GE Multilin
Power Management
Lentronics
GE MULTILIN
Advanced Training Center
In today’s competitive market,
companies are looking to leverage
every opportunity to improve productivity
and enhance the knowledge base of their
employees. The GE Multilin Advanced Training
Center provides the industry theory and in-depth
product application training necessary to help industrial
and utility professionals maximize their impact.
GE Multilin training spans a broad range of subjects, from
application-focused courses to product-specific courses, all
designed to provide students with the necessary fundamentals
of protection and control. Our courses are offered both at the
GE Multilin headquarters in Markham, Ontario and as on-site courses
virtually anywhere in the world. In addition, we provide custom course
services, allowing you to choose both content and course length to meet
your training needs.
Responding to our customers’ requests, we have introduced two new
interactive learning products. These CD-based training courses take the student
through an interactive experience of engaging course content from the
convenience of their desktop. These products are ideal for situations where class
training is not practical.
New to our instructor-led course offerings are the Fundamentals of Modern Protective
Relaying (FMPR) and Introduction to Electromechanical Relays (ER). The FMPR course
focuses on the theoretical application of protection in today’s applications and the EM Relay
course provides a comprehensive look at electromechanical devices and their applications.
Training Center instructors have over one hundred years of combined engineering experience
and are all skilled educators with a passion for training. The courses they deliver are
continually evaluated based on customer feedback and are regularly updated to ensure that
they reflect the latest product and industry information.
New courses and products are continually being added to our curriculum. We encourage you
to visit www.GEindustrial.com/multilin/training for the latest information on courses, products
and schedules.
We wish you a valuable and enjoyable learning experience.
Larry Sollecito
President and General Manager
GE Multilin
GE Multilin
Table of Contents
INDEX
Fundamentals Courses
Fundamentals of Modern Protective Relaying.................................................2
Introduction to Electromechanical Relays ........................................................6
Product Application Courses
Distribution
Distribution Management Relays ......................................................................8
745 SR Transformer Management Relay ........................................................10
750/760 SR Feeder Management Relay ..........................................................12
Generation
489 SR Generator Management Relay............................................................14
DGP Generator Protection Relay .....................................................................16
Line Protection
ALPS/LPS Maintenance ....................................................................................18
ALPS/LPS Applications ....................................................................................19
Metering
PQM Power Quality Meter ...............................................................................20
Motors
Motor Management Relays..............................................................................22
239 Motor Management Relay .......................................................................24
269 Motor Management Relay .......................................................................26
369 Motor Management Relay .......................................................................28
469 SR Motor Management Relay .................................................................30
SPM Synchronous Motor Protection ..............................................................32
Universal Relay
UR Maintenance................................................................................................34
UR Platform .......................................................................................................36
UR Data Communications................................................................................38
UR Advanced Applications ..............................................................................40
Additional Courses
On Site Courses ................................................................................................43
Custom Courses ................................................................................................43
Interactive Learning CDs
Introduction to the Universal Relay ................................................................44
Motor Protection With the 469 ........................................................................45
Course Logistics
Registration .......................................................................................................46
Schedule ............................................................................................................47
Markham Location Map ...................................................................................48
1
FMPR
TRNG-FMPR
Fundamentals of Modern
Protective Relaying
What will I learn from this course?
The Fundamentals of Modern Protective Relaying
provides a comprehensive understanding of the
principles of digital power system relaying and their
associated applications. The class will cover power system
faults, protections schemes, and an overview of transformer,
feeder, motor, distribution and bus applications.
Who should attend?
Anyone requiring an introduction to the principles of protective
relaying will benefit most from this course. Both recent graduates
entering the field and seasoned professionals moving into a new area of
responsibility will find this course to be a valuable primer.
Prerequisites
An understanding of protective relaying and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
2
Agenda
Day 1
Overview and Discussion
of Objectives
Single-line diagram and
components of a typical power
system
Power System Faults
Different types of faults
Incidence of faults on power
system equipment
Effects of power system faults
Magnitude of fault current
Power System Faults
Detection of faults
Clearance of faults
Requirements of protective
relaying systems
Fault current calculations
Components of Power System
Protection Schemes
Fault detecting relays
Transition from electromechanical to electronic and
microprocessor-based relays
Tripping and other auxiliary
relays
Microprocessor-based relays
» Breaker failure logic, autoreclose logic
Circuit breakers
» Air, bulk oil, air blast,
vacuum, SF6
Current transformers
Voltage transformers
FMPR
Current Transformers and
Voltage Transformers
Various types of CTs VTs and
CVTs
Theory and characteristics of
CTs
Application requirements of CTs
for protective relaying
Accuracy classifications
Ground fault sensing
» Zero sequence and residual,
solid and resistive grounding
Future trends in CT design using
optics
Testing of CTs and VTs
Feeder Overcurrent Protection
Protective relaying
requirements for radial systems
Elements of feeder protection
schemes
High-set, low-set, and inversetimed elements
Coordination with other devices
