SKM Power*Tools For Windows Software Training...

SKM Power*Tools® For Windows Software Training Course

101 PTW Software Standard 3-Day TrainingDAPPER, CAPTOR, A_FAULT, and TMS

101 PTW Software Standard 3-Day Training

Objectives

To develop a working knowledge of the Power*Tools for Windows

DAPPER, CAPTOR, A_FAULT, TMS, and Equipment Evaluation

software study modules

Database Concepts, Default Data, Copy/Paste Data, Clone Components

One-Line Diagrams, Copy/Paste, Annotation, Custom Symbols, Hide

and Expand, UNDO, and Template Libraries

Creation, customization and use of Datablocks and Datablock Reports

Managing multiple scenarios with Scenario Manager

and Data Visualizer

Efficient management and use of Equipment Libraries

Reporting Options and Customized Output Forms

Import/Export Capabilities

Merging Multiple Projects and Multi-user Access

Custom Queries and User-Defined Fields

Prerequisites

Basic computer skills.

Students are urged to review:

• IEEE Red Book Std 141-1993, chapter 4

• IEEE Buff Book Std 242-2001, chapters 9, 10 & 11

• IEEE Brown Book Std 399-1997, chapters 2, 6, 7, 9 & 15

Course Description

The course involves the discussion of the program interface. Management

of multiple scenarios with scenario manager is covered. Demand Load,

sizing, load flow, short circuit, load schedules, captor and motor starting

calculation procedures are then reviewed. Other topics that will be

covered are the efficient management and use of equipment libraries,

reporting options and customized output forms, import/export

capabilities, merging multiple projects, as well as custom queries and

user-defined fields. Students will earn 3.0 CEUs for this course.

Bonus Section (Torrance, CA only)

Introduction and demonstration to I*SIM (Transient Stability Analysis)

and Hi_Wave (Harmonic Analysis).

Target Audience

This course is intended for electrical power engineers responsible for the

design and analysis of three phase electrical distribution systems.

No previous electrical distribution system analysis experience is required.

Demand Load

Connected, Demand, and Design Load Analysis for Sizing

Demand Load Library

Input Data Requirements

Output Report Overview

Sizing

Feeder and Transformer Sizing Calculations

Cable and Transformer Libraries



Load Schedule

Panel, MCC and Switchboard Schedule Representation



Load Flow Studies

Solution Techniques

Sources of Supply Representation

Transformer, Load and other Component Representation

Voltage Drop Snapshot of Motor Startup



Fault Studies

Solution Techniques: Comprehensive Fault Analysis, ANSI Fault Analysis

Comparison of Methodologies between Comprehensive and ANSI

Contribution Sources Representations



Motor Starting Studies

Solution Methodology

Motor Models

Load Models

Soft Starter and Reduced Voltage Starting Models


Output Text and Graphical Data Overview

Captor

Creation of Time-Current Curves from New and Existing Projects

Customization of TCC Drawing Layouts and Libraries

Using Forms to Print TCC Drawings

Export of TCC Drawing to Third Party Application


TCC Settings Report

Selective Coordination

Dates January 19, 20, 21 (Torrance, CA)

March 16, 17, 18 (Detroit, MI)

April 6, 7, 8 (Torrance, CA)

June 8, 9, 10 (Cleveland, OH)

August 3, 4, 5 (Torrance, CA)

September 28, 29, 30 (Houston, TX)

November 9, 10, 11 (Torrance, CA)

Hours 7:30 AM to 5:00 PM, Monday through Wednesday

Fees $1,025 for 101 Standard, 3-Day

$1,755 for 101 and 102, 5-Day

Does not include hotel or travel costs.

Includes One Training Manual

Continental breakfast each morning at 7 am and on-site lunch

IEEE IACET Certificate of Completion (CEU)

Torrance, CA only: Use of one computer per two students

Group dinner on Monday following the class

Equipment Students not attending the Torrance, CA classes are responsible

for bringing their own laptop computers. SKM will provide the latest

version of the PTW software two weeks prior to the class for

installation with a software key. The Torrance, CA training room is

equipped with Dell computers with Pentium-4 2.8GHz or better

processors, 512MB RAM, and 17” LCD flat panel displays.

