC 61850 CID files into SEL and non-SEL IEDs
⋅ Generate ICD files that will provide IED descriptions to support interoperability and interrogation functions
⋅ Understand GOOSE exchange among IEDs from multiple suppliers
⋅ Configure protection, logic, control, and communications settings
⋅ Troubleshoot GOOSE message quality and network communications
⋅ Configure an RTAC as a protocol gateway to convert MMS to a supervisory control and data acquisition (SCADA) protocol
3-day course
2.1 CEUs available
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SYS 406acSELErator TEam SEL-5045 Software
⋅ Identify the acSELErator TEam® services and features
⋅ Create a connection directory with several folders and devices
⋅ Communicate with a device, collect and organize events, and view them in a timeline
⋅ Communicate with an SEL-3530 RTAC to collect Sequence of Events (SOE) data
⋅ Communicate with a metering device and collect load profile (LDP) data using TEam LDP Excel® templates
⋅ Communicate with a device for transmission fault location
⋅ Configure and integrate acSELErator TEam Sync across a wide-area network
⋅ Troubleshoot TEam
2-day course
1.4 CEUs available
4646
Computer-Based Training (CBT)CBT courses are designed to be self-paced and enable both technicians and engineers to learn about industry topics from anywhere that has an Internet connection. You can also download the CBT to your device. There are two different CBT license types: corporate and single user. Corporate CBT licenses can be installed on any corporate intranet or learning management system (LMS) and can be accessed by an unlimited number of users for one year. Single-user licenses allow one user to access the CBT using a web connection.
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CBT 101Introduction to SEL Relays
⋅ Establish a serial communications link using HyperTerminal® and acSELErator QuickSet® SEL-5030 Software
⋅ Explain common terms associated with SEL products
⋅ Identify front-panel controls and explain their functions
⋅ Retrieve and read data recorded by the relay
⋅ Explain SELogic® control equation operator and variable/timer functions
⋅ Construct a control equation and scheme using SELogic operators to combine relay elements
⋅ Install and configure acSELErator Analytic Assistant® SEL-5601 Software and SEL-5401 Software
⋅ Run a simple trip test using the SEL-4000 Relay Test System
0.4 CEUs available
CBT 102Retrieving Event Reports for Technicians
⋅ Describe the differences and functions of each event report type, including standard, raw, and compressed event reports
⋅ Describe the Sequential Events Recorder (SER) and retrieve reports
⋅ Retrieve an event report using HyperTerminal®, SEL-5010 Relay Assistant, and acSELErator QuickSet® SEL-5030 Software
⋅ Determine the appropriate type of event report required for various conditions and objectives
⋅ Gather the necessary information to download the appropriate event report
0.2 CEUs available
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CBT 103Analyzing Event Reports for Engineers
⋅ Deduce causes for system faults based on available event report data and determine a solution using the event report analysis process
⋅ Use acSELErator Analytic Assistant® SEL-5601 Software to analyze event reports
⋅ Apply the event report analysis process to event data collected from a variety of SEL relays and for various system faults0.2 CEUs available
CBT 104Understanding SEL Relay Logic
⋅ Analyze logic diagrams
⋅ Associate Relay Word bits with specific protection elements
⋅ Visually identify SEL relay logic operator functions
⋅ Interpret logic using control scheme diagrams
⋅ Correlate logic with relay protection functions and settings
⋅ Navigate acSELErator QuickSet® SEL-5030 Software
⋅ Enter logic settings and equations
⋅ Determine timing logic and settings
⋅ Develop logic testing methods
⋅ Diagnose problems using events and logic
0.4 CEUs available
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CBT 351
Introduction to SEL-351 Relays
⋅ Get a jump-start using the relay:
ê Configure rear-panel I/O and verify connections
ê Use front-panel pushbuttons and interpret target LEDs
ê Create a settings file
ê Set relay identifiers and security passwords
⋅ Enter protection settings:
ê Configure nominal voltage, CT, and VT ratio settings
ê Convert tap and time-dial settings to relay equivalents
ê Navigate settings menus in acSELErator QuickSet® SEL-5030 Software
ê Apply undervoltage and underfrequency protection
⋅ Analyze relay logic and create SELogic® control equations:
ê Identify logic operators and Relay Word bits
ê Convert logic diagrams to equations
ê Program customized trip and reclose logic equations
ê Create a cold-load pickup scheme
⋅ Send settings files to the relay
⋅ Retrieve and analyze event data
⋅ Analyze phasor data and much more
0.4 CEUs available
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CBT 421Introduction to SEL-421 Relays
⋅ Implement a two-zone, stepped-distance protection scheme with single-breaker reclosing using acSELErator QuickSet® SEL-5030 Software
⋅ Apply high-speed, permissive tripping
⋅ Use enhanced SELogic® to track Zone 2 distance element operations
⋅ Diagnose wiring issues based on metering data and verify connections
⋅ Communicate with the relay via the front panel and the human-machine interface (HMI), including pushbuttons and associated LEDs, display points, targeting LEDs, and front-panel metering
⋅ Retrieve and interpret event report data
0.4 CEUs available
CBT 751A
Introduction to the SEL-751A Feeder Protection Relay
⋅ Enter protection and logic settings using acSELErator QuickSet® SEL-5030 Software
⋅ Apply neutral overcurrent protection settings
⋅ Implement a secure arc-flash detection system
⋅ Create a settings file and send settings to the relay
⋅ Retrieve event report data
0.3 CEUs available
5151
5252
Web-Based Training (WBT)WBT courses provide live, instructor-led training delivered over the web via Adobe® Connect™. This allows the technician or engineer to attend instructor-led training without leaving the office. Classes are typically conducted from 9:00 a.m. until 11:30 a.m. (PST) on Tuesday and Thursday of the scheduled week.
