manufacturer
for top-quality, reliable service.
? 18-month limited warranty on entire drive
? Repairs based on the original factory designs
? Automatic replacement of components with high failure rate,
regardless of condition
? GE engineering support
? Factory-developed testing procedures and fixtures
? Diagnostic test equipment certified to national standards
? Automated test equipment ensures consistent,
high-quality service
? On-site installation and start-up services available
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Drive Services
Features & Benefits Repair & Return Remanufacturing Services Remanufactured Units
Warranty
Limited 18-Month Warranty – Entire Drive ?? ?
Delivery
Immediate Shipment (Based on Availability) ?
10-Day Cycle
Emergency Services Available ?
20-Day Cycle
Emergency Services Available ?
Proactive Replacement of Parts
Glass-Bead Diodes, Electrolytic Capacitors ?? ?
Cabling/Wire Harness ? ?
SCRs, Fuses ? ?
Complete Disassembly, Cleaning, Repainting ? ?
Flat Rate Pricing, Including Parts and Labor ?? ?
Testing with Factory Approved Procedures ?? ?
To learn more about this offering, contact your GE Energy sales
representative or visit gepower.com
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Start-up & Commissioning Services
Overview
GE Energy’s Start-up & Commissioning Services provide the people
and knowledge to complete the job right and on schedule.
Proper start-up and commissioning of power distribution and
control equipment is vital to the long-term health of an electrical
system. Improper installation and commissioning are the leading
causes of premature failures. With GE Energy’s Start-up &
Commissioning Services, you can be assured that your equipment
has been installed properly and meets the factory standards for
operation. Why trust your equipment with anyone other than GE?
Features and Benefits
Proven Experience
? Minimized early-term failures and lower total cost of ownership
? As the original equipment manufacturer, GE is uniquely
positioned to address any concerns or issues that arise
? GE Energy’s service engineers have “hands on” experience with
commissioned equipment, as well as access to GE and TM GE
design engineers at the manufacturing facility
Six Sigma Quality
? Start-up personnel use standard practices, developed through
Six Sigma processes, to ensure consistent quality across all
product lines
? Test procedures performed according to factory specifications
ensure optimal equipment performance, across all designed
operating ranges
? Comprehensive, accurate testing, analysis and troubleshooting
via innovative test equipment
Simple, Convenient Interface
? Single-source provider for start-up and commissioning
of GE equipment
EHS Commitment
? GE’s commitment to Environmental Health & Safety is
proven by the outstanding safety performance of our field
service organization
Single-Source Provider for the Start-Up
and Commissioning of Your GE Equipment
GE Energy’s Start-up & Commissioning Services include a series
of checks and tests performed on new equipment to ensure
proper installation and functionality. The specific tasks vary by
product line to ensure that all equipment conforms to GE and TM
GE factory standards. Optional services can include verifying
interaction with auxiliary systems prior to energization.
GE Energy can provide quality products, strong project
management capabilities, broad service offerings and a
history of recognized success in power, automation, and
drives and control systems.
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Start-up & Commissioning Services
Equipment Serviced
Power Delivery*
? Transformers – Dry Type
? Transformers – Liquid Filled
? Medium Voltage Switches
? Medium Voltage Vacuum Circuit Breakers
? Medium Voltage Starters
? Switchgear
? Low Voltage Circuit Breakers
? Switchboards
? Automatic Transfer Switches
? Relays and Meters
? Motor Control Centers
Drives and Controls
? DC 2000
? Innovation Series? Drive Systems
? Dura-Bilt 5i MV
? TMdrive-10?
? TMdrive-70?
? TMdrive-DC?
? AF-300?
? AV/DV-300?
Local Presence Backed by the
Power of a Global GE Organization
With over 1,300 service engineers and technicians globally, GE is
uniquely positioned to provide you with the knowledge, experience,
and skills for the full range of your industrial service needs.
From system design to maintenance and outage support, GE has
the resources and capabilities to assure that you are maximizing
your equipment's performance and reliability.
For more information, please visit www.gepower.com or call us at
1-888-GE4-Serv or 540-378-3280.