The class size is based on 2 students per computer.

Location The Torrance DoubleTree Hotel at South Bay address is 21333

Hawthorne Blvd. Torrance, CA 90503 and is located 10 miles

South of Los Angeles International Airport (LAX). Airport

transportation is approximately $30 for a taxi or $15 for

SuperShuttle. The hotel is also conveniently located 2.5 miles east

of the beach and the Redondo Pier. Restaurants and shops are

within walking distance from the hotel. Parking and wireless

internet usage at the hotel is complimentary.

For reservations call 1-800-445-8667 and be sure to ask for the

SKM corporate rate of $139 per night.


Objectives

To develop a working knowledge of the Power*Tools for Windows

Arc Flash and Equipment Evaluation software study modules

To understand the Arc Flash standards and calculation methods

To obtain hands-on experience in Arc Flash Label creation

and customization

To understand the step by step evaluations process and criteria for

protective and non-protective devices

Arc Flash analysis of several hands on examples of electrical distribution

and systems utilizing the PTW software

Interpretation of PTW Arc Flash results and study options

Review issues related to energy accumulation and multiple

contributions and its effects on Arc Flash

To understand the step by step evaluation process and criteria for

protective and non-protective devices

Prerequisites

Basic computer skills

PTW 101 or equivalent



• IEEE Buff Book Std 242-2001, chapters 9, 10 & 11

• IEEE Brown Book Std 399-1997, chapters 2, 7 & 15

• IEEE 1584 2002/2004a, Guide for Performing Arc Flash

Hazard Analysis

• NFPA 70E-2004 Standard for Electrical Safety in the Workplace

Course Description

The course covers the overview of the Arc Flash standards and reviews the

calculation and modeling procedures in Arc Flash and Equipment

Evaluation. Students will earn 2.0 CEUs for this course.

Bonus Section (Torrance, CA only)

Introduction and demonstration to Ground Mat (Ground Grid Design and

Analysis) or Distribution Reliability.

102 PTW Software Advanced 2-Day TrainingArc Flash and Equipment Evaluation

102 PTW Software Advanced 2-Day Training

Dates January 22, 23 (Torrance, CA)

March 19, 20 (Detroit, MI)

April 9, 10 (Torrance, CA)

June 11, 12 (Cleveland, OH)

August 6, 7 (Torrance, CA)

October 1, 2 (Houston, TX)

November 12, 13 (Torrance, CA)

Hours 7:30 AM to 5:00 PM, Thursday and Friday

Fees $825 for 102 Advanced, 2-Day

$1,755 for 101 and 102, 5-Day


Includes One Training Manual

Continental breakfast each morning at 7 am and on-site lunch

IEEE IACET Certificate of Completion (CEU)

Torrance, CA only: Use of one computer per two students

Group dinner on Monday following the class

Equipment Students not attending the Torrance, CA classes are responsible

for bringing their own laptop computers. SKM will provide the latest

version of the PTW software two weeks prior to the class for

installation with a software key. The Torrance, CA training room is

equipped with Dell computers with Pentium-4 2.8GHz or better

processors, 512MB RAM, and 17” LCD flat panel displays.

The class size is based on 2 students per computer.

Location The Torrance DoubleTree Hotel at South Bay address is 21333

Hawthorne Blvd. Torrance, CA 90503 and is located 10 miles

South of Los Angeles International Airport (LAX). Airport

transportation is approximately $30 for a taxi or $15 for

SuperShuttle. The hotel is also conveniently located 2.5 miles east

of the beach and the Redondo Pier. Restaurants and shops are

within walking distance from the hotel. Parking and wireless

internet usage at the hotel is complimentary.

For reservations call 1-800-445-8667 and be sure to ask for the

SKM corporate rate of $139 per night.