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WBT 101Event Report Analysis Workshop
⋅ Deduce causes for system faults based on available event report data and determine a solution using the event report analysis process
⋅ Use various analysis tools in acSELErator Analytic Assistant® SEL-5601 Software to analyze event reports
⋅ Apply the event report analysis process to event data collected from a variety of SEL relays and for various system faults
⋅ Determine the appropriate type of event report required for various analytic purposes
0.4 CEUs available
Optional Introductory Course CBT 103
WBT 102Event Report Analysis Workshop for Distribution Relays
WBT 102 is an adaptation of WBT 101, with specific distribution examples selected from WBT 101 examples.
⋅ Deduce causes for system faults based on available event report data and determine a solution using the event report analysis process
⋅ Use various analysis tools in acSELErator Analytic Assistant® SEL-5601 Software to analyze event reports
⋅ Apply the event report analysis process to event data collected from a variety of SEL relays and for various system faults
⋅ Determine the appropriate type of event report required for various analytic purposes
0.4 CEUs available
Optional Introductory Course CBT 103
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WBT 351SEL-351 Relay Coordination Techniques
⋅ Describe the basic overcurrent device coordination goals, principles, and strategies
⋅ Identify common coordination pairs
⋅ Describe the basic SEL-351 protection and coordination settings, including general, phase and ground instantaneous, phase and ground definite-time, phase and ground time-overcurrent, and reclosing settings
⋅ Determine SEL-351 coordination settings using provided calculation methods and/or criteria to coordinate with upstream and downstream devices
⋅ Apply coordination strategies to real-world application examples
0.4 CEUs available
Optional Introductory Course CBT 351
WBT 421
Applying Dual-Breaker Reclosing With the SEL-421 Relay
⋅ Integrate complete breaker protection and control for two breakers for ring-bus and breaker-and-a-half line configurations
⋅ Evaluate fault scenarios to determine how the relay will respond based on the applied dual-breaker protection design
⋅ Apply dynamic leader/follower breaker logic
⋅ Define and implement reclosing timing based on the requirements of your protection scheme
⋅ Evaluate differences between line reclosing and dual-breaker reclosing practices
0.4 CEUs available
Optional Introductory Course CBT 421
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Regularly Scheduled CoursesSELU offers prescheduled courses, worldwide, throughout the year.
SEL University Provides ⋅ Instructors and training manuals or reference materials
⋅ Certificate of attendance and CEU forms
⋅ CD-ROM with lab exercises, application guides, and technical papers (as applicable)
⋅ Equipment, test sets, and cables (depending on the type of course)
⋅ Training room with whiteboards
⋅ Projector for connection to the instructor’s laptop computer
⋅ Lunch/breaks
On-Demand CoursesOn-demand training from SEL University makes it easy to ensure that your team has the right skills to maximize the value of your system investment. If you have several people to train on the same technology, theory, or applications, there’s no need to travel for the training you need. Our on-demand training options bring world-class training to your doorstep or any convenient nearby location. Choose from over 60 course offerings, or request a tailored course that fits your needs. We deliver the same innovative, high-quality, and customer-focused experience you have come to expect from SEL.