* An additional 12 months of standard warranty is provided free of charge, when GE provides
start-up & commissioning of GE power delivery equipment.
Innovation Series is a trademark of General Electric Company, USA TMdrive-10 is a trademark of
TMEIC Corporation. TMdrive-70 is a trademark of TMEIC Corporation. TMdrive-DC is a trademark of
TMEIC Corporation. AF-300 is a trademark of GE Fuji Drives USA, Inc. AV-300 and DV-300 are trademarks
of General Electric Company, USA.
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Power Systems Studies
Overview
A well-designed power system is the backbone of all industrial
and utility facilities. A GE power system study provides customers
with the information necessary to upgrade and maintain their
power delivery infrastructure. The results focus on reducing
operating costs, improving efficiency, increasing reliability and
improving system maintainability. Our engineering experts
specialize in:
? Utility
? Oil & Gas
? Automotive
? Chemical
? Metals
? Cement
? Pulp & Paper
? Commercial
Industry Expertise
Power systems engineering is one of the oldest and most fundamental
services provided by GE. Our power system engineers
have unprecedented expertise gained from over 100 years of
working with a wide range of customers and utilizing pioneering
techniques.
GE engineers have direct access to GE product design teams
who maintain expertise in the intricate details of power system
equipment.
Delivering Value
? Increase operating reliability
? Evaluate impact of adding new equipment
? Reduce operating costs
? Optimize system upgrades
? Identify source of failures
Systems Studies Offered
Short Circuit Study
Your country’s electric code may require that all short circuit
interrupting devices have capabilities beyond the ratings imposed
by the power system. GE Energy’s short circuit study can provide
information to help determine if the interrupting capacities of the
power system’s components provide adequate protection. The
short circuit study calculates the short circuit capacity at designated
locations within the power delivery infrastructure. This data
may also be utilized to select equipment ratings and may serve
as the basis for a protective device coordination study and an
arc-flash hazard analysis.
Load Flow and Power Factor Study
Utilizing proven mathematical models, GE’s load flow study
determines how the electrical system will perform during normal
and emergency operating conditions, providing the information
needed to:
? Optimize circuit usage
? Develop practical voltage profiles
? Minimize kW and kVar losses
? Develop equipment specification guidelines
? Identify transformer tap settings
Additionally, the power factor study calculates the reactive load
compensation required to achieve and sustain a given reactive
voltage level and to maintain a specific power factor.
Consider GE’s load flow study for the following:
? Facilitating conceptual design
? Identifying corrective actions when components are
overloaded or voltage performance is inadequate
? Determining the power factor correction to increase system
capacity and lower utility bills
? Determining the operational impact of potential contingencies
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Power Systems Studies
Arc-Flash Hazard Analysis
GE's comprehensive arc-flash hazard analysis is designed to
help ensure employee safety against dangers associated with
the release of energy caused by an electrical arc. Key elements
of an arc-flash hazard analysis are:
? Determining the required level of personal protective
equipment (PPE)
? Communicating PPE and safe approach distances to
exposed energized equipment through an effective warning
label system
Protective Device Coordination Study
You can help ensure ongoing, reliable operation during a fault
by periodically evaluating the protective devices in your power
system. The goal of a protective device coordination study is to
assure the system is capable of clearing a fault in the minimum
amount of time possible, while minimizing the impact to the
power system. A protective device coordination study also may
include recommendations for revisions of the types of protective
devices for improved protection.
Harmonic Analysis
Harmonic analysis has become more important due to the
application of AC & DC adjustable speed drives, converters
and other equipment that produce harmonic distortions. These
non-linear loads generate harmonic currents that interact with
system impedances. These interactions may result in equipment
malfunction and/or damage to the power system.
A GE harmonic study analyzes the system and recommends
corrective measures, which include the design of filters or traps
to absorb harmonic currents generated by non-linear loads.
Conceptual Design Study
The purpose of a conceptual design study is to develop a
roadmap for building and maintaining an optimum power system
that serves present and future plant operating needs. Conceptual
design studies often include a comprehensive review of the existing
system with a clear understanding of future requirements.