and fuses
Various types of overcurrent
relays
Relay setting criteria
Load limitations
Testing of overcurrent
protection schemes
Microprocessor-based feeder
overcurrent relays
3
Agenda
Coordination of Electrical
Protection Systems
Fuse to fuse
Circuit breaker to fuse
Fuse to circuit breaker
Computer software packages
for protection coordination
studies
Auto reclosing of circuit
breakers
Back-up protection
Breaker failure protection
Limitation of fault current
Selective zones of protection
Neutral Grounding and Limitation
of Ground Fault Current
Ungrounded systems
Resistance grounded systems
Reactor grounded systems
Solidly or effectively grounded
systems
Generator grounding
Bus Protection
Basic concept of differential
protection
Application to various bus
configurations
Types of bus protection
schemes
High-impedance differential
relays
Testing of bus protection
schemes
4
Day 2
Transformer Protection
Overcurrent and ground fault
protection
Application of differential
Protection to transformers
Restricted ground fault
protection
Gas relays, pressure and gas
accumulation
Winding temperature and oil
temperature devices
Testing of transformer
protection schemes
Microprocessor-based multifunction transformer relays
Demonstration of MicroprocessorBased Relays
Feeder protection
Bus protection
Transformer protection
Motor Protection
Motor types and applications
Methods of starting
Protection for overcurrent,
overvoltage, undervoltage,
locked rotor, unbalance
Differential protection, phase
unbalance
Ground fault protection
Thermal capacity, stator
temperature sensing using
RTDs and thermistors
Effects of power factor
correction equipment on motor
protection
Location of CTs and VTs
Microprocessor-based motor
control and protection devices
Agenda
Generator Protection
Differential protection
Reverse power, stator ground,
out-of-step
Loss of field, overexcitation,
interturn
Negative phase sequence
Generator Protection (continued)
Voltage-controlled overcurrent
Over and underfrequency,
over and undervoltage
Synchronizing systems and
synchrocheck relays
Testing of generator protection
schemes
Comparison of electromechanical and electronic
relays
Microprocessor-based multifunction generator protection
relays
Day 3
Cogeneration and Non-Utility
Generation (NUG) Protection
Protection requirements for
non-utility generating stations
Requirements for
interconnection of NUGs to
utility power systems
Typical protection schemes for
non-utility generators
FMPR
Demonstration of MicroprocessorBased Relays
Motor protection
Generator protection
Capacitor Protection
Description of schemes used
Testing of capacitor protection
schemes
Transmission Line Protection
Interconnected systems with
two-way flow of fault current
Distance or impedance
Protection schemes
Phase comparison schemes
Communication channel
requirements between
terminals
Coordination and transfer
tripping between terminals
Modern microprocessor-based
line protection relays
Recent Developments and Future
Trends in Protective Relaying
Digital signal processors
Optical current transformers
Fibre optic communications
Integration of microprocessorbased devices
5
EMR
TRNG-EMR1
Introduction to
Electromechanical Relays
What will I learn from this course?
This course provides students with a solid
understanding of the operation, application, practical
testing and maintenance techniques used with GE Multilin
electromechanical relays. Through practical lab exercises
and discussions of real application issues students will learn
how to calibrate, monitor and troubleshoot various devices.
Who should attend?
Utility and plant electrical personnel who are responsible for the
installation, maintenance, and testing of electromechanical relay
equipment will benefit most from this course.
Prerequisites
An understanding of protective relaying, electromechanical devices and
electrical control circuits
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
6
EMR
Agenda
GE Multilin’s Introduction to
Electromechanical Relays course
provides a strong foundation and
skill set for working with electromechanical products. This course
offers a well-paced and comprehensive examination of the theoretical and practical applications of
electromechanical relays in today’s
marketplace. Periodic testing and
lab exercises follow each section to
challenge your understanding of
the material covered. The course
leverages the contributions of GE
Multilin’s senior engineering and
technical staff. The material is
taught through lectures, textbooks
and audio/video presentations.
Students will also participate in
hands-on lab exercises.
Basic Theory of Operation
Electromagnetic attraction
Electromagnetic induction
Force and torque equations
Applications
Basic applications of various
relays
Relay operating characteristics
Design Features
Functional elements
Calibration and setting means
Ratings
Electrical, thermal, mechanical
Testing and Adjustment Techniques
Design tests
Acceptance tests
Calibration settings
7
DIST
TRNG-DIST
Distribution Management Relays
What will I learn from this course?
This course provides a basic understanding of GE
Multilin feeder and transformer protective relay
installation, operation, and troubleshooting procedures.
The course covers both the 750/760 Feeder Management
Relay and the 745 Transformer Management Relay. Students
will learn basic protection theory associated with each relay in
addition to the installation, configuration and testing of protective
elements using simulation software. Practical lab exercises
reinforce material covered in the class lectures.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, maintenance, testing and repair of GE Multilin 745 and 750/760
relays will benefit most from this course.
Prerequisites
An understanding of protective relaying and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
8
DIST
Agenda
Day 1
750/760
Introduction to power
generation and distribution
Grounding systems
Introduction to protective
relaying
Current transformer selection
Hardware overview
750/760 Specifications
Mechanical installation and
wiring
750/760 PC program installation
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» 750/760 relay setup
» Logic inputs
» Output relays:
trip circuit supervision
Day 2
Protection and fault simulation lab
» IOC
» TOC
» Voltage restraint
» Directional overcurrent
» Under/overvoltage
» Underfrequency
Control
» Setpoint groups
» Underfrequency
Monitoring
» Undervoltage
» Overvoltage
Actual data
» Event recorder and
waveform capture
745
Basic transformer theory of
operation
Percent differential protection
element
Instantaneous differential
protection
Tap changers
745 Specifications
Hardware overview, options
and ordering
Mechanical installation and wiring
Establishing communication to
the relay with TM PC software
Loading and saving settings
files lab
745 setup
» Logic inputs:
contact and virtual
» Protective elements
» Outputs: virtual and contact
Day 3
745
Fault simulation and
investigation tools such as the
waveform capture
» Differential
» Event recorder, trending and
waveform capture
Introduction to FlexLogic™
» Gates: AND, NAND, OR,
NOR, XOR, NOT
» Virtual inputs
» Contact outputs and virtual
outputs
» FlexLogic™ lab
The 745 memory map and user
memory map
Data communication LANs
9
745
TRNG-745
SR Transformer Management Relay
What will I learn from this course?