Your Company Provides ⋅ Training room with flip charts and whiteboards
⋅ Projector for connection to the instructor’s laptop computer
⋅ Lunch/breaks at customer’s discretion
SEL University Provides ⋅ Training manuals or reference materials and instructors
⋅ Laptop computers can be provided for an additional fee
⋅ Certificate of attendance and CEU forms
⋅ CD-ROM with lab exercises, application guides, and technical papers (as applicable)
⋅ Equipment, test sets, and cables (depending on the type of course)
5757
5858
Programs OverviewSEL University courses are organized into programs consisting of one or more tracks. Tracks are a recommended sequence for engineers, technicians, power system specialists, and managers concerned with protection, monitoring, control, automation, metering, and management of utility and industrial electric power systems.
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Technician ProgramThe SEL University Power System Protection for Technicians program is designed for those involved in setting, testing, and troubleshooting protective relays. The program begins with a power system fundamentals course where students explore the methods and devices used in power system protection. This course is followed by an introduction to relay testing basics and courses on methods for testing SEL relays.
Power System Protection for Technicians TrackOptional Introductory Courses:
PROT 300: Symmetrical Components: Theory and Application
TST 101: SEL Relay Testing Basics
Required:
PROT 301: Protecting Power Systems for Technicians
TST 103: SEL Feeder Relay Testing
TST 107: SEL Transmission Substation Relay Testing
TST 700G: Testing SEL-700G Generator Protection Relays
Engineer ProgramThe SEL University Protection Program for Engineers consists of multiple tracks of both power fundamentals and product application courses. These tracks are for individuals who want to specialize in a specific area of protection.
Communications TrackOptional Introductory Courses:
PWRS 400: Power System Fundamentals for Engineers
PROT 401: Protecting Power Systems for Engineers
Required:
APP 3620: Sensible Cybersecurity Using the Ethernet Security Gateway
COM 201: Multiplexing and TDM Communications
COM 203: SEL Cybersecurity Best Practices for Critical Infrastructure
Electives (choose two or more of the following courses):
APP 3530: SEL-3530 Real-Time Automation Controller (RTAC)
APP ICON: SEL ICON Integrated Communications Optical Network
SYS 403: IEC 61850 Fundamentals and Applications
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Distribution System Protection TrackOptional Introductory Courses
PWRS 400: Power System Fundamentals for Engineers
PROT 300: Symmetrical Components: Theory and Application
Required
PROT 401: Protecting Power Systems for Engineers
PROT 403: Distribution System Protection
Electives (choose two or more of the following courses)
APP 351: SEL-351 Protection System
APP 351R: SEL-351R Recloser Control
APP 651R: SEL-651R Advanced Recloser Control
Generation System Protection TrackOptional Introductory Courses
PWRS 400: Power System Fundamentals for Engineers
PROT 300: Symmetrical Components: Theory and Application
Required
PROT 401: Protecting Power Systems for Engineers
PROT 409: Generation System Protection
Electives (choose one or both of the following courses)
APP 300G: SEL-300G Generator Relay
APP 700G: SEL-700G Generator Protection Relay
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Industrial Power System Protection TrackOptional Introductory Courses
PWRS 400: Power System Fundamentals for Engineers
PROT 300: Symmetrical Components: Theory and Application
Required
PROT 401: Protecting Power Systems for Engineers
PROT 405: Industrial Power System Protection
Electives (choose two or more of the following courses)
APP 700G: SEL-700G Generator Protection Relay
APP 710: SEL-710 Motor Protection Relay
APP 751: SEL-751/A Feeder Protection Relays
APP 787: SEL-787 Transformer Protection Relay
APP 849: SEL-849 Motor Management Relay
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Substation Protection TrackOptional Introductory Courses
PWRS 400: Power System Fundamentals for Engineers
PROT 300: Symmetrical Components: Theory and Application
Required
PROT 401: Protecting Power Systems for Engineers
PROT 411: Substation Equipment Protection
Electives (choose two or more of the following courses)
APP 87: SEL-387 and SEL-587 Percentage-Restrained Differential Relays
APP 487B: SEL-487B Bus Protection Relay
APP 487E: SEL-487E Transformer Protection Relay
APP 487V: SEL-487V Capacitor Protection and Control System
Transmission Line Protection TrackOptional Introductory Courses
PWRS 400: Power System Fundamentals for Engineers
PROT 300: Symmetrical Components: Theory and Application
Required
PROT 401: Protecting Power Systems for Engineers
PROT 407: Transmission Line Protection
Electives (choose one or more of the following courses)
APP 311L: SEL-311L Line Current Differential Relay
APP 411L: SEL-411L Advanced Line Differential Protection, Automation, and Control System
APP 421: SEL-421 Protection, Automation, and Control System
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Course InformationSEL University is committed to providing unprecedented quality, depth, value, and experience to meet your power system training needs. Whether you attend courses scheduled in a nearby city or a tailored training program at your site, SEL University can help you optimize the value of your protection, control, monitoring, and communications system investment by producing a well-trained workforce capable of achieving superior system performance.