A key component of a conceptual design study is the ability of
the engineer to understand existing conditions, future needs and
equipment and system capabilities. A combination of load flow,
motor starting, short circuit, protective device coordination and
stability study techniques will be employed to complete the
design study.
Motor Starting Study
The motor starting study analyzes the motor, the motor load and
the connected power system through the range of operation.
Recommendations on motor starting methods are provided.
Impact Load Study
An impact load study can model the system to determine
whether the impact load may be added to the existing system
without causing detrimental operating effects due to voltage
and frequency fluctuations.
Power System Automation Study
As an extension of a conceptual design, protective device
coordination, and load and power factor studies, the power
system automation study focuses on developing solutions
to operating issues in existing or planned power systems.
It recommends electronic and control technologies that
provide productivity enhancing solutions.
Diagnostic Study
A diagnostic study provides an engineering review to determine
the root cause of power system failure. The power systems
studies GE Energy offers are tailored to meet the needs of the
individual facility and customer. Each study involves the collection
of data and information. GE employs the most advanced tools,
processes and procedures to obtain information. The end result
is a formal, comprehensive report outlining study findings and
recommended actions.
For more information, contact your local GE Energy office or call
1-888-GE4-Serv or 540-378-3280.
?2006, General Electric Company. All rights reserved. The contents of this document are the
property of General Electric Company. No part of this work may be reproduced or transmitted in
any form or by any means, except as permitted in written license agreement with General Electric
Company. General Electric Company has made every reasonable attempt to ensure the completeness
and accuracy of this document. However, the information contained in this document is
subject to change without notice, and does not represent a commitment on the part of General
Electric Company. The GE logo is a registered trademark of General Electric Company.
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Arc-Flash Hazard Study
Addressing NFPA 70E, Standard
for Electrical Safety in the Workplace
Helping Secure Employee Safety
GE's comprehensive arc-flash hazard study, designed to assist in
addressing the recommendations of the National Fire Protection
Association’s (NFPA) Standard 70E, helps ensure employee safety
against dangers associated with the release of energy caused
by an electrical arc. Key elements of an arc-flash hazard safety
program are:
? Calculating the NFPA-based level of personal protective
equipment (PPE)
? Communicating PPE and approach distance from a
prospective arc source through a warning label system
Mitigating Arc-Flash Hazard Risk
In addition to risking employee safety, failure to address NFPA
70E can lead to significant financial loss through extended
litigation, increased insurance costs and regulatory fines. OSHA
has cited several companies under the General Duty Clause.
You can help mitigate this risk with a comprehensive arc-flash
hazard study by GE Energy.
Equipped with Experience
With over 100 years experience in analyzing power systems,
GE has plant knowledge that supports the detection of arc-flash
hazards throughout your systems. GE employs only proven data
collection methods, detailed calculations and thorough softwarebased
analysis to identify the calculated incident energy and
NFPA-based PPE for each potential hazard.
Excessive PPE can itself be a safety hazard. To help calculate the
precise NFPA-based PPE category, GE recommends concurrently
conducting short circuit and protective device coordination studies.
This approach enables a more comprehensive analysis than
using the existing protective device settings and short circuit
data. Using a single source experienced in performing all three
studies helps to ensure consistency in results, identify compound
hazards and limit duplication.
Detailed Labeling
Constructing detailed and
durable warning labels is
critical to fulfilling the
National Electrical Code's
requirement for field marking
potential arc-flash hazards.
GE's robust labels
include both the arc-flash
hazard and shock hazard
boundaries as well as the
appropriate combined level of PPE.
