DOCSLIB.ORG

Electric Machines Catalogue

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Electric Machines Catalogue PRODUCT CATALOGUE Electric Machines Catalogue Quality MV and HV Machines from Stock & Engineered to Order Powered by Technology. Driven by Service www.parsons-peebles.com Over 115 years experience in design, manufacture and service of standard and engineered to order motors & generators PARSONS PEEBLES ELECTRIC MACHINES CATALOGUE CONTENTS Parsons Peebles Introduction .................................................................................................................................. Page 5 Standard MV & HV Range - General Data Page 6 Electric Motors .................................................................................................................................. Page 8 Standards .................................................................................................................................. Page 8 High Efficiency Motors .................................................................................................................................. Page 8 Rating Plate .................................................................................................................................. Page 8 Mountings .................................................................................................................................. Page 9 Ingress Protection .................................................................................................................................. Page 9 General Construction Features .................................................................................................................................. Page 10 Rotor Balancing .................................................................................................................................. Page 10 Cooling ................................................................................................................................... Page 11 Bearings .................................................................................................................................. Page 12 Terminal Box & Connection .................................................................................................................................. Page 15 Insulation & Winding .................................................................................................................................. Page 15 Ratings & Technical Data .................................................................................................................................. Page 16 Design Voltage Range .................................................................................................................................. Page 16 Power .................................................................................................................................. Page 17 Overload Capacities .................................................................................................................................. Page 17 Ambient Temperatures & De-Ratings .................................................................................................................................. Page 17 Duties .................................................................................................................................. Page 18 Starting .................................................................................................................................. Page 18 Thermal Protection .................................................................................................................................. Page 18 Anti-Condensation Heaters .................................................................................................................................. Page 19 Inverter Supply .................................................................................................................................. Page 19 VFD: Motor Features .................................................................................................................................. Page 20 Maximum Speed .................................................................................................................................. Page 21 Shaft Dimensions .................................................................................................................................. Page 21 Flanges .................................................................................................................................. Page 22 Installation & Installation Dimensions .................................................................................................................................. Page 23 - Totally Enclosed Fan Cooled (TEFC/IC411) ................................................................................................................. Page 23 - Totally Enclosed Air to Air Cooled (TEAAC/IC611) ................................................................................................................. Page 25 - Open Drip Proof (ODP/IP23) .................................................................................................................................. Page 27 Parsons Peebles Group © 2017 Page | 3 PARSONS PEEBLES ELECTRIC MACHINES CATALOGUE CONTENTS CONT... Medium Voltage Standard Range – Frame Data Page 29 PPD-MV Series (TEFC / IC411) .................................................................................................................................. Page 31 PPT-MV Series (TEAAC / IC611) .................................................................................................................................. Page 38 PPC-MV Series (ODP / IP23) .................................................................................................................................. Page 45 High Voltage Standard Range – Frame Data Page 51 PPD-HV Series (TEFC / IC411) .................................................................................................................................. Page 53 PPT-HV Series (TEAAC / IC611) .................................................................................................................................. Page 57 PPC-HV Series (ODP / IP23) .................................................................................................................................. Page 62 Engineered to Order High Voltage Range Page 