Arc Flash Hazard Analysis

Understanding Arc Flash Hazards: Shock, Burns, Blast Pressure,

Shrapnel and Heat

Overview and background of IEEE 1584 and NFPA 70E standards - Existing

and Proposed standards

Selection of correct Personal Protection Equipment to protect workers

NEC Article 110.16 and OSHA Electrical Safety Program requirements

Develop safe work practices and procedures

Arc Flash Labeling and Work Permit Requirements with hands-on examples

Hazard Risk Categories

Discussion of Arc Flash boundaries and limits of approach - Limited,

Restricted, and Prohibited

Understanding IEEE 1584 and NFPA 70E Calculation Procedures

Arc Flash analysis of several hands on examples of electrical distribution

systems utilizing the PTW software

Interpretation of PTW Arc Flash results and study options

Review issues related to energy accumulation and multiple contributions

and its effects on Arc Flash

Review issues related to Induction Motor and Generator decays and its

effects on Arc Flash

Review issues related to protective device line side and load side

Arc Flash calculations

Hands-on example of applying various techniques to reduce arc flash

hazards to below 40 cal/cm2

Equipment Evaluation

Relationship with Short Circuit, and Equipment Sizing

Input Data requirements, Interrupting Rating, Close-Latch Rating, and

Test X/R

Low voltage device evaluation based on ANSI, IEC and Comprehensive

Fault results

HV/MV device evaluation based on ANSI, IEC and Comprehensive

Fault results

Evaluation using bus fault current or worse case current through the device

Evaluation Criteria – Pass, Fail, or Marginal

Interpretation of PTW Equipment Evaluation results

Target Audience

This course is intended for electrical power engineers responsible for the

design and analysis of three phase electrical distribution systems. No

previous electrical distribution system analysis experience is required.


203 Advanced Power Systems Application 3.5-Day TrainingShort Circuit, Equipment Evaluation, Protection & Coordination, and Arc Flash Evaluation

Objectives

Review of distribution system analysis topics, including short-circuit,

equipment evaluation, protective device coordination, space and arc

flash hazard analysis

Review of fundamental considerations for protection, including data

gathering, fault calculations, equipment damage and safety

Analysis of a sample electrical distribution system using the

PTW software

Discussion of short-circuit, equipment evaluation, overcurrent

coordination, and arc flash hazard analysis results

Present methods used to reduce the arc flash hazard

Discuss compliance with various codes and standards including ANSI,

NEMA, NEC® and CEC

Presentation of several class examples that will help students gain a

basic understanding of how to select and apply conductors, fuses, low

and medium voltage circuit breakers, overcurrent relays and

current transformers

Provide practical examples of analysis from typical Industrial and

Commercial power systems with explanations of study results and how

they are presented in a final report

Discuss issues and examine study results, potential problem areas

and implementation of study recommendations

Prerequisites


SKM Power*Tools Standard 3-Day and Advanced 2-Day Training, OR

working knowledge of SKM PTW Software.

This class is not recommended for beginners.



• IEEE Buff Book Std 242-2001, chapters 9, 10, & 11

• IEEE 1584 2002/2004a, Guide for Performing Arc Flash

Hazard Analysis

• NFPA 70E-2004 Standard for Electrical Safety in the Workplace

Course Description

The course involves the application of the Power*Tools program to analyze

a sample electrical distribution system. Short-circuit, protective device

coordination, equipment evaluation and arc flash hazard analysis will be

reviewed and then performed using the software. Students will earn 3.0

CEUs for this 3.5-day course.

203 Power Systems Application 3.5-Day Training

Target Audience

This course is intended for electric power engineers responsible for the

design, analysis, and maintenance of three-phase industrial or

institutional power distribution systems. A basic understanding of

electrical distribution system analysis is required.