This course is designed to train maintenance
personnel on the procedures to correctly install,
configure, and test the 745 transformer management relay
through a combination of lectures and a wide range of
practical lab assignments. The lab assignments will include the
creation of FlexLogic™ equations to control the 745’s contact
outputs in addition to the configuration and testing of 745
protective elements using simulation software and diagnostic tools
such as the waveform capture, event log and keypad.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, maintenance, testing and repair of GE Multilin protective
relaying equipment will benefit most from this course.
Prerequisites
An understanding of protective relaying and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
10
745
Agenda
Day 1
Basic transformer theory
Causes of transformer failures
Percent differential protection
element
Instantaneous differential
protection
Tap changers
Current transformer selection
Introduction to the GE Multilin
745 transformer management
relay
Specifications
Hardware overview, options
and ordering
Mechanical installation and
wiring
PC software installation lab
Establishing communication to
the relay
Loading and saving settings
files lab
745 setup
» System setup
» Digital inputs and outputs
Day 2
Fault simulation and
investigation tools such as the
waveform capture and event
log will be used to test the
following elements through the
simulation software
» Differential
» Phase overcurrent
» Under/overfrequency
» Overexcitation
Actual values
» Status and metering
» Event recorder and trending
and waveform capture
Introduction to FlexLogic™
» Gates: AND, NAND, OR,
NOR, XOR, NOT
FlexLogic™ Lab
» Virtual inputs
» Contact outputs and virtual
outputs
» FlexLogic™ Timers
» Load shedding
The 745 memory map and user
memory map
745 data communications
11
750/760
TRNG-750/760
SR Feeder Management Relay
What will I learn from this course?
The feeder management relay course provides a
thorough
understanding
of
the
installation,
configuration and maintenance of the 750 and 760 feeder
management relays. The class will cover 750/760
configuration using PC-based software. Class lab assignments
will have the student test the operation of common feeder
protective elements through simulation software. Diagnostic tools
such as waveform capture, event log, and the keypad will be used to
gain familiarity with their operation while validating correct settings
and relay operation.
Who should attend?
Plant electrical maintenance personnel who are responsible for the installation,
testing, maintenance, and repair of GE Multilin motor management relays will
benefit most from this course.
Prerequisites
An understanding of protective relaying and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
12
750/760
Agenda
Day 1
Introduction to power
generation and distribution
Grounding systems
Introduction to protective
relaying
Current transformer selection
750/760 model specific
hardware overview, options
and ordering information
Specifications
Mechanical installation and
wiring
750/760 PC program installation
» Establishing communication
to the relay
» Loading and saving settings
files lab exercise
Setpoints
» 750/760 relay setup
» System setup
» Logic inputs
» Output relays:
Trip circuit supervision
Day 2
Protection and fault simulation
lab exercises
» IOC
» TOC
» Voltage restraint
» Directional overcurrent
» Under/overvoltage
» Underfrequency
» Frequency decay
» Breaker Failure
Control
» Setpoint groups
» Synchrocheck
» Cold load pickup
» Undervoltage restoration
» Underfrequency
» Overview of the transfer
scheme
Actual data
» Status
» Metering
» Event recorder
» Waveform capture
» Data logger
» Active conditions
Additional lab exercises
» Keypad labs
» Firmware updates
Data communications overview
13
489
TRNG-489
SR Generator Management Relay
What will I learn from this course?
The course beings with an overview of basic
generator theory and the associated protection
requirements. Through a combination of lectures and
practical lab exercises the class will learn how to correctly
configure, monitor, and test the operation of the 489 generator
protective relay.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin motor
management relays will benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$600.00 US*
1 day
*For on-site pricing, see page 43.
GE Multilin
14
489
Agenda
Day 1
Generator theory
Generator protection elements
» Selection of overload curves
» Determination of overload
pickup
» Short circuit protection
» Ground fault and ground
fault detection methods:
zero sequence, neutral
overvoltage (fundamental)
and neutral undervoltage
(3rd harmonic) for 100%
stator protection
» Phase differential current
protection
» Single-phase protection
» Undervoltage protection
» Overvoltage protection
» Underfrequency
» Overfrequency
» Low forward power
» Reverse power
» Loss of excitation
» Backup distance
» Inadvertent energization
» VT failure
Class settings calculation
examples
489 model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC software installation lab
Setpoints
489 setup
» System setup
Output relays
Protection
» Current elements
» Voltage elements
» Power elements
Fault simulation labs dealing with
specific protection elements
» IOC
» Ground fault
» Differential fault
» Undervoltage
» Overvoltage
(Note that for all lab exercises the event log
and simulated waveform capture information
will be reviewed.)
Actual values
» Status and metering
Event recorder, waveform
capture and trending
Firmware updates
Data communications overview
15
DGP
TRNG-DGP
Generator Protection Relay
What will I learn from this course?
The course begins with an overview of basic
generator theory and the associated protection
requirements. Through a combination of lectures and
practical lab exercises the class will learn how to correctly
configure, monitor GE Multilin’s DGP.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin Digital
Generator Protection Relays will benefit most from this course.
Prerequisites
An understanding of protective relaying and associated electrical
control circuits
Knowledge of Windows® 95/NT/2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
16
DGP
Agenda
Day 1
Overview of DGP
» Modular design
» System overview
» Areas of application
Generator theory
» System overview
» Magnetism and electromagnetism
» Generator construction
» Formation of a rotating
magnetic field
» Grounding systems
Generator protective elements
» Stator differential
» 100% stator ground fault
protection (64G, 27 TN)
» TOC
» Voltage restraint
» Current unbalance
» Loss of excitation
» Overexcitation or V/Hz
» Reverse power
» Under/overfrequency
» Undervoltage
Day 2
Generator grounding
» Ground overcurrent
Additional protective elements
» Voltage transformer fuse
failure
» Accidental energization
» Sequential trip logic
DGP wiring
» CT/VT
» Inputs
» Outputs
DGP logic diagram
Monitoring
Trip circuit monitoring
Local MMI
DGP-LINK software connection
17
ALPS/LPS
TRNG-ALPS/LPS MAINT
Maintenance
What will I learn in this course?