Arc-Flash Hazard Analysis employs industry standard practices:
? Electric Arc Hazard Exposure (OSHA 29 CFR 1910.269)
? Flash and Shock Hazard Analysis [NFPA 70E-2009, 110.8(B)(1)]
? Personal Protective Clothing and Equipment for Arc-Flash
Hazards [NFPA 70E-2009, 130.3(B); Table 130.7(C)(11)]
? Prescribed Equations for Incident Energy and Arc-Flash
Boundary Calculations (IEEE Std. 1584-2002: and 1584a-2004)
? Field Marking of Arc-Flash Hazards [NFPA 70-2008, 110.16;
NFPA 70E-2009, 130.3(C)]
? Work Permits to Work on Energized Parts [NFPA 70E-2009,
110.8(B)(2)]
Benefits Include:
? Improves employee safety against electrical arcs
? Calculates incident energy levels and IEEE-based flash
protection boundary
? Addresses arc-flash issues within NFPA 70E
? Provides required field marking through detailed warning
labels to communicate:
— NFPA-based PPE class
— IEEE-based safe approach distances
Achieving Results
Results of GE's arc-flash hazard study provide the calculated
IEEE-based incident energy and arc-flash protection boundary
with the corresponding NFPA-based PPE class for each system
location. Warning labels and work permits can be created using
these results. The various safe approach boundaries are
described in NFPA 70E2
:
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Arc-Flash Hazard Study
Flash Protection
Boundary
An approach limit,
at a distance from
an exposed live
part, within which
a person could
receive a seconddegree
burn if an
electrical arc-flash
were to occur.
Shock Protection Boundaries:
Limited Approach Boundary
An approach limit at a distance from an exposed live part
within which a shock hazard exists.
Restricted Approach Boundary
An approach limit at a distance from an exposed live part within
which there is an increased risk of shock, due to electrical arc
over combined with inadvertent movement, for personnel
working in close proximity to the live part.
Prohibited Approach Boundary
An approach limit at a distance from an exposed live part within
which work is considered the same as making contact with
the live part.
Required Clothing Class
In accordance with NFPA 70E guidelines, the calculated incident
energy provided by GE's arc-flash hazard study, will identify the
appropriate PPE class for each system location, through the use
of the following NFPA 70E table.
From NFPA 70E 2009 Edition
Note: Arc rating is defined in Article 100 and can be either ATPV or EBT. ATPV is defined in
ASTM F 1959, Standard Test Method for Determining the Arc Thermal Performance Value
of Materials for Clothing, as the incident energy on a material or a multilayer system of
materials that results in a 50% probability that sufficient heat transfer through the tested
specimen is predicted to cause the onset of a second-degree skin burn injury based on the
Stoll curve, cal/cm2. EBT is defined in ASTM F 1959 as the incident energy on a material or
material system that results in a 50% probability of breakopen. Arc rating is reported as
either ATPV or EBT, whichever is the lower value.
Accurate Results
For consistency of results, limited
duplication and lower overall PPE
recommendations, GE recommends
that the short-circuit and
coordination studies be completed
concurrently with the arc-flash
hazard study:
? Short Circuit Study – Calculates
three-phase bolted faults
? Protective Device Coordination
Study – Uses equipment
settings to determine devices'
opening times
For more information, contact your local GE Energy office or call 1-888-GE4-Serv or 540-378-3280.
?2009, General Electric Company. All rights reserved. The contents of this document are the property of General Electric Company. No part of this work may be reproduced or transmitted in any form or by any means, except
as permitted in written license agreement with General Electric Company. General Electric Company has made every reasonable attempt to ensure the completeness and accuracy of this document. However, the information
contained in this document is subject to change without notice, and does not represent a commitment on the part of General Electric Company. The GE logo is a registered trademark of General Electric Company.
1) Reprinted with permission from 2008 National Electrical Code? Handbook, Copyright ?2007, National Fire Protection Association, Quincy, MA 02269.
2) Reprinted with permission from NFPA 70E, Standard for Electrical Safety In the Workplace 2009 Edition, Copyright ? 2008, National Fire Protection Association, Quincy, MA 02269. National Electric Code and
NEC are registered trademarks of the National Fire Protection Association, Quincy, MA.
This reprinted material is not the complete and official position of the NFPA on the referenced subject, which is represented only by the standard in its entirety.