Typical Industrial and Commercial Power System Example

Review of distribution system analysis topics including short-circuit,

protection of apparatus, protective device coordination, equipment

evaluation, and arc flash hazard analysis

Discussion of compliance with various standards and requirements

Data gathering and input data requirement

Discussion of considerations when selecting equipment

Output data requirement

Examination and interpretation of PTW study results and

potential problem areas in the power system

Discussion of equipment evaluation and coordination study results

Discussion of methods and procedures on completing a typical study

Discussion of arc flash hazard analysis results and methods used to reduce

the hazard to below 40 cal/cm2

Discussion of final presentation of study reports

Hands-On Lab - Analysis of a Sample Electrical Distribution System in PTW

Distribution System in PTW

Interpretation of Equipment datasheets

Data gathering, data input and system modeling

Fault Calculations - Per unit method, Comprehensive Fault and ANSI

method, types of faults, Interrupting Rating, Close-Latch Rating,

and Test X/R

Developing time-current curves for phase and ground overcurrent

current coordination using PTW

Relationship between Short Circuit results, Protective Device Coordination,

and Arc Flash studies

Verifying protection of electrical apparatus and compliance with

related codes and standards

Interpretation of PTW Equipment Evaluation results, Pass, Fail, or Marginal

Evaluation Criteria

Discussion of study results and methods to improve system

protection and coordination

Interpretation of PTW Arc Flash results and applying various techniques to

reduce arc flash hazard to below 40 cal/cm2

Discussion of issues related to Selective Coordination

Discussion of Protection and Coordination issues for Arc Flash studies

Arc Flash Labels, Work Permits, and legal issues

Dates & February 24, 25, 26, 27 (Houston, TX)

Locations May 12, 13, 14, 15 (Toronto, Canada)

October 20, 21, 22, 23 (St. Louis, MO)

Hours 7:30 AM to 5:00 PM, Tuesday through Thursday

7:30 AM to 12:00 PM, Friday

Fees $1550 for 203 Advanced Power Systems Application 3.5-Day

Training: Short Circuit, Equipment Evaluation, Protection &

Coordination, and Arc Flash Evaluation


Includes All course materials, continental breakfast each day from 7 to

7:30 AM, lunch and refreshments during breaks, and an IEEE

IACET Certificate of Completion.

Equipment Students are responsible for bringing their own laptop computers.

SKM will provide the latest version of the PTW software two weeks

prior to the class for installation with a software key.

1040 Manhattan Beach Blvd. Manhattan Beach, California 90266

Registration Policy

101

102

101 & 102

203

204 & 205

Course # Course Name Cost January February March April

2009 SKM Training Course Calendar

PTW Software Standard 3-Day

PTW Software Advanced 2-Day

Advanced Power Systems Application 3.5-Day:

Short Circuit, Equipment Evaluation,

Protection & Coordination, and

Arc Flash Evaluation

PTW Software Standard & Advanced

5-Day Combo

$1025

$825

$1755

$1550

$1850Motor Starting Analysis and Application

& Harmonic Analysis & Application with PTW

Software 4-Day Combo

16, 17, 18

Detroit, MI

19, 20

Detroit, MI

24, 25, 26, 27

Houston, TX

19, 20, 21, 22, 23

Torrance, CA

6, 7, 8

Torrance, CA

9, 10

Torrance, CA

6, 7, 8, 9, 10

Torrance, CA

19, 20, 21

Torrance, CA

22, 23

Torrance, CA

16, 17, 18, 19, 20

Detroit, MI

204

205Harmonic Analysis & Application

with PTW Software 2-Day$975

Motor Starting Analysis & Application

with PTW Software 2-Day$975

Reservations for hotel accommodations and transportation are the

responsibility of the attendee. To register for a course, complete and fax

the registration form in this brochure to 310-698-4708. To sign up via our

website, please go to http://www.skm.com/training.shtml. Click the

course you wish to attend, and then complete and submit the registration

form on-line. A confirmation of your registration will be forwarded to you,

along with hotel information. We reserve the right to cancel the course

and refund the fees if advanced registration requirements are not met.

DAPPER® Integrated Electrical Analysis SoftwareComprehensive Three Phase and Unbalanced Short-Circuit Studies, Load Flow Study, Demand Load Study, Feeder and Transformer Sizing Study, Impact MotorStarting Study, and Load Schedules.

CAPTOR® Time-Overcurrent CoordinationGraphical Time-Overcurrent Coordination. Integrated with one-lines, short-circuit modules, Equipment Evaluation, and Arc Flash. Comprehensive protectivedevice library.

ARC FLASH EVALUATION

Calculates the incident energy and arc flash boundary for each bus in the system. Trip times are automatically determined from the protective device settingsand arcing fault current values. Incident energy and arc flash boundaries are calculated based on accumulated fault values.Clothing requirements are specified from a user-defined clothing library. Clearing times can be reduced based on current-limiting capabilities.Complies with OSHA, NFPA 70E, NEC 110.16, and IEEE 1584 requirements. Generates custom labels and work permits.Also available as ArcCalc, a simplified stand-alone Arc Flash calculator.