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Class TimesUnless otherwise specified, classes are conducted from 8 a.m. until 5 p.m. each day. Complimentary lunch and breaks are provided. Check our website for the most current information on courses and availability.
Continuing Education Units (CEUs)SEL University is authorized to provide CEUs through its affiliation with the International Association for Continuing Education and Training (IACET), and professional development hours (PDHs).
Class Seating Capacity (depending on location)COM, PROT, and PWRS courses — 24–40 students
APP, TST, and SYS courses — 20 students
Register OnlineRegister for a scheduled class through the online registration process. When you get to the payment option, select your payment method, either credit card or purchase order (PO). If you select PO, you will be required to enter your PO number.
Please visit our website for the most current information on courses and availability. To check if a course is offered, please look at the website first. To request an on-demand quote or ask a question about the training we offer, click one of the two options on the Contact SEL University page.
mySELU Training AccountYour mySELU training plan is a record of SELU training you have purchased. When you purchase an SELU training course, it will be added automatically to your mySELU training plan. Use your mySELU training plan to:
⋅ View and sort training you have completed and courses in which you are enrolled
⋅ Access SELU online training in which you are enrolled
⋅ View SELU online training completion status
⋅ View your SELU transcript
⋅ Access course and precourse materials two weeks prior to the course date
Reserved SeatingWe do not reserve seats. At the time of registration, we must have either a credit card number or a PO. If you would like to pay with a PO, you must provide the number at the time of registration as well as a copy of the PO in either fax or email form.
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Course PoliciesCourse FeesPayment is in U.S. dollars and fees are subject to change without notice. Enrollment is guaranteed when full payment is received. You will be placed on a waiting list if your registration does not include your payment. Credit card charges will be applied one month prior to the last day of the course. Please make checks payable to “Schweitzer Engineering Laboratories, Inc.,” and reference the course number and date on the memo line.
Confirmation
Confirmation will be emailed within two business days of registration. If available, detailed information on lodging and airport-to-hotel transportation options will be included with the confirmation letter. You are responsible for your travel and lodging reservations. Please wait for receipt of confirmation before making any nonrefundable travel reservations.
Additional ExpensesFees include course materials, refreshments for morning and afternoon breaks, and lunch each day. You are responsible for all other expenses, such as travel, lodging, breakfast, and dinner.
Cancellation PolicyCourse cancellations may be made according to the following schedule:
SEL is notified of the cancellation Refund
30+ days prior to start of class 100% of registration fee
29–14 days prior to start of class 70% of registration fee
No refunds will be given for cancellations less than 14 days prior to the start of the course.
Registered participants desiring to send a coworker in their place may send written requests to SEL University before the first day of the course.
ChangesSEL University reserves the right to cancel any class or make changes in course content, schedule, instructors, or facilities. SEL University will not be responsible for any loss or damage arising directly or indirectly from course cancellations or changes, and the student’s recovery shall be limited to return of any previously paid registration fee. SEL University will make all reasonable efforts to minimize the impact of any cancellation or changes to the student.
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Use of Confidential InformationIn the performance of the Training and/or these Terms, a party may receive documents, materials, data, and other confidential information of the other party. The receiving party shall use confidential information solely in performance of the Training and any resulting business transaction between the parties. The receiving party shall use at least the same degree of care (and, in any event, not less than a reasonable degree of care) in protecting the disclosing party’s confidential information as it exercises in protecting its own similar confidential information. Confidential information shall be subject to these Terms for three (3) years following receipt of such confidential information. Confidentiality obligations shall survive the termination of these Terms. Video, audio, or any other recording methods of Training are prohibited.
Usage SEL University reserves the right to terminate access to any Training if it is determined that access is being abused. For more information about appropriate usage, please refer to the SEL Software License Agreement.
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Modern Solutions for Protection, Control, and Monitoring of Electric Power SystemsEdited by Héctor J. Altuve Ferrer and Edmund O. Schweitzer, III
The most comprehensive work of its kind, this book consolidates into one volume new, modern solutions for protection, control, and monitoring of electric power systems.
You’ll find straightforward presentations and example applications of the following technologies:
⋅ Time-synchronized protection, control, and monitoring
⋅ Wide-area protection and control using synchrophasors
⋅ Sensible cybersecurity and a security-in-depth tool kit
⋅ Distribution systems that deliver safe operation and rapid power restoration after faults
⋅ Transmission protection solutions that improve stability, detect power swings, and help you get the most out of your primary equipment
$151.21 (USD)Order online at www.amazon.com or selinc.com/bookstore
For more information, including a full table of contents, book reviews, contributing author list, author biographies, and more, please visit www.selinc.com/bookstore.