TABLE 130.7(C)(11) Protective Clothing Characteristics
Required Min Arc
Hazard/Risk Rating of PPE
Category Clothing Description [J/cm2 (cal/cm2)]
0 Nonmelting, flammable materials (i.e., N/A
untreated cotton, wool, rayon, or silk, or
blends of these materials) with a fabric
weight at least 4.5 oz/yd2
1 Arc-rated FR shirt and FR pants or 16.74 (4)
FR coverall
2 Arc-rated FR shirt and FR pants 33.47 (8)
or FR coverall
3 Arc-rated FR shirt and pants or 104.6 (25)
FR coverall, and arc flash suit selected
so that the system arc rating meets the
required minimum
4 Arc-rated FR shirt and pants or 167.36 (40)
FR coverall, and arc flash suit selected
so that the system arc rating meets the
required minimum
NEC Handbook Exhibit 110.7
Electrical worker clothed in
personal protective equipment
(PPE) appropriate for the hazard
involved1
.
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Customer Training
Drives and Controls
AC/DC2000 Drive Hardware
Recommended Duration: 3 Days
This course is designed for maintenance personnel who configure
and maintain the AC/DC2000 drive. Topics include drive application,
drive power components, circuit cards and their descriptive
operation, elementaries, SCR, IGBT and related information. The
keypad operation will be covered extensively as a means of
troubleshooting and interrogating the drive. The Control System
Toolbox software is not necessary in this course and will not
be taught.
Prerequisite: Electrical experience/education
AF-300E?, AF-300 G11? and AF-300 P11?
Recommended Duration: 2 Days
This course is for original equipment manufacturers and end
users who need to implement basic drive configuration and the
drive start-up procedures. Topics include keypad programming,
hardware overview, applications, startup and troubleshooting.
Prerequisite: None
AC/DC2000 Drive Software Tools
Recommended Duration: 4 1/2 Days
This course is designed for maintenance and engineering personnel
to understand how to use the features of the Control System
Toolbox running under the Windows system, which applies to
the AC/DC2000 drive in order to operate, maintain and trouble -
shoot the drive. Topics include AC/DC2000 overview, AC/DC2000
hardware, terminology, block diagram, I/O programming, serial
monitor commands, trending and circular lists.
Prerequisite: Electrical experience/education and familiarity
with Windows?
AV-300?, AV-300i? and DV-300? Drives
Recommended Duration: 4 Days
This course is designed for engineering and maintenance personnel
who configure, setup, install and maintain the AV and DV
drive. Topics include motor theory, drive power components, configuration
and keypad operation. The drive software to set up,
tune and maintain the drive will also be presented.
Prerequisite: Electrical experience/education and familiarity
with Windows?
DC-300? Adjustable Speed Drive
Recommended Duration: 3 1/2 Days This course is designed
for engineering and maintenance personnel who install, tune-up,
maintain and troubleshoot the DC-300 Drive. Topics include DC
motor theory, drive power components, keypad operation, interface
signals, feedback calibration, tune-up and troubleshooting.
Assignments include component identification, operation, calibration
and tune-up.
Prerequisite: Electrical experience/education
DC Innovation Series Drive
Recommended Duration: 3 1/2 Days
This course is designed for maintenance personnel who configure,
maintain and troubleshoot the DC Innovation drives. Topics
include retrofit modifications, I/O configuration, signal interface,
drive circuit cards and their descriptive operation. The keypad
operation will be covered as a means of troubleshooting and
interrogating the drive. The Control System Toolbox software
will also be covered.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Dura-Bilt 5i MV? Drive
Recommended Duration: 3 1/2 Days
This course is designed for engineering and maintenance
personnel who configure, set up, install and maintain the
Dura-Bilt 5i medium voltage drive. Topics include AC motor
theory, power components, configuration and keypad operation.
The Control System Toolbox software will be used to set up and
maintain the drive. Assignments include hardware identification,
programming I/O and working with the regulator patterns.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Innovation Series? Controller
Recommended Duration: 4 1/2 Days
This course is for engineering and maintenance personnel who
are responsible for configuring, maintaining or troubleshooting
a system that includes the Innovation Series Controller with or
without the operator's console. Through a series of lectures the
student will learn to use the many functions and features of
the controller, including software changes, I/O modifications using
Genius? blocks, trending, diagnostics and troubleshooting techniques
using the Control System Toolbox. The student will feel
confident in using these tools for monitoring and diagnosing of
a system. Choose this course to learn the basics of the Innovation
Series Controller (UC2000).