This course will familiarize maintenance
staff with the correct procedures for
installing, testing, maintaining and troubleshooting the ALPS/LPS Relay through practical
hands-on lab exercises.
Who should attend?
This course is designed for maintenance staff responsible
for the installation, testing, maintenance and commissioning
of the ALPS/LPS Relays.
Prerequisites
An understanding of protective relaying and associated
electrical control circuits
Knowledge of Windows® 95/NT/2000 an asset
Tuition
$1,800.00 US*
Course Duration
3 days
Agenda
System overview
ALPS/LPS hardware overview
and configuration
Keypad operations
ALPS PC program
Xpression builder
Oscillography and event log
*For on-site pricing, see page 43.
Testing of the following
platform protection elements
» 21P, 21G, 67N, 50P, 50G, 51G
(optional 78, 79, 25, 59)
Using the playback function
Specifications, installation and
basic testing of RS232, RS485
with an emphasis on practical
hands-on lab exercises
GE Multilin
18
ALPS/LPS
TRNG-ALPS/LPS APPS
Applications
What will I learn in this course?
The protection engineer will gain an indepth understanding of the major
protective element algorithms for the
ALPS/LPS Relays through lectures from GE
Multilin’s design engineering staff. Application
issues and the review of oscillography and event
logs for specific faults will aid the class in evaluating
the performance of the ALPS/LPS.
Who should attend?
This course is designed for senior protection engineering staff
who are responsible for relay selection and overall network design.
Prerequisites
Basic knowledge in distance protection
Tuition
$1,800.00 US*
Course Duration
3 days
Agenda
Review of line protection
Distance and directional units
GE MHO unit
GE reactance unit
GE ground directional unit
Out-of-step unit
Auxiliary units
Pilot schemes
Auto recloser
*For on-site pricing, see page 43.
GE Multilin
19
PQM
TRNG-PQM
Power Quality Meter
What will I learn from this course?
This course provides a thorough understanding of
the PQM’s installation, configuration, operation, and
troubleshooting procedures. The class will cover basic
PQM configuration through both the keypad and PC based
software. Practical lab exercises will include the use of
configuration and diagnostic tools such as the waveform
capture utility.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin’s PQM and
protective relaying equipment will benefit most from this course.
Prerequisites
An understanding of protective relaying and associated electrical
control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$600.00 US*
1 day
*For on-site pricing, see page 43.
GE Multilin
20
Agenda
Day 1
Model specific hardware
overview, options and ordering
information
Specifications
Installation
» Mechanical
» Wiring
Data communication LANs
Faceplate indicators
Software installation
PQM configuration
» Event recorder
» Trace memory
System setup
» Phase voltage inputs
» Phase current inputs
» Data log
» Analog outputs
» Output relays
» Alarms/control
PQM
Using the PC based software the
students will review the following
menus:
Monitoring functions
» Current
» Voltage
» Phasors
» Power
» Frequency
» Demand
» Energy
» Power factor
» Power quality
» THD
» Data logger
» Event recorder
» Waveform capture
» Trace memory
» Harmonic analysis
Keypad exercises
Data communications overview
21
MOTR
TRNG-MOTR
Motor Management Relays
What will I learn from this course?
This course addresses the training requirements of
electrical maintenance staff responsible for 239, 269,
369 and 469 motor management relays. Through a
combination of lectures and practical lab exercises the
class will learn how to correctly configure, monitor, and
troubleshoot specific GE Multilin motor protection relays.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, and maintenance of many different models of GE
Multilin motor management relays will benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
22
MOTR
Agenda
»
»
»
»
»
»
Day 1
Introduction
Motor theory
Current transformer selection
Motor thermal modeling
Additional protective elements
» Short circuit protection
» Ground fault and ground
fault detection
» Phase differential current
protection
» Single phase protection
» Undervoltage protection
» Overvoltage protection
» Motor status detection
» Mechanical jam detection
» Loss of load detection
» Acceleration timer
» Starts per hour
» Time between starts
Class settings calculation
examples
Day 2
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC Software installation lab
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» Motor relay setup
» System setup
» Digital inputs and output
» Thermal model
Current elements
Motor starting
RTD temperature
Voltage elements
Power elements
Monitoring
Day 3
Fault simulation labs dealing
with specific protection
elements (excluding 269)
» Thermal overload and
emergency restart
» IOC
» Ground fault
» Mechanical jam and loss of
load
» Differential fault
» Single phasing
» Undervoltage/overvoltage
Note that for all lab exercises the event log
and simulated waveform capture information
will be reviewed.
Actual values
» Status, metering and
trending
» Event recorder and
waveform capture
Keypad labs
Firmware updates
Data communications overview
Basic AC motor theory
Motor thermal model
Installation
Configuration lab exercises
Fault simulation exercises
Maintenance and
troubleshooting
Data communications
overview
23
239
TRNG-239
Motor Management Relay
What will I learn from this course?
The 239 Motor Management course begins with a
review of basic terminology and motor theory. The
class then examines GE Multilin’s simple yet powerful
thermal model in detail including step-by-step guidance
through settings calculations using real world motor data.