Spanish version available.
Autographed copies are available for $171.21 (USD)
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Line Current Differential Protection: A Collection of Technical Papers Representing Modern SolutionsEdited by Héctor J. Altuve, Bogdan Kasztenny, and Normann Fischer
This book addresses the design and application of line current differential (87L) protection, communications, and fault locating, from both the protection and communications perspectives. The book is based on technical papers written by industry experts, including research and development engineers, field application engineers, and protection and communications practitioners from several electric utilities. The book is suitable for protection, control, communications, and power system engineers, as well as decision-making personnel at electric utilities and industries.
The papers are grouped in sections that cover the following topics:
⋅ Line Current Differential Protection Principles—introduces the reader to the 87L operation principles, design challenges, and solutions
⋅ Communications and Time Sources—discusses communications and timing for 87L protection. We review and compare various 87L channels, discuss channel requirements, and present current data alignment methods and usage of external time sources in 87L schemes
⋅ Applications—addresses common application considerations of 87L schemes
⋅ Fault Locating in Line Current Differential Relays—reviews impedance-based and traveling-wave fault locating methods embedded in 87L relays
$87.00 (USD)Order online at www.amazon.com or selinc.com/bookstore
For more information, including a full table of contents, book reviews, contributing author list, author biographies, and more, please visit www.selinc.com/bookstore.
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Analyzing and Applying Current TransformersStanley E. Zocholl
Current transformers are used throughout the world as current transducers for protective relays in industrial, commercial, and utility applications. Standard ratings and application guides deal with the steady-state sine wave behavior of current transformers. Despite the use of recommended rules applied to avoid transient saturation, it
always occurs in certain critical relay applications. This book presents transformer concepts that provide the fundamentals to understand the nonlinear characteristics, accuracy ratings, and transient behavior of current transformers.
AC Motor ProtectionStanley E. Zocholl
AC motor protection presents a unique challenge to facility, maintenance, and protection engineers. Comprehensive motor protection requires knowledge of all the characteristics of the motor in operation. AC motors, induction or synchronous, require electrical, mechanical, and thermal models to determine the motor characteristics to provide optimized
thermal and fault protection. Written for the professional engineer, all of the steps necessary to develop this vital information are included in this concise handbook.
$34.95 (USD)Order online at www.amazon.com or selinc.com/bookstore
$34.95 (USD)Order online at www.amazon.com or selinc.com/bookstore
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Course Index APP 87 .....................................................23
APP 101 ...................................................23
APP 300G .................................................24
APP 311L .................................................24
APP 351 ...................................................25
APP 351R .................................................25
APP 351R/651R .......................................26
APP 411L .................................................27
APP 421 ...................................................27
APP 451 ...................................................28
APP 487B .................................................29
APP 487E .................................................29
APP 487V .................................................30
APP 651R .................................................30
APP 700G .................................................31
APP 710 ...................................................31
APP 735 ...................................................32
APP 751 ...................................................32
APP 787 ...................................................33
APP 849 ...................................................34
APP 2032 .................................................34
APP 2240 .................................................35
APP 3530 .................................................35
APP 3620 .................................................36
APP ICON .................................................37
CBT 101 ...................................................47
CBT 102 ...................................................47
CBT 103 ...................................................48
CBT 104 ...................................................48
CBT 351 ...................................................49
CBT 421 ...................................................50
CBT 751A .................................................50
COM 201 ..................................................20
COM 203 ..................................................20
COM 401 ..................................................21
PROT 300 .................................................14
PROT 301 .................................................15
PROT 401 .................................................15
PROT 403 .................................................16
PROT 405 .................................................17
PROT 407 .................................................17
PROT 409 .................................................18
PROT 411 .................................................18
PROT 413 .................................................19
PWRS 400 ................................................13
SYS 310 ....................................................43
SYS 403 ....................................................44
SYS 406 ....................................................45
TST 101 ....................................................39
TST 103 ....................................................39
TST 107 ....................................................40
TST 700G .................................................40
WBT 101 ..................................................53
WBT 102 ..................................................53
WBT 351 ..................................................54
WBT 421 ..................................................54
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2270N NE Hopkins Court · Pullman, WA 99163 USA · Tel: +1.509.338.4026 · Fax: +1.509.336.7186www.selinc.com/selu · [email protected]
385-0019 ⋅ 20140822