A_FAULT ANSI Short-Circuit StudyThree Phase and Unbalanced Short-Circuit based on the ANSI/IEEE C37 Standards. Separate solutions for low, medium and high voltage systems and forsymmetrical, momentary and interrupting calculations.

IEC_FAULT IEC Short-Circuit Study 909 or 363Three Phase and Unbalanced Short-Circuit Study based on the IEC 60909 or IEC 61363 Standards.

EQUIPMENT EVALUATION Equipment Evaluation ReportAutomatically compares short-circuit ratings, withstand ratings. Applies de-rating adjustments and user defined pass/marginal/failed criteria. Includes errorchecking for input data and topology.

IEE WIRING REGULATION SIZING

Integrates the rules and data tables from the IEE Wiring Regulation to size cables based on the design loads of the power system. Automatically select thecorrect table from the IEE Wiring Regulation and pick the proper cable size.

TMS Transient Motor Starting SimulationTime-based motor starting simulation with graphical output. Includes reduced voltage and capacitor starting, graphical motor and load models.

Power*Tools for Windows Study Modules

Phone: 1-800-232-6789 Fax: 310-698-4708 Email: [email protected] www.skm.com


All students will be provided with a FREE Power*Tools Tutorial

video CD (an $800 value) covering the PTW software

interface, DAPPER, CAPTOR, Arc Flash, Equipment Evaluation,

TMS, HI_WAVE, I*SIM, DC Systems Analysis and more!

SKM PTW Tutorial Video CD

3, 4, 5

Torrance, CA9, 10, 11

Torrance, CA

3, 4, 5, 6, 7

Torrance, CA

20, 21, 22, 23

St. Louis, MO

6, 7

Torrance, CA

12, 13

Torrance, CA

9, 10, 11, 12, 13

Torrance, CA

8, 9, 10

Cleveland, OH

11, 12

Cleveland, OH

8, 9, 10, 11, 12

Cleveland, OH

28, 29, 30

Houston, TX

Sept 28, 29, 30, Oct 1, 2

Houston, TX

1, 2

Houston, TX

26, 27, 28, 29

Warrendale, PA

26, 27

Warrendale, PA

28, 29

Warrendale, PA

Sept 28, 29, 30, Oct 1, 2

Houston, TX

Training Class Cancellation Policy

No cancellation fee: 30 days notice before class

$500 cancellation fee: 7 - 29 days before class (You may transfer to

another PTW class within the same year and pay a $50 transfer fee)

No refund or transfers: Less than 7 days notice before class

HI_WAVE Harmonic Investigation and Filter DesignFrequency Scan, Harmonic Current, Voltage Distortion, Harmonic Load Flow and Interactive Filter Design.

I*SIM Dynamic Simulation and Transient StabilityDynamic Response to Power System Electro-Mechanical Disturbances, Generator Sizing and Stability, Flux Level Machine Representation.User Defined Graphical Models for Exciter, Turbine Governor, PSS, and other controllers.

UNBALANCED/SINGLE PHASE STUDIES

Load flow, short-circuit, demand load analysis, sizing, and load schedules. Reports single-phase loads and unbalanced operating conditions including phaseand sequence currents and voltages.

DISTRIBUTION RELIABILITY Reliability AnalysisCalculates the reliability indices of individual load points and the overall distribution systems with either radial or loop configuration. Includes Load Point MTTF,Failure/Year, MTTR, Annual Outage, EENS, ECOST, and other IEEE indices. Cost-related factors and aging factors are included in the analysis to comparealternative designs.

DC SYSTEMS ANALYSIS

Battery Sizing, Load Flow, & Short Circuit Analysis. Evaluate all loading conditions for DC duty cycle loads and AC emergency loads.Complies with IEEE std. 485, 1115, 399, 946, and IEC std. 61660.

PTW VIEWER

Read-only version of PTW for displaying, printing, and exporting all study results. Create or expand one-lines and apply datablocks. View Time-Current Curves.View and create customized Arc Flash Labels and Work Permits.

GROUND MAT Substation Ground Grid Design and AnalysisOptimizes grid design using general purpose finite element algorithm for potential analysis and graphical facilities to validate grounding systems efficiency.