Through a combination of lectures and practical lab exercises
the class will learn how to correctly configure, monitor, and
troubleshoot the 239.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin 239 relays will
benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
24
239
Agenda
Day 1
Introduction
Motor theory
Current transformer selection
Motor thermal modeling
Additional protective elements
» Short circuit protection
» Ground fault and ground
fault detection
» Single-phase protection
» Motor status detection
» Mechanical jam detection
» Loss of load detection
» Acceleration timer
» Starts per hour
» Time between starts
Class settings calculation
examples
Day 2
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC Software installation lab
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» 239 setup
» System setup
» Digital inputs and output
» Thermal model
» Current elements
» Motor starting
» RTD temperature
» Monitoring
Fault simulation labs dealing
with specific protection
elements
» Thermal overload and
emergency restart
» IOC
» Ground fault
» Mechanical jam and loss of
load
» Differential fault
» Single phasing
» Undervoltage
» Overvoltage
Note that for all lab exercises the event log
and simulated waveform capture information
will be reviewed.
Actual values
» Status, metering and
trending
» Event recorder and
waveform capture
Keypad labs
Firmware updates
Data communications overview
25
269
TRNG-269
Motor Management Relay
What will I learn from this course?
The 269 Motor Management course provides an
overview of motor theory and standard terminology.
Students are then taken through the GE Multilin thermal
model, including step-by-step guidance through settings
calculations using real world motor data. Using both lectures
and practical lab exercises the class will learn how to correctly
configure, monitor, and troubleshoot the 269.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin 269 relays will
benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
26
269
Agenda
Day 1
Introduction
Motor theory
Current transformer selection
Motor thermal modeling
Additional protective elements
» Short circuit protection
» Ground fault and ground
fault detection
» Phase differential current
protection
» Single-phase protection
» Motor status detection
» Mechanical jam detection
» Loss of load detection
» Acceleration timer
» Starts per hour
» Time between starts
Class settings calculation
examples
Day 2
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC software installation lab
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» 269 setup
» System setup
» Digital inputs and output
» Thermal model
» Current elements
» Motor starting
» RTD temperature
» Monitoring
Actual values
» Status, metering and
trending
» Event recorder and
waveform capture
Keypad labs
Firmware updates
Data communications overview
27
369
TRNG-369
Motor Management Relay
What will I learn from this course?
This course provides students with a comprehensive
overview of the 369 Motor Management relay. The
course begins by reviewing basic terminology and motor
theory. Students are then taken through GE Multilin’s
thermal model in detail including step-by-step guidance
through settings calculations using real world motor data.
Through a combination of lectures and practical lab exercises the
class will learn how to correctly configure, monitor, and
troubleshoot the 369.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin 369 relays will
benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits.
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
28
369
Agenda
Day 1
Introduction
Motor theory
Current transformer selection
Motor thermal modeling
Additional protective elements
» Short circuit protection
» Ground fault and ground
fault detection
» Phase differential current
protection
» Single phase protection
» Undervoltage protection
» Overvoltage protection
» Motor status detection
» Mechanical jam detection
» Loss of load detection
» Acceleration timer
» Starts per hour
» Time between starts
Class settings calculation
examples
Day 2
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC software installation lab
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» 369 setup
» System setup
» Digital inputs and output
» Thermal model
» Current elements
» Motor starting
» RTD temperature
» Voltage elements
» Power elements
» Monitoring
Fault simulation labs dealing
with specific protection
elements
» Thermal overload and
emergency restart
» IOC
» Ground fault
» Mechanical jam and loss of
load
» Differential fault
» Single phasing
» Undervoltage
» Overvoltage
Note that for all lab exercises the event log
and simulated waveform capture information
will be reviewed.
Actual values
» Status, metering and
trending
» Event recorder and
waveform capture
Keypad labs
Firmware updates
Data communications overview
29
469
TRNG-469
SR Motor Management Relay
What will I learn from this course?
The 469 Motor Management course takes students
through a review of basic terminology and motor
theory. The course then provides a walk through of GE
Multilin’s thermal model including step-by-step guidance
through settings calculations using real world motor data.
Through a combination of lectures and practical lab exercises
the class will learn how to correctly configure, monitor, and
troubleshoot the 469.
Who should attend?
Plant electrical maintenance personnel who are responsible for the
installation, testing, maintenance, and repair of GE Multilin 469 relays will
benefit most from this course.
Prerequisites
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,200.00 US*
2 days
*For on-site pricing, see page 43.
GE Multilin
30
469
Agenda
Day 1
Introduction
Motor theory
Current transformer selection
Motor thermal modeling
Additional protective elements
» Short circuit protection
» Ground fault and ground
fault detection
» Phase differential current
protection
» Single-phase protection
» Undervoltage protection
» Overvoltage protection
» Motor status detection
» Mechanical jam detection
» Loss of load detection
» Acceleration timer
» Starts per hour
» Time between starts
Class settings calculation
examples
Day 2
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
PC Software installation Lab
» Establishing communication
to the relay
» Loading and saving settings
files lab
Setpoints
» 469 setup
» System setup
» Digital inputs and output
» Thermal model
» Current elements
» Motor starting
» RTD temperature
» Voltage elements
» Power elements
» Monitoring
Fault simulation labs dealing
with specific protection
elements
» Thermal overload and
emergency restart
» IOC
» Ground fault
» Mechanical jam and loss of
load
» Differential fault
» Single phasing
» Undervoltage
» Overvoltage
Note that for all lab exercises the event log
and simulated waveform capture information
will be reviewed.
Actual values
» Status, metering and
trending
» Event recorder and
waveform capture
Keypad labs
Firmware updates
Data communications overview
31
SPM
TRNG-SPM
Synchronous Motor Protection
What will I learn from this course?
The GE Multilin SPM course is designed to be taken in
conjunction one of GE Multilin’s motor management
relay courses. In this course, students will learn how to
correctly configure, monitor, and troubleshoot the SPM relay.
Who should attend?
Plant electrical maintenance personnel who are responsible for
the installation, testing, maintenance, and repair of GE Multilin SPM
management relays will benefit most from this course.
Prerequisites
It is highly recommended that the student have attended a GE Multilin
Motor Management relay course
An understanding of protective relaying, and electrical control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$600.00 US*
1 day
*For on-site pricing, see page 43.