67 Design Philosophy .................................................................................................................................. Page 69 Range Overview .................................................................................................................................. Page 70 Keyed Bar Rotor Construction .................................................................................................................................. Page 71 Drop-In Replacements / Upgrades .................................................................................................................................. Page 72 Low Starting Current Solutions .................................................................................................................................. Page 74 Service & Support Page 75 Full Line Service Provision .................................................................................................................................. Page 77 Summary of Aftermarket Offerings .................................................................................................................................. Page 78 Page | 4 Parsons Peebles Group © 2017 PARSONS PEEBLES – AN INTRODUCTION Parsons Peebles was established in 1898 and is one of the leading providers of quality electrical machines. We have a global installed base of 1000s of motors and generators supplied to end users in the oil & gas, power, water, mining, defence & industrial sectors. We are extremely proud of our long history of manufacturing and maintaining motors and generators which drive pumps, fans, conveyers and other process critical equipment. Our focus on consistently delivering superior quality solutions and services to our customers helps make us different and sets us apart from the competition. We apply our deep engineering knowledge and technical ability to provide reliable drives and generators best suited to the unique demands of our customer’s process. Our offering is extensive and products supplied range from standard MV motors through to bespoke HV motors or generators specifically engineered, frequently to very challenging operational parameters. No matter what your challenge we have a machine for you. Our equipment supply is fully backed up by full service provision. This catalogue details our product offering in some detail and we look forward to supplying you with a machine with the reliability that the Parsons Peebles brand epitomises. Original Anstee & Ware Parsons Peebles Parsons Peebles Parsons Peebles business formed by acquired by acquires business formed by David Bruce Peebles Clyde Blowers Capital Anstee & Ware David Bruce Peebles New Parsons Peebles brand is launched ANSTEE WARE 1898 1948 1968 2014 2014 2015 2016 Pre-formed Windings a Parsons Peebles company Taylor & Goodman Preformed Windings established by established by *** Parsons Peebles Parsons Peebles Harold Taylor and acquires acquires Stan Goodman Preformed Windings Taylor & Goodman Parsons Peebles Group
Load more

Recommended publications
  • Methods for Rapid Estimation of Motor Input Power in Hvac Assessments
    METHODS FOR RAPID ESTIMATION OF MOTOR INPUT POWER IN HVAC ASSESSMENTS A Thesis by KEVIN DAVID CHRISTMAN Submitted to the Office of Graduate Studies of Texas A&M University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE May 2010 Major Subject: Mechanical Engineering METHODS FOR RAPID ESTIMATION OF MOTOR INPUT POWER IN HVAC ASSESSMENTS A Thesis by KEVIN DAVID CHRISTMAN Submitted to the Office of Graduate Studies of Texas A&M University in partial fulfillment of the requirements for the degree of MASTER OF SCIENCE Approved by: Chair of Committee, David E. Claridge Committee Members, Charles Culp Michael Pate Head of Department, Dennis O'Neal May 2010 Major Subject: Mechanical Engineering iii ABSTRACT Methods for Rapid Estimation of Motor Input Power in HVAC Assessments. (May 2010) Kevin David Christman, B.S.E., Walla Walla University Chair of Advisory Committee: Dr. David E. Claridge In preliminary building energy assessments, it is often desired to estimate a motor's input power. Motor power estimates in this context should be rapid, safe, and noninvasive. Existing methods for motor input power estimation, such as direct measurement (wattmeter), Current Method, and Slip Method were evaluated. If installed equipment displays input power or average current, then using such readings are preferred. If installed equipment does not display input power or current, the application of wattmeters or current clamps is too time-consuming and invasive for the preliminary energy audit. In that case, if a shaft speed measurement is readily available, then the Slip Method is a satisfactory method for estimating motor input power.
    [Show full text]
  • The Fundamentals of Ac Electric Induction Motor Design and Application
    THE FUNDAMENTALS OF AC ELECTRIC INDUCTION MOTOR DESIGN AND APPLICATION by Edward J. Thornton Electrical Consultant E. I. du Pont de Nemours Houston, Texas and J. Kirk Armintor Senior Account Sales Engineer Rockwell Automation The Woodlands, Texas Edward J. (Ed) Thornton is an Electrical Electrical Mechanical Consultant in the Electrical Technology Coupling System Field System Consulting Group in Engineering at DuPont, in Houston, Texas. His specialty is the design, operation, and maintenance of electric power distribution systems and large motor installations. He has 20 years E , I T , w of consulting experience with DuPont. Mr. Thornton received his B.S. degree Figure 1. Block Representation of Energy Conversion for Motors. (Electrical Engineering, 1978) from Virginia Polytechnic Institute and State University. The coupling magnetic field is key to the operation of electrical He is a registered Professional Engineer in the State of Texas. apparatus such as induction motors. The fundamental laws associated with the relationship between electricity and magnetism were derived from experiments conducted by several key scientists J. Kirk Armintor is a Senior Account in the 1800s. Sales Engineer in the Rockwell Automation Houston District Office, in The Woodlands, Basic Design and Theory of Operation Texas. He has 32 years’ experience with The alternating current (AC) induction motor is one of the most motor applications in the petroleum, rugged and most widely used machines in industry. There are two chemical, paper, and pipeline industries. major components of an AC induction motor. The stationary or He has authored technical papers on motor static component is the stator. The rotating component is the rotor.