Prerequisite: Electrical experience/education and familiarity
with Windows?
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Customer Training
Drives and Controls
Innovation Series Low Voltage Drive
Recommended Duration: 3 1/2 Days
This course is designed for engineering and maintenance personnel
who configure, set up, install and maintain the low voltage
AC drive. Topics include AC motor theory, drive power components
configuration and keypad operation. The Control System
Toolbox software used to set up, tune and maintain the drive will
also be presented. Laboratory assignments include hardware
identification, programming I/O, startup wizards and changing
the regulator patterns via keypad and Control System Toolbox.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Innovation Series Low Voltage Drive System
Recommended Duration: 4 1/2 days
This is a system level course for engineering and maintenance
personnel who are responsible for configuring, maintaining or
troubleshooting a system that includes the Innovation Series
Controller and Low Voltage Innovation drives. This is a practical
“how to” course on the essentials developed for Innovation Series
Drive Systems.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Innovation Series Medium Voltage Drive Type GP
Recommended Duration: 3 Days
This course is designed for engineering and maintenance personnel
who configure, set up, install and maintain the AC drive.
Topics include AC motor theory, drive power components (IGBT),
configuration and keypad operation. The Control System Toolbox
software will be used to set up, tune and maintain the drive.
Assignments will include hardware identification, programming
I/O, start-up wizards (fiber-optic, cell test, etc.) and changing the
regulator patterns via the keypad and Control System Toolbox.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Innovation Series Medium Voltage Drive Type SP
Recommended Duration: 4 Days
The course is designed for engineering and maintenance personnel
who configure, set up, install, and maintain AC drives.
Assignments will include hardware identification, programming
I/O, startup wizards (fiber-optic, cell test, etc.) and changing the
regulator patterns via Keypad and Control System Toolbox. At the
completion of this course, students will be familiar with the following:
Hardware Configuration of the Drive (VME Rack with circuit
cards), Liquid Cooling Operation, Source and Inverter Bridges
(Power Conversion Theory), DDI (Keypad), Bus Charging Sequence,
Fault Retrieval and Diagnostic, Maintenance and Troubleshooting,
Control System Toolbox, Utilizing the Drives Pattern, including:
a. Trend Recorder (Real Time Trending); b. Capture Buffer
(Background Trending).
Prerequisite: Electrical experience/education and familiarity
with Windows?
LCI Drives (Innovation Series)
for Fan, Pump and Compressor Applications
Recommended Duration: 3 Days
This course is designed for engineering and maintenance personnel
who configure, set up, install and maintain the LCI drive.
Topics include synchronous AC motor theory, drive power components
(SCR, line filters and snubbers) and the water-cooled system.
The AFE Datapanel/90-30 and/or VersaMax? configuration
will be used and Innovation Series controller interfacing components
will be discussed. The HyperTerminal? monitor mode to set
up, tune and maintain the drive will also be presented.
Assignments include hardware identification, programming
DACs and circular list.
Prerequisite: Electrical experience/education and familiarity
with Windows?
LCI Second Generation (pre-1997: has door-mounted printer)
Recommended Duration: 3 Days
This course is designed for engineering and maintenance personnel
who configure, set up, install and maintain the LCI drive.
Topics include synchronous AC motor theory, drive power components
(SCR, line filters and snubbers), the water-cooled system
and door-mounted printer operation. The monitor modes to set
up, tune and maintain the drive will also be presented.
Assignments include hardware identification, programming DACs
and circular list.
Prerequisite: Electrical experience/education
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Customer Training
Drives and Controls
LEOPACK?-DC Drive
Recommended Duration: 4 Days
This course is designed for engineering and maintenance personnel
who configure, set up, install and maintain the LEOPAK - Wi.
Assignments include hardware identification, programming I/O
and working with the regulator patterns. At the completion of this
course, students will be familiar with the following: Power
Conversion Theory, DC Motor Theory, Keypad Operation, Reading
Elementary Diagrams (Toshiba Format), Drive Hardware Overview,
Toshiba WW Tool –1. Communications; 2. Up/Dnloading Files; 3.