GE Multilin
32
SPM
Agenda
Day 1
SPM hardware overview
» Options
» Ordering
Model specific hardware
overview, options and ordering
details
Specifications
Mechanical installation and
wiring
SPM theory of operation
Ring-type synchronous motor
starting and synchronizing
Field current monitoring circuit
Timing
Reluctance torque
synchronization and pole slip
Starting protection
» Full voltage
» Reduced voltage
Field winding temp monitoring
Power factor correction
Brushless synchronous motor
review
Brushless synchronous motor
starting
33
UR
TRNG-URMAINT
Maintenance
What will I learn from this course?
This course is designed to familiarize maintenance
staff with the correct procedures to install, test,
maintain and troubleshoot the Universal Relay through
practical hands on lab exercises.
Who should attend?
This course is designed for maintenance staff responsible for the
installation, testing and maintenance of the Universal Relay.
Prerequisites
An understanding of protective relaying and associated electrical
control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
34
UR MAINT
Agenda
Day 1
System overview
Universal Relay hardware
overview
» Block diagram
» SCAN
» Specifications and hardware
configuration
» Trip and close voltage and
current monitoring
» Mechanical installation and
wiring
Options and ordering
Keypad operation lab exercises
Software
» Installation
» Creating a interface, device
and site
Settings
» Password security
» User programmable LED lab
» AC inputs:
current and voltage
» Power system
» Signal sources
» Breakers
» Curves and flex curves
» Digital input and outputs
» Commands
» Actual values
» Status and metering group
lab
Day 2
Introduction to FlexLogic™
» Gates: AND, NAND, OR,
NOR, NOT, XOR, LATCH,
positive edge triggered
one-shot, negative edge
triggered one-shot, dual
edge triggered one-shot
» FlexLogic™ lab
Oscillography and event log lab
Saving/loading settings files
Day 3
Protection and control
» Grouped elements
» Sources
» Operation and integration of
the following platform
protection elements
» Lab: Testing of phase IOC
(50)/phase TOC (51) and
voltage restraint
» Lab: Reclosing (79)
Where possible hands on lab exercises
involving protection elements will include
the injection of single-phase voltage and
current to simulate faults and students will
review event and oscillography records to
verify protective element operation.
Firmware updates
Specifications, installation and
basic testing of RS232, RS485,
10BaseT and 10BaseF data
communications LANs
Emphasis on practical hands on
lab exercises
35
UR
TRNG-URPLATFORM
Platform
What will I learn from this course?
The Universal Relay platform refers to
the hardware, protection, software and
communications features common to all UR family
members. The UR platform is the building block for
modern substation protection, control and data
communication solutions. This course provides a
systematic approach to the integration of control and
protection functions within the Universal Relay. The students
will review the UR’s specifications, hardware selection,
installation and wiring procedures in addition to participating in
hands on lab assignments to create and test protection and control
solutions for a feeder as an example application.
Who should attend?
This course is designed for protection engineering staff responsible for
substation design who require a detailed understanding of the Universal
Relay’s basic platform-wide protection and control capabilities.
Prerequisites
An understanding of protective relaying and associated electrical
control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
36
Agenda
Day 1
System overview
Universal Relay hardware
overview
» Block diagram
» SCAN
» UR modular concept
» Specifications and hardware
configuration
» Trip and close circuit voltage
and current monitoring
Mechanical installation and
wiring
Options and ordering
Software
» Installation
» Creating an interface, device
and site
Settings
» Password security
» Display properties
» Overview of communications
menu
» ModBus® user map
» Real time clock and IRIG-B
setup
» Overview of oscillography
setup
» Overview of data logger
setup
» User programmable LED lab
» FlexStates
» AC inputs
» Power system
» Signal sources
» Breakers
» FlexCurves
» Digital inputs and outputs
» Commands
Status and metering lab
UR PLATFORM
Day 2
Introduction to FlexLogic™
» Gates: AND, NAND, OR,
NOR, NOT, XOR, LATCH,
Positive edge triggered
one-shot, negative edge
triggered one-shot, dual
edge triggered one-shot
Breaker lab
» Setting groups
» Digital elements lab
» Timers lab
» Counters lab
» FlexElements
Oscillography and event log lab
Day 3
Protection and control
» Sources
» Operation and integration of
the following platform
protection elements
» Lab: Integration of phase
IOC (50) into protection and
control solution
» Lab: Integration of phase
directional IOC (67) into
protection and control
solution
» Lab: Integration of phase
TOC (51) into protection and
control solution
» Under/overfrequency (81)
» Lab: Operation of voltage
restraint
» Lab: Phase under and
overvoltage (27 and 59)
» Lab: Reclosing (79)
37
UR
TRNG-URDATA COMM
Data Communications
What will I learn from this course?
This course provides the student with a comprehensive understanding of the communication
architectures supported by the Universal Relay.
The student will study the terminology, electrical
specifications, installation and testing procedures for
RS232, RS485, 10 BaseT and 10 Base F communication LANs.
Communication protocols supported by the Universal Relay
such as DNP 3.0, ModBus® and UCA2.0 will be reviewed in detail
through lectures and practical hands on lab exercises.
Who should attend?
This course is designed for protection engineering staff responsible
for substation design who want to gain a better understanding of the
capabilities, installation, and testing procedures of data communication
LANs supported by the Universal Relay.
Prerequisites
The UR Platform course
An understanding of protective relaying and associated electrical
control circuits
Knowledge of Windows® 2000 an asset
Tuition
Course Duration
$1,800.00 US*
3 days
*For on-site pricing, see page 43.