    [Show full text]
  • Premium Efficiency Motor Selection and Application Guide
    ADVANCED MANUFACTURING OFFICE PREMIUM EFFICIENCY MOTOR SELECTION AND APPLICATION GUIDE A HANDBOOK FOR INDUSTRY DISCLAIMER This publication was prepared by the Washington State University Energy Program for the U.S. Department of Energy’s Office of Energy Efficiency and Renewable Energy. Neither the United States, the U.S. Department of Energy, the Copper Development Association, the Washington State University Energy Program, the National Electrical Manufacturers Association, nor any of their contractors, subcontractors, or employees makes any warranty, express or implied, or assumes any legal responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process described in this guidebook. In addition, no endorsement is implied by the use of examples, figures, or courtesy photos. PREMIUM EFFICIENCY MOTOR SELECTION AND APPLICATION GUIDE ACKNOWLEDGMENTS The Premium Efficiency Motor Selection and Application Guide and its companion publication, Continuous Energy Improvement in Motor-Driven Systems, have been developed by the U.S. Department of Energy (DOE) Office of Energy Efficiency and Renewable Energy (EERE) with support from the Copper Development Association (CDA). The authors extend thanks to the EERE Advanced Manufacturing Office (AMO) and to Rolf Butters, Scott Hutchins, and Paul Scheihing for their support and guidance. Thanks are also due to Prakash Rao of Lawrence Berkeley National Laboratory (LBNL), Rolf Butters (AMO and Vestal Tutterow of PPC for reviewing and providing publication comments. The primary authors of this publication are Gilbert A. McCoy and John G. Douglass of the Washington State University (WSU) Energy Program. Helpful reviews and comments were provided by Rob Penney of WSU; Vestal Tutterow of Project Performance Corporation, and Richard deFay, Project Manager, Sustainable Energy with CDA.
    [Show full text]
  • Motors & Generators
    Motors & Generators www.nidec-industrial.com Number one in electric motors Nearly 200 years Nidec: destined to be of experience number one in the design in industrial power and manufacture solutions. of electric motors With the acquisition of Ansaldo Sistemi Industriali and the Emerson motors and & generators generators divisions Nidec can now offer customers more than 200 years of combined experience in the design and manufacture of electric motors & generators for the energy, metal, environmental, marine and industrial markets. Nidec has the experience to deliver process oriented electric motors either as a stand-alone component or a fully engineered system with drives, switch gears and controls. The combination of technologies and background is the base of our expertise in engineering flexible, customized solutions for global industrial markets at competitive prices. NIDEC INDUSTRIAL SOLUTIONS | Motors & Generators 3 Pareto Efficiency solutions Designing motors The most efficient and and generators with the robust machines for right fit for your needs heavy duty industrial applications Nidec Industrial Solutions has built its reputation in the electric motors & generators market based on the ability to engineer and manufacture machines to meet Customer specifications right down to the choice of color. It should come as no surprise that our motors and generators are widely used in demanding applications such as oil and gas where new technical challenges emerge with each new project. We also have a line of standard motors that offer the highest level of efficiency available on the market today. Key features such as our rigid shaft design for 2 pole machines, long life bearings, rugged fabricated steel frames, standard aggressive environment painting cycle, and one of the most advanced test rooms in Europe - able to perform full load testing up to 60 MW (in back-to-back configuration) - ensure maximum reliability.