Assigning D/A Ports; 4. Trace Back Feature; 5. Regulator
Diagrams; 6. Tune-up of Drive.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Programmable Controls Series 90-70 and 90-30
Recommended Duration: 4 1/2 Days
This course is for engineers and electricians responsible for maintaining
Series 90-70 and/or Series 90-30 controls. Topics include
90-70 and 90-30 hardware overview, comparisons between 90-
70 and 90-30, ladder logic programming, troubleshooting and
diagnostics.
Prerequisite: Familiarity with relay logic
TM Drive-10
Recommended Duration: 4 Days
This course is designed for engineering and maintenance personnel
who configure, and maintain the Toshiba 250 Wi, TM-P10
source and inverter. Assignments include hardware identification,
programming I/O and working with the regulator patterns using
the Control System Toolbox. At the completion of this course, students
will be familiar with the following: Power Conversion
Theory, AC Induction Motor Theory, Elementary Diagram Reading,
Use of the GE Control System Tool Box - 1. Identifying and correcting
faults; 2. Working with the pattern; 3. Utilizing the Trend
Recorder Functions - a. Real-time Recording; b. Triggered Realtime
Recording; c. Capture Buffer; d. Keypad Functions
Prerequisite: Electrical experience/education and familiarity
with Windows?
TM-DC? Drive
Recommended Duration: 4 Days
This course is designed for engineering and maintenance personnel
who configure setup, install and maintain the TM-DC? drives.
Assignments include, hardware identification, diagnostics and
parameter review, programming I/O, tune up and working with
the regulator patterns through the Control System Toolbox.
Prerequisite: Electrical experience/education and familiarity
with Windows?
Motors, Power Converters and Drives
Recommended Duration: 4 1/2 Days
This course is designed for engineers and technicians responsible
for drive systems. It includes detailed operational information on
standard AC and DC motors, semiconductor operation (diodes,
SCRs, GTOs, IGCTs, IGBTs, and IEGTs), applications, dc converters
and PWM/SCR/GTO inverters. The course includes an introduction
to the principles of operation and the laws of physics that apply
to fans, pumps and compressors.
Prerequisite: None
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Customer Training
Power Equipment and Power Management
Industrial Power Systems Engineering and Device Coordination
Recommended Duration: 4 1/2 Days
This course is designed for electrical engineers responsible for
industrial or commercial power systems planning, designs for
reliability and overall system performance. Course includes shortcircuit
currents, over-voltages, power systems planning, protective
relaying, voltage control, equipment and system grounding,
power factor improvement, switchgear selection, protective
device coordination and workshop exercises.
Prerequisite: Electrical engineering experience/
education recommended
Low Voltage Switchgear, AKD 5, 6, 8 and 10
Recommended Duration: 4 Days
This course is designed for personnel responsible for maintenance,
testing and troubleshooting power circuit breakers,
protective relays, breaker trip devices and switchgear panels.
Topics include switchgear construction, switchgear diagrams,
trip devices, low voltage power circuit breakers, testing,
and maintenance.
Prerequisite: None
Medium Voltage Circuit Breakers and Contactors
Recommended Duration: 4 1/2 Days
This course is designed for personnel responsible for maintenance,
testing and troubleshooting power circuit breakers, contactors,
protective relays, trip devices and switchgear panels.
Primary equipment covered are Power-Vac breakers, MagneBlast
breakers and Limitamp contactors including both air and
vacuum type contactors. Lecture topics include switchgear
diagrams, breaker control, switchgear enclosures, protective
relays, testing, maintenance and operation of medium voltage
induction and synchronous motor starters.
Prerequisite: None
Power Transformers
Recommended Duration: 2 Days
Detailed course on transformer maintenance and testing. Topics
include transformer theory, insulating liquid testing, accessories,
transformer types, transformer filling, maintenance and testing,
types of insulating liquids, oil preservation systems.
Prerequisite: None
Power Transformers, Power Converters and System Harmonics