GE Multilin
38
UR COMM
Agenda
Day 1
Review of UR platform course
UR data communication
options, interface specifications
and ordering information
Data communications
terminology
LAN access
» Master/slave
» Token ring
» Full duplex Ethernet
Point to point topology
– RS232 LANs
» Connections
» Voltage levels
» Point to point ModBus®
protocol
Bus topology – RS485
» ModBus® and ModBus®
user MAP
» FlexStates
» Custom ModBus® user map
lab exercise
» DNP 3.0
» UR DNP 3.0 implementation
table
» Custom DNP analog point
list
» Custom DNP digital points
list
» DNP lab exercise
Day 2
10BASET full duplex Ethernet
LAN topology
» Pin connections
» Point to point connection
» Switches
» The 5, 4, 3 rule
Fiber optic LAN networking and
Ethernet
» Distance limitations
» Power budgeting
» Physical specifications
» Multi mode
» Single mode
» Fiber optic LAN installation
and testing lab
UR redundant fiber optic
network configuration
» Introduction to UCA2.0
» Goose message
configuration and
performance testing
» Direct I/O
Day 3
Using the UR HMI software the
student will create operator
screens with the following
features and functionality
» Static text and graphics
» Importing bit maps
» Change screen,
» Analog signal
» Monitoring and gauges,
» Push buttons
» Standard and custom
indicator lamps
» Alarm panel
39
UR
TRNG-URAPPS
Advanced Applications
What will I learn from this course?
The protection engineer will gain an in-depth
understanding of the major protective element
algorithms for the B30, B90, T60, F60, G60, L90 and D60
Universal Relay family members through lectures from GE
Multilin’s design engineering staff. Application issues and the
review of oscillography and event logs for specific faults will
aid the class in evaluating the Universal Relay’s performance.
Who should attend?
This course is designed for senior protection engineering staff
responsible for relay selection and overall network design.
Prerequisites
UR Maintenance
Tuition
$3,000.00 US*
Course Duration
5 days
*Note: This course is not available as an on-site offering.
GE Multilin
40
UR APPS
Agenda
Day 1
Review of Universal Relay
» Hardware review
» FlexLogic™
» Basic protection elements
» Data communication
Bus protection (B30)
» Busbar protection problems
» Busbar protection techniques
» Digital low-impedance
busbar relays
» B30 protection features
» B30 theory of operation
» B30 dynamic bus replica
» Isolators
» Tie-breakers
» Breakers
» End fault protection
» CT trouble conditions
» Check zone
» Setting rules for the 87B
function
» B30 modeling (PC) program
» Summary
Day 2
Bus protection continuation (B90)
» B90 capacity
» B90 features and benefits
» B90 applications
» B90 architecture
» B90 wiring
» B90 protection and logic IEDs
» Schemes for large buses
» B90 communications and
security
» Typical application example
» B90 configuration program
» B90 application to
ungrounded and lightly
grounded systems
» Breaker failure
» Distance recording
» Sequence of events
UR transformer protection
(T35 and T60)
» Protection elements, control
elements, metering
» Wiring and setup
» Phase and magnitude
compensations
» Percent differential
characteristic and settings
» Instantaneous differential
protection
» Restricted ground fault
protection
» Over-excitation protection
» Benefits of source
configuration
» Connection diagrams
Day 3
Advanced feeder protection
and Hi Z
» Bus transfer scheme
» FlexElements and application
examples
» Hi Z
UR line current differential
protection (L90)
» Introduction
» Features
» L90 installation
» Current differential theory of
operation
» Disturbance detector
» 87L trip logic
» Distance backup
41
UR APPS
Agenda
Day 4
UR line current differential
protection continuation
» Syncrocheck
» Auto reclosure
» Line pickup
» Direct I/O
» Breaker failure for single and
three pole operated CBs
» Stub bus protection
» Open pole detection
UR generator protection (G60)
» Stator differential
» Stator ground
» Loss of excitation
» System backup
» Sensitive directional power
UR distance protection
(D30/D60)
» Basic features
» TRIP OUTPUT (trip bus)
» Memory polarization
circuits
» Distance zones –
comparators
42
Day 5
UR distance protection
(D30/D60) continued
» Distance zones – logic
» Settings
» Teleprotection schemes:
DUTT, PUTT, POTT, HYB
POTT, BLOCKING SCHEME
» Ground directional
elements
» Load encroachment
» Out-of-step tripping and
power swing blocking
» VT fuse fail
» Single-pole tripping
» Application on series
compensated lines
ADDITIONAL COURSES
On-site Courses
Virtually any course listed in this catalog can be
delivered at a customer site. On-site courses are a costeffective way to train larger groups of students while
minimizing travel and living expenses.
The fee for all customer-site courses is $3,600 US per course
day (three-day minimum) for up to six students. Additional
students are charged $300 per course day. Travel and living
expenses for the GE Multilin instructor will also be charged for all
courses delivered at a customer site.
Custom Courses
Many of the courses delivered by the Training Center are modular in nature.
This allows GE Multilin customers to create custom courses by combining
learning modules. Customized courses provide an individualized training
experience that delivers results effectively and affordably.
Course modules can be combined in virtually any order and delivered either at
the Markham, Ontario based Training Center or at a customer site. There is a
three-day minimum for all custom courses. To discuss the creation of a custom
course, contact the GE Multilin Advanced Training Center at 905-201-2152 or
training.multilin@indsys.ge.com.
GE Multilin
43
INTRODUCTION TO THE
UNIVERSAL RELAY
TRNG-URACD
Interactive Learning CD
Introduction to the UR
The Introduction to the Universal Relay Interactive
Learning CD provides a cost effective means to learn
about the UR family of products for users who cannot
attend the in-person training course. The CD uses cuttingedge multimedia graphics and animation to bring course
content to life through interactive tutorials, quizzes and labs.
The CD also allows student to review in-class course material and
lab exercises as often as they choose and serves as an engaging
companion to the product manual.