    [Show full text]
  • Price Book Teco Westinghouse Motors (Canada) Inc
    TECO-WESTINGHOUSE MOTORS (CANADA) INC. MOTORS AND CONTROLS PRICE BOOK TECO WESTINGHOUSE MOTORS (CANADA) INC. Your Authorized TECO-Westinghouse Representative is: Your Base Motor Multiplier is: Your Base Controls Multiplier is: Date: TECO-Westinghouse Motors (Canada) Inc. - Your Representative For more information visit: www.tecowestinghouse.ca or call: 1-800-661-4023 Notes Notes For more information visit: www.tecowestinghouse.ca or call: 1-800-661-4023 MOTOR PRODUCT INDEX PRODUCT SECTION MOTORS No. THREE PHASE TEFC Rolled Steel TEFC 1 Optim® TEFC 3 Advantage Plus IEEE Ready 7 Advantage Plus IEEE 841 10 Optim® TEXP 14 Optim® Oilwell 17 MAX-HT 19 THREE PHASE ODP Rolled Steel ODP 23 A Optim® ODP 26 MEDIUM VOLTAGE Global XPE 29 MOTORS Global TEFC 32 Global ODP 35 SINGLE PHASE Farm Duty 38 PUMP MOTORS Optim® JP 40 Optim® JM 42 Optim® VH 44 Rolled Steel TEFC Optim® TEFC Advantage Plus Advantage Plus Optim® TEXP Optim® Oilwell IEEE Ready IEEE 841 A-1 A-3 A-7 A-10 A-14 A-17 MAX-HT Rolled Steel ODP Optim® ODP Global XPE Global TEFC Global ODP A-19 A-23 A-26 A-29 A-32 A-35 Farm Duty Optim® JP Optim® JM Optim® VH A-38 A-40 A-42 A-44 Motor Product Index 1 For more information visit: www.tecowestinghouse.ca or call: 1-800-661-4023 PARTS & ACCESSORIES INDEX PRODUCT SECTION PARTS & ACCESSORIES No. C-Flange Kits - TEFC - Cast-Iron Optim® TEFC / Global XPE 1 Advantage Plus IEEE Ready 1 Advantage Plus IEEE 841 1 C-Flange Kits - ODP - Cast-Iron Optim® ODP 2 C-Flange Kits - TEFC - Rolled Steel Farm Duty 2 Rolled Steel TEFC 2 C-Flange Kits - ODP - Rolled
    [Show full text]
  • Cowern Papers
    COWERN PAPERS EMS, INC. 65 SOUTH TURNPIKE ROAD WALLINGFORD, CT 06492 PHONE: (203) 269-1354 FAX: (203) 269-5485 Enclosed you will find a set of papers that I have written on motor related subjects. For the most part, these have been written in response to customer questions regarding motors. I hope you find them useful and I would appreciate any comments or thoughts you might have for future improvements, corrections or topics. If you should have questions on motors not covered by these papers, please give us a call and we will do our best to handle them for you. Thank you for buying Baldor motors. Sincerely, Edward Cowern, P.E. ENERGY SAVING INDUSTRIAL ELECTRIC MOTORS ABOUT THE AUTHOR Edward H. Cowern, P.E. Ed Cowern is Baldor’s District Manager in New England, U.S.A. and has been since1976. Prior to joining Baldor he was employed by another electric motor company where he gained experience with diversified electric motors and related products. His Baldor office and warehouse are located in Wallingford, Connecticut, near I-91, about 1/2 hour south of Connecticut’s capital, Hartford, and about 15 miles north of Long Island Sound. He is a graduate of the University of Massachusetts where he obtained a BS degree in Electrical Engineering. He is also a registered Professional Engineer in the state of Connecticut, a member of the Institute of Electrical and Electronic Engineer (IEEE), and a member of the Engineering Society of Western Massachusetts. Ed is an excellent and well-known technical writer, having been published many times in technical trade journals such as Machine Design, Design News, Power Transmission Design and Control Engineering.