CABLE-3D

Solves complex three-dimensional cable pulling tension and sidewall pressure calculations.

May June July August September October November

12, 13, 14, 15

Toronto, ON Canada


204 Motor Starting Analysis & Application 2-Day Training

204 Motor Starting Analysis & Application 2-Day Training

Objectives

Review of fundamental considerations for motor starting, including

motor fundamentals, theory, application and common motor

starting techniques

Discussion of the effects of motor starting on electrical

distribution systems

Presentation of several practical examples of motor starting in a

laboratory environment


basic understanding of motor starting performance calculations


and implementation of study recommendations

Prerequisites



Hands-On 2- Day Training, OR working knowledge of SKM PTW Software


• IEEE Brown Book Std 399 - 1997, chapter 9

• IEEE Red Book Std 141 - 1993, chapter 10

Course Description

This course involves the application of the Power*Tools program to

analyze a sample AC electrical distribution system containing various

sizes of motors utilizing different starting techniques. A motor starting

analysis of the distribution system will be reviewed and then performed

using the software. Students will earn 2.0 CEUs for this 2-day course.

Target Audience


design and analysis of alternating current electrical power distribution

systems. A basic understanding of electrical distribution system analysis

is required.


Data gathering and input data requirement

Exposure to load flow analysis to the extent to establish initial

conditions for motor starting analysis

Comparison of induction motor models available: single rotor and

double rotor circuits vs. graphical model

Review of data required to properly model the motor to be started

Understanding of the motor performance test data including torque vs.

slip, current vs. slip, hot and cold start thermal limits, etc.

Importance of inertia, both motor and load, on motor starting

Discussion of various motor starting methods: delta-wye,

autotransformer, capacitor, and soft-start

Examination and interpretation of PTW study results and potential

problem areas in the power system

Discussion of methods and procedures for completing a typical study






Relationship between Load Flow results and Motor Starting study

Examination of specific motor starting technique being utilized

Verifying compliance with related codes and standards

Discussion of study results and methods to improve distribution system

Special Presentation

Both 204 and 205 classes will be presented in a state of the art full-scale

demonstration and test laboratory. Students will be able to experience

firsthand technical challenges including harmonic issues, voltage

disturbances (overvoltages, sags, and surges), energy efficiency, and

other power quality disruptions commonly found in power systems.

Students will be able to compare PTW analysis results to actual test

equipment, such as VFDs and motor starters, make changes or even push

the system to the limit and observe the effects instantly. This is a great

opportunity to witness an electronic PTW system come to life!

Dates & October 26, 27 (Warrendale, PA)

Locations

Hours 7:30 AM to 5:00 PM, Monday and Tuesday

Fees $975 for 204 Motor Starting Analysis & Application 2-Day.

$1,850 for 204 and 205, 4-Day.








Location The Eaton Power Quality Experience Center and Lab

130 Commonwealth Drive

Warrendale, PA 15086

www.eaton.com/experience


205 Harmonic Analysis & Application 2-Day Training

205 Harmonic Analysis & Application 2-Day Training

Objectives

Review of theory and fundamentals of power system harmonics

Discussion of total harmonic distortion and notching

Discussion of common symptoms of harmonics in a power system

such as transformer heating, motor and generator heating and

vibrations, neutral heating and electronic equipment malfunction

Review of non-linear loads and common sources of harmonics within

electrical distribution systems

Overview of the background and application of IEEE Std 519-1992

Presentation of several practical examples of performing harmonic

measurements


basic understanding of how to perform a harmonic analysis


and implementation of study recommendations using common

harmonic mitigating techniques.

Prerequisites



Hands-On 2- Day Training, OR working knowledge of SKM PTW Software


• IEEE Brown Book Std 399 - 1997, chapters 6 and 10

• IEEE Red Book Std 141 - 1993, chapters 8 and 9

• IEEE 519 - 1992, “IEEE Recommended Practices and Requirements

for Harmonic Control in Electrical Power Systems”

Course Description

This course involves the application of the Power*Tools program to

analyze a sample AC electrical distribution system containing various

types of harmonic sources. Harmonic analysis of the distribution system

will be reviewed and then performed using the software. Students will

earn 2.0 CEUs for this 2-day course.

