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Course Outline
Introduction to the Course
- Course organization
- Role of relaying theory
- Field experiences
Relaying Fundamentals
- The nature of relaying
- Relay terminology
- Protection system design – redundancy, backup
- Relay upgrades
- Application of IEC 61850 station bus and process bus
Protection System Accessories
- Current transformers
- Wire wound and capacitive potential devices
- Batteries
- Circuit breakers
- Teleprotection systems
- Human machine interface
Fault level calculations and symmetrical components
- Short circuit fault calculations
- Symmetrical components and calculations
Distribution Protection - Overcurrent Protection
- Principles (why overcurrent protection works)
- Neutral grounding
- Fuses
- Overcurrent relays
- Circuit reclosers
- Impact of power electronic converter sources
Distribution System Protection
- Feeders
- Fuse saving
- Small tapped substations
- High side breakers, circuit switcher, fuses, or nothing
- Substation and feeder protection coordination
Non-Pilot Line Protection of Transmission Lines
- Relay setting philosophy
- 3-terminal lines
- Setting examples
Pilot Line Protection of Transmission Lines
- Communication channels
- Directional comparison
- Transfer trip
- Phase comparison
- Wire pilot
- Settings
Operating Problems Affecting Human Safety
- Miscoordination of relays
- Misapplied operating procedures
- Equipment failures and arcflash
- Backup protection failures
Interpreting Oscillograms
- Reading oscillograms
- Filtered or unfiltered oscillograms
- Examples of various short circuits
- Bus differential protection
Bus and Transformer Protection
- Bus arrangements
- Zone interlocking protection
- Bus partial and full differential protection
- Magnetizing inrush
- Transformer protection
- Application examples
Voltage Stability
- Description of phenomena
- Voltage collapse incidents
- Reactive power control
- Load shedding
Remedial Action Schemes
Course Schedule
- 6/17/2025 08:00am - 05:00pm
- 6/18/2025 08:00am - 05:00pm
- 6/19/2025 08:00am - 03:00pm
All times listed are Central Time Zone (GMT-5)
Location
Venue
Accommodations
Room: rates start at 170
Group Code: Use reservation link below
Reserve by: May. 16, 2025
Accommodations include:
Additional Information
This course is taught in-person only in Madison, WI.
The Canvas learning platform is used to share course resources. All students will need a UW NetID to create and access the Canvas website. Your registration confirmation email will walk you through the NetID process and how to access the Canvas.
Hotel room links expire one month before the course start date. Please book your room once registered for the course.
Program Director & Instructors
Program Director
Shalini Bhat
John Bettler
Principal Engineer, Relay Section
John Bettler’s responsibilities at Commonwealth Edison include setting all distribution relays (line, bus & transformer), running fault or coordination studies and the field in troubleshooting. He was previously the Cogeneration relay engineer, and has also worked in marketing and on field engineering assignments. John is a registered PE in the state of Illinois and holds a MSEE from IIT and a BSEE from Iowa State.
Russell Patterson
Russell W. Patterson (IEEE SM 2002) received his BSEE degree in 1991 from Mississippi State University in Starkville, MS, his MSEE in 2013 from the University of Tennessee in Chattanooga, TN, and his PhD in Electrical Engineering in 2024 from the University of Tennessee in Knoxville, TN.
Russell began his career as a field test engineer for the Tennessee Valley Authority (TVA) in 1991 and has over 30 years’ experience in utility protection for generation, transmission, and distribution. He was a protection specialist and then managed the System Protection and Analysis department for TVA until his retirement in 2008 to enter full time consulting.
In 2010 Russell founded Patterson Power Engineers (PPE), a consulting firm headquartered in Chattanooga, TN with sixteen protection engineers. In 2021 he sold PPE to Qualus Power Services, Inc. where he now serves part time as an instructor and SME on power system protection.
Russell is a member of the IEEE Power System Relaying and Control Committee (PSRC) where he is past chairman of the committee, past chairman of the Line Protection subcommittee and a member of the Rotating Machinery subcommittee. He is a senior member of IEEE, a member of IET (MIET), a member of CIGRÉ, and a registered professional engineer in multiple states. He is also an adjunct lecturer at the University of Tennessee at Chattanooga in the electrical engineering department where he teaches graduate classes and short courses on power system protection.
Russell has authored/co-authored many conference papers on protective relaying and on occasion serves as an expert witness in legal proceedings pertaining to power system protection and analysis.