    [Show full text]
  • WOODWORKING CATALOG Table of Contents
    WOODWORKING CATALOG TABLE OF CONTENTS TABLESAWS .................. 3–11 SHAPERS .....................70-73 BANDSAWS ..................12-21 DRILLING .....................74-78 JOINTERS AND PLANERS ......22-35 SPECIALTY ACCESSORIES .........79 DUST MANAGEMENT ..........36-47 WORKHOLDING .............. 80–84 SANDERS AND ABRASIVES ....48-59 WARRANTY .....................85 GRINDING AND BUFFING ......60-62 AUTHORIZED SERVICE CENTERS .................... 86–90 WOODTURNING ...............63-69 ® JetTools.com 12" XACTA TABLESAW TABLESAWS A E E C D B 708536PK Massive cast iron components and trunnions A. Exclusive XACTA® Fence II D. Industrial Magnetic Controls B. Large Handwheel E. Solid Cast Iron Wings C. Sheet Metal Hinged Motor Cover FEATURES SPECIFICATIONS • EXCLUSIVE 50" commercial XACTA® Fence II with See Available Packages Stock Number T-square design Below • Cast iron wings for a large, flat work surface Model Number JTAS-12 • Three matched V-belts deliver full power to the blade Blade Diameter (in.) 12 Arbor Diameter (in.) 1 • Rail-mounted magnetic switch is easy to reach and provides overload protection Arbor Speed (RPM) 4200 • One-piece closed stand channels dust through a 4" port for fast, Max. Depth of Cut (in.) 4 clean dust collection Max. Depth of Cut at 45 Degrees (in.) 2-7/8 • Large, heavy-duty handwheels help you make precise adjustments Max. Rip Right of Blade (in.) 50 with less effort Max. Rip Left of Blade (in.) 13 • See-through blade guard with splitter and anti-kickback pawls helps Table in Front of Saw Blade at Max. Depth of Cut (in.) 12 protect operator while giving a clear view of the material being cut Max. Width of Dado (in.) 13/16 • Deluxe miter gauge with adjustable positive stops provides large Max.
    [Show full text]
  • Título Do Documento
    Electric Motors NEMA Premium® Efficiency Severe Duty Motor Specification Totally Enclosed Fan Cooled Motor 1 - 700 HP March, 2016 Table of Contents 1.0 Purpose 2.0 Scope 3.0 Motor Requirements 3.1 Applicable Codes and Regulations 3.2 Enclosures 3.3 Motor Terminal Boxes 3.4 Electrical and Mechanical Design Requirements 4.0 Special Application Requirements 4.1 Severe Duty Use 4.2 Hazardous Location Use 4.3 Adjustable Speed Use 5.0 Testing and Final Inspection 5.1 Electrical tests 5.2 Mechanical Inspection 6.0 Sliding Bases 6.1 Application 6.2 Slide Bases 7.0 Vendor Drawings and Data 8.0 Shipping 9.0 Limited Warranty WEG Electric Corp 6655 Sugarloaf Parkway, Duluth, GA 30097– www.weg.net NEMA Premium Efficiency Severe Duty Motor Specification TEFC - Totally Enclosed Fan Cooled Motor 1 - 700 HP 1.0 Purpose The intent of this specification is to work in partnership with Electric Motor suppliers to supply superior quality motors that consistently perform with the highest efficiency, improved life cycle and lowest maintenance cost. The motors are built to provide: (1) safe operation; (2) reliability in an application which may be corrosive and wet; (3) minimum maintenance requirements due to the design and quality of materials and workmanship; (4) lowest noise figure. 2.0 Scope This specification covers three-phase, TEFC (Totally Enclosed Fan Cooled), 1 to 700 horsepower squirrel-cage induction motors in integral horsepower frames 143T to 588/9T. 3.0 Motor Requirements 3.1 Applicable Codes and Regulations Severe Duty NEMA Premium Efficiency motors meet the most demanding application requirements.