Target Audience


design and analysis of alternating current electrical power distribution

systems. A basic understanding of electrical distribution system analysis

is required.


Review of harmonic analysis and IEEE 519-1992 distortion limits

Data gathering and input data requirements for harmonic analysis

Examination and interpretation of PTW study results and potential

problem areas in the power system

Discussion of methods and procedures for completing a typical study





Perform measurements to establish harmonic current source models for

harmonic producing loads


Review of harmonic analyzer capabilities best suited for

such measurements

Exposure to load flow analysis to the extent to establish a 60 Hz base

case for the harmonic analysis

Building harmonic current sources for loads and establishing the base

case harmonic load flow

Choice of the Point of Common Coupling (PCC) and how to conduct

IEEE Std. 519-1992 analysis at the PCC

Sizing a power factor correction capacitor bank and use of frequency

scans to determine if it should be a filter

Filter design and use of IEEE Std. 18 to rate the capacitor in the

filter bank

Discussion of study results and methods to improve (reduce)

harmonic distortion

Dates & October 28, 29 (Warrendale, PA)

Locations

Hours 7:30 AM to 5:00 PM, Wednesday and Thursday

Fees $975 for 205 Harmonic Analysis & Application 2-Day.

$1,850 for 204 and 205, 4-Day.








Location The Eaton Power Quality Experience Center and Lab

130 Commonwealth Drive

Warrendale, PA 15086

www.eaton.com/experience

Special Presentation

Both 204 and 205 classes will be presented in a state of the art full-scale

demonstration and test laboratory. Students will be able to experience

firsthand technical challenges including harmonic issues, voltage

disturbances (overvoltages, sags, and surges), energy efficiency, and

other power quality disruptions commonly found in power systems.

Students will be able to compare PTW analysis results to actual test

equipment, such as VFDs and motor starters, make changes or even push

the system to the limit and observe the effects instantly. This is a great

opportunity to witness an electronic PTW system come to life!


Method of Payment

Credit Card

Card Type: MasterCard Visa AMEX

Card Number ________________________________________________

Expiration Date ______________________________________________

Verification Code ____________________________________________

(Last 3 digits AFTER the credit card number in the signature area of the card)

Name on Card _______________________________________________

Authorized Signature _________________________________________

2009 SKM Training Class Registration Form

Contact Information

Course Information

Course # ___________________________________________________

Course Title _________________________________________________

Course Date and Location ____________________________________

Course # ___________________________________________________

Course Title _________________________________________________

Course Date and Location ____________________________________

SKM Systems Analysis, Inc.

P.O. Box 3376

Manhattan Beach, CA 90266

PTW Serial Number __________________________________________

Address 1 ___________________________________________________

Address 2 ___________________________________________________

City ________________________________________________________

State/Prov____________________________Postal Code ___________

Country ____________________________________________________

PTW Software Experience

Please select your PTW Software experience:

New User Novice

Intermediate Experienced

Name ______________________________________________________

Company Name _____________________________________________

Your Title ___________________________________________________

Phone Number ______________________________________________

Fax Number _________________________________________________

Email address _______________________________________________

The IEEE has been approved as an Authorized Provider by the International Association for Continuing Education and Training (IACET).

In obtaining this approval, the IEEE has demonstrated that it complies with the IACET Standards which are widely recognized as standards

of good practice internationally. As a result of their Authorized Provider membership status, IEEE is authorized to offer IACET CEUS for its

programs that qualify under the IACET Standards.

IEEE IACET CEU Provider #1001255

Registration Policy

Reservations for hotel accommodations and transportation are the

responsibility of the attendee. To register for a course, complete and fax

the registration form to 310-698-4708. To sign up via our website, please

go to http://www.skm.com/training.shtml. Click the course you wish to

attend and then complete and submit the registration form on-line. A

confirmation of your registration will be forwarded to you, along with hotel

information. We reserve the right to cancel the course and refund the fees

if advanced registration requirements are not met.