The CD leverages the contributions of GE Multilin's most senior
engineering and technical staff and features modules on Hardware,
Software, Protection FlexLogic™ and Communication. Each learning
section includes instruction from a qualified expert, along with 3-D
renderings of equipment, logic and wiring diagram exercises. Interactive
testing encompasses everything from multiple choice and fill-in-the-blank
quizzes to hands-on problem solving exercises such as creating a network.
For the latest pricing and availability information on Interactive Learning
CDs, go to http://www.GEindustrial.com/Multilin/training
GE Multilin
44
MOTOR PROTECTION
TRNG-MOTCD
WITH THE 469
Interactive Learning CD
Motor Protection With the 469
The Motor Protection with the 469 Interactive
Learning CD leverages General Electric’s one hundred
plus years of industry experience to deliver a
comprehensive course focusing on the theory and practice
of motor protection. The content on this CD features a strong
academic component that gives the user a solid understanding
of industry terminology and concepts such as basic motor theory
and motor thermo-modeling. The CD also features detailed
illustrations of how calculations of settings for real-world motor
applications are applied in GE Multilin’s motor protection relay
products. The content is delivered using state of the art graphics,
multimedia and animation to make complex concepts easy to understand.
Interactive lab sessions and tests complete the educational experience by
giving users an opportunity to put their newly acquired knowledge to work
in real-world applications.
For the latest pricing and availability information on Interactive Learning
CDs, go to http://www.GEindustrial.com/Multilin/training
GE Multilin
45
32425-GE training BRO-49920
1/6/03
11:32 AM
Page 46
COURSE LOGISTICS
Class Logistics
All classes run from 8:30 am to
4:30 pm. Tuition fees include all course
manuals. Students are responsible for all
travel and living expenses and arrangements.
Course Cancellation
GE Multilin reserves the right to cancel a course due
to under-enrollment. In the event of a course
cancellation, GE Multilin will notify the students as soon as
possible. Students must notify the Training Centre of
cancellation two weeks prior to the course date for full refund.
Students are advised to purchase refundable airline tickets.
Online Course Registration
Register for Markham courses through the GE Multilin Online Store.
Registered students have access to training records and certificates,
registration, schedules, maps, course brochures and more. Visit
www.GEindustrial.com/Multilin/training
Registration Information
Course Registrar
Tel: (905) 201-2152 Fax: (905) 201-2098
Email: training.multilin@indsys.ge.com
Website: www.GEindustrial.com/Multilin/trainingMarkham Location Map
GE Multilin
32425-GE training BRO-49920
1/6/03
11:33 AM
COURSE LOGISTICS
Training Schedule
Course
Jan/03
Page 47
Feb/03
Mar/03
Apr/03
May/03
2-6
Advanced UR
Applications
Universal Relay Data
Communications
Universal Relay
Platform
13-15
31-2
8-10
26-28
Distribution
Management Relay
4-6
Fundamentals
of Modern
Protective Relaying
17-19
21-23
26-28
Motor
Management Relays
21-23
10-12
Nov/03
Dec/03
4-6
(Atlanta)
Introduction to
Electromechanical
Relays
F650 Platform
Course
Jun/03
Jul/03
Aug/03
11-13
8-10
Sep/03
Oct/03
Advanced UR
Applications
22-26
8-12
Universal Relay Data
Communications
16-18
2-4
Universal Relay
Platform
9-11
9-11
28-30
Distribution
Management Relays
Fundamentals
of Modern
Protective Relaying
Motor
Management Relays
24-26
19-21
3-5
21-23
4-6
(Atlanta)
Introduction to
Electromechanical
Relays
F650 Platform
7-9
Training dates subject to change without notice.
For our latest schedule, please visit www.GEindustrial.com/Multilin/training
GE Multilin Advanced Training Centre
Markham Location Map
401 route (90 min, 8-10am, 4-7pm)
407 route (25 min)*
1. Exit airport – Follow green signs for
HWY #401 east.
2. Exit HWY #401 at HWY #404, take
northbound #404.
3. Continue north to Major Mackenzie Rd.
4. Turn right on Major Mackenzie
(eastbound).
5. When you reach HWY #48
(Markham Rd.) turn right.
6. Proceed 500 meters to Anderson Ave.
and turn left.
7. Follow road to GE Power
Management and visitor parking.
1. Exit airport – Follow blue signs for
access to HWY #407 east.
2. Exit HWY #407 at HWY #48
(Markham Rd.).
3. Travel north to Anderson Ave.,
turn right.
4. Proceed to 215 Anderson Ave.
located on the northeast bend.
Suggested Accommodations
Ground Transportation
RADISSON HOTEL
50 East Valhalla Dr. at Hwy #7
Tel: (905) 477-2010 Fax: (905) 477-2026
MARKVILLE LIMOUSINE
Tel: (416) 299-7577 Fax: (416) 299-1228
HILTON SUITES HOTEL
8500 Warden Ave. at Hwy #7
Tel: (905) 470-8500 Fax: (905) 477-8611
48
*The #407 highway is an electronic toll highway.
LA LIMOUSINE
Tel: (905) 640-9030 Fax: (905) 948-1011
GE Multilin
Advanced Training Center
GE Multilin
215 Anderson Avenue
Markham, Ontario, Canada L6E 1B3
Tel: (905) 201-2152 Fax: (905) 201-2098
Email: training.multilin@indsys.ge.com
Website: www.GEindustrial.com/Multilin/training
CONTACT US
GE Multilin
215 Anderson Avenue
Markham, Ontario, Canada L6E 1B3
Tel: (905) 201-2152 Fax: (905) 201-2098
Email: training.multilin@indsys.ge.com
Website: www.GEindustrial.com/Multilin/training
GE Multilin
Power Management
Lentronics