    [Show full text]
  • 1. Motors and Alternators A. Leroy Somer B. Marelli 2. Pumps A
    1. Motors and Alternators a. Leroy Somer Inductions Motors Alternators b. Marelli 2. Pumps a. Allweiler pumps b. Garbarino pumps MSP, 155 South Miami Avenue, Suite 210 / Miami, Florida 33130 – USA Tel: +1 (305) 381-9629 / Fax: +1 (305) 381-9633 / WWW.MSP.WS / [email protected] 23 1.a. LEROY SOMER: INDUCTION MOTORS LS single phase TEFV induction motors Single phase TEFV induction motors, Possibilities LS series, in accordance with IEC 34, 38, 72. For applications requiring high power from 0.09 to 5.5 kW starting torque and continuous high Frame size from 56 to 90 mm torque : model "PR" (with electric 2, 4 and 6 poles. relay) up to and including frame size 90. A.C. supply For applications which do not 230 V +10% -10%, 50 Hz require high starting torque : model "P" (with permanent capacitor). Protection Standard IP 55, fully sealed against Individual checks before sending projected liquid and dust in an industrial environment. Routine check (no-load test, dielectric test, check resistors and Winding direction of rotation). standard class F type, formed on automatic Vibration and noise levels in machines to ensure repeat accuracy and accordance with Class N and IEC reliability. 34 9 respectively. Impregnated on automatic production line with tropicalised Class H varnish ensuring Finish correct operation in humid environments (up to 90% relative humidity). Assembled using protected fixing accessories. Rotor RAL 6000 (green) paint finish. squirrel cage, pressure die-cast in Shaft end and flange protected aluminum, ensuring rigidity of turning part, against atmospheric corrosion. balanced dynamically. Individual anti-shock packaging.
    [Show full text]
  • Analytical Modeling of the Multi-Physical Magnetic-Thermal Coupling in the Conceptual Design Phase of a Mechatronic System Yethreb Ben Messaoud
    Analytical modeling of the multi-physical magnetic-thermal coupling in the conceptual design phase of a mechatronic system Yethreb Ben Messaoud To cite this version: Yethreb Ben Messaoud. Analytical modeling of the multi-physical magnetic-thermal coupling in the conceptual design phase of a mechatronic system. Mechanical engineering [physics.class-ph]. Univer- sité Paris Saclay (COmUE), 2018. English. NNT : 2018SACLC079. tel-02058999 HAL Id: tel-02058999 https://tel.archives-ouvertes.fr/tel-02058999 Submitted on 6 Mar 2019 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Modélisation analytique du couplage multi-physique magnétique-thermique dans la phase de préconception : 2018SACLC079 NNT d'un système mécatronique Thèse de doctorat de l'Université Paris-Saclay préparée à CentraleSupélec École doctorale n°573 interfaces : approches interdisciplinaires, fondements, applications et innovation (Interfaces) Spécialité de doctorat : Sciences et technologies industrielles Thèse présentée et soutenue à Saint Ouen, le 17/12/2018, par Mme Yethreb BEN MESSAOUD Composition du Jury : Jean GAUBERT Professeur, Université d'Aix-Marseille (GEII) Président Dimitri GALAYKO Maître de Conférences HDR, Sorbonne Université (LIP6) Rapporteur Mohammed FEHAM Professeur, Université de Tlemcen Rapporteur Cherif LAROUCI Maître de Conférences HDR, ESTACA (ESTACA'Lab) Examinateur Mme.