Training Class Cancellation Policy

The fees for cancelling any training course are as follows:

No cancellation fee: 30 days notice before class

$500 cancellation fee: 7 - 29 days before class

(You may transfer to another PTW class within the same year and pay

a $50 transfer fee)

No refund or transfer: Less than 7 days notice before class

IACET Certificate

Complete all information to receive an IACET certificate of attendance.

This information MUST be completed to receive your certificate. If this

information is not complete, the attendee will not receive the certificate.

The certificate will be emailed directly from IEEE within a few weeks after

completion of the class.

I would like to receive an IACET Certificate.

Delivery email address _______________________________________

PE License # (if applicable) ____________________________________

State of Issuance (if applicable) ________________________________


Key Enhancements for Power*Tools for Windows 6.5Technology At Work For You

Added manufacturer specific selective coordination

tables to the PTW library. Allows search for up-to-down

and down-to-up selective coordination pairs. Filter for

devices based on voltage, frame amps, interrupting

amps, and selective level.

New Report Viewer user interface and format (.rp2)

allows for image insertion along with enhanced text and

picture editing and formatting. The Report Viewer

includes saving to .doc, .txt, and .pdf formats.

Support for larger one-line drawing areas and navigation

to sub-drawings and other PTW internal and external

document types.

Nametag and Datablock orientations and default

placement relative to the symbol body.

Support the creation of Legend tags (annotated poly-line

symbols) on the one-line and report/display Legends.

Option to report results based on the worst-case scenario

in Arc Flash Evaluation. Expanded the Arc Flash study

option dialog for specialized calculation and efficiency.

Option to select user-defined levels of upstream mis-

coordination checking in Arc Flash.

Added ability to customize the reporting fields and

sorting orders in the Arc Flash spreadsheet report.

Many additions to the Arc Flash PPE Table and Custom

Labels including dynamic pictures for protection

equipments, multiple copies of labels to print for different

locations, etc.

Added NESC 2007 standard option for incident energy

and flash boundary determination.

New protective devices added and new quick search and

query capability. Approximately 1400 new devices have

been added. Also includes Equipment Specific

Arc Flash equations.

Ability to specify phase or neutral sensor location and to

model differential, directional, summation, and zone

interlock devices within Captor and to shift the

TCC accordingly.

Ability to model differential, directional, summation, and

zone interlock devices in Arc Flash.

Device and TCC notes area can store links to other

documents, including external files.

Ability to plot the entire range of fuse sizes

simultaneously. Also added ability to plot Bus Damage

Curve, Capacitor Case Rapture Curve, Reduced Voltage

Motor Starting Curve, Motor Asymmetrical Inrush,

Transformer User-Define Inrush Curve/Points, etc.

Improved the multiple protection function interface to

verify the functions to be plotted in the same TCC

drawing. This includes the settings from the functions to

be displayed in the one-line Datablock; the functions to

be included in Equipment Evaluation; and the function

types and sensor locations.

Variable Frequency Drive (VFD) model as a standard

component type in PTW. Includes model regenerative

and bypass modes.

New Thermal equations added to model the ANSI 49

function for SEL 701, 710, 749M for both Curve and

Rating methods. New models added for Merlin Gerin

Sepam 20, 40, 80 Series, and Startco FPU-32

and MPU-32.

TMS has been enhanced and includes the power and

capability of the I*SIM study module to the extent

required for motor starting analysis. Generator machine,

exciter, turbine governor models, and flux induction

motor models are added, branch power and current can

be plotted in TMS.

Addition of polynomial and damping load model in

I*SIM/TMS library. Also includes Variable Frequency

Drive as a new Starter and Controller Model.

Addition of motor starter and controller models, turbine

governor model, and wind generator controllers in I*SIM.

New Excel reports for TMS and I*SIM.

New HIWAVE iterative solution method when Voltage and

Current Harmonic sources coexist in the system.

New Harmonic Source Component Editor subview menu

for the VAR Compensator, Generator, and Schedules.

Resistance adjustment based on the harmonic frequency

based on the recommended modeling concepts in

section 10.5 of IEEE Standard 399-1997.

Added Harmonic Models for 6, 12, and 18 Pulse Drives

with 0%, 3%, 5%, and 8% Line Reactors in HI_WAVE

section of the PTW library.

Date post:	19-Jun-2018
Category:	Documents
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