    [Show full text]
  • Integral AC Motor Selection and Application Guide for Fans
    FAN ENGINEERING Twin City Fan Information and Recommendations for the Engineer FE-800 Integral AC Motor Selection and Application Guide For Fans Introduction conductors, end rings and blower fins. A machined shaft is pressed into the rotor assembly, placed into a lathe and This discussion will focus on 3-phase asynchronous the shaft ends, and rotor diameter machined to their final induction motor selection. Because of the simplicity of dimension. Finally the complete assembly is balanced and operation, ruggedness of construction and low bearings are pressed on each end of the shaft. maintenance, these are the most commonly used motors for industrial fan applications having power requirements Frame and Assembly of one horsepower or greater. The stator assembly is pressed into a steel or cast iron frame, the rotor assembly is placed inside the stator and the end brackets added. The motor is completed with AC Motor Construction the addition of the conduit box, painting and nameplate Shown in Figure 1 is a cutaway view of a typical AC installation. induction motor with the components labeled and the overall assembly indicating the simplicity of construction. Note that there are only two wearing parts – the two Fundamentals bearings. There are no other sliding surfaces such as There is nothing mysterious about the 3-phase, commutators, brushes or collector rings. asynchronous induction motor. All that is required to understand it is common sense and some knowledge of Figure 1. Cutaway View of a Typical AC Induction Motor the fundamentals. NEMA Standards All manufacturers of integral electric motors support and comply with NEMA (National Electrical Manufacturers Association).
    [Show full text]
  • Electric Motors and Variable Frequency Drives (VFD) Reference Guide
    This guide was prepared for the CEATI International Inc. Customer Energy Solutions Interest Group (CESIG) with the sponsorship of the following utility consortium participants: © 2015 CEATI International. All rights reserved. Appreciation to IESO, Ontario Power Generation and others who have contributed material that has been used in preparing this guide. Figure 2-1: AC Motor Family Tree 3 Figure 2-2: DC Motor Family Tree 4 Figure 3-1: Force on a Conductor in a Magnetic Field 8 Figure 3-2: Torque Example 9 Figure 3-3: Typical Torque-Speed Graph 11 Figure 4-1: Development of a Rotating Magnetic Field 13 Figure 4-2: Resulting Fields 14 Figure 4-3: Squirrel Cage 16 Figure 4-4: Torque-Speed Graphs of Design A, B, C, D Motors 17 Figure 4-5: Wound Rotor Induction Motor 19 Figure 4-6: Wound Rotor Torque-Speed Graph for Various External Resistances 20 Figure 4-7: Split Phase Motor 24 Figure 4-8: Capacitor Start Motor 26 Figure 4-9: Capacitor Start – Capacitor Run Motor 27 Figure 4-10: Capacitor Run Motor 28 Figure 4-11: Shaded Pole Motor 29 Figure 4-12: Exciter for Brushless Synchronous Motor 31 Figure 4-13: Non-Excited Synchronous Motor Rotor 32 Figure 4-14: Single Phase Reluctance Motor 34 Figure 4-15: Hysterisis Motor 35 Figure 4-16: Universal Motor 37 Figure 5-1: Torque Production in a DC Motor 40 Figure 5-2: Separately Excited DC Motor 41 Figure 5-3: Series Field Motor 42 Figure 5-4: Compound DC Motor 43 Figure 5-5: Permanent Magnet DC Motor 44 Figure 6-1: Electronically Commutated Motor (ECM) 45 Figure 6-2: Written Pole Motor 49 Figure 6-3: Hybrid Motor 50 Figure 7-1: 3-phase Squirrel Cage Induction Motors Derating Factor Due to Unbalanced Voltage 54 Figure 7-2: Power Factor Triangle 56 Figure 7-3: Voltage Flicker Curve 57 Figure 7-4: Voltage Flicker Curve - Example 59 Figure 7-5: Repeating Duty Cycle Curve 67 Figure 7-6: Insulation Life vs.
    [Show full text]