AC Induction Motor Slip What It Is And How To Minimize It
|
|
- Blaise Wheeler
- 7 years ago
- Views:
Transcription
1 AC Induction Motor Slip What It Is And How To Minimize It Mauri Peltola, ABB Oy, Helsinki, Finland The alternating current (AC) induction motor is often referred to as the workhorse of the industry because it offers users simple, rugged construction, easy maintenance and cost-effective pricing. As a result of these factors, more than 90 percent of motors installed worldwide are AC induction. Despite its popularity, the AC induction motor has two limitations: It is not a constant-speed machine, and it is not inherently capable of providing variable-speed operation. Both limitations require consideration, as the quality and accuracy requirements of motor/drive applications continue to increase. Figure 1. Cutaway of squirrel cage AC induction motor opened to show the stator and rotor construction, the shaft with bearings and the cooling fan Motor Slip Is Necessary For Torque Generation An AC induction motor consists of two assemblies,stator and rotor. The stator structure is composed of steel laminations shaped to form poles. Copper wire coils are wound around these poles. These primary windings are connected to a voltage source to produce a rotating magnetic field. Three-phase motors with windings spaced 120 electrical degrees apart are standard for industrial, commercial and residential use. The rotor is another assembly made of laminations over a steel shaft core. Radial slots around the laminations' periphery house rotor bars,cast-aluminum or copper conductors shorted at the ends and positioned parallel to the shaft. Arrangement of the rotor bars resembles a squirrel cage; hence, the term squirrel-cage induction motor. The name "induction motor" comes from the AC "induced" into the rotor via the rotating magnetic flux produced in the stator. The interaction of currents flowing in the rotor bars and the stators' rotating magnetic field generate torque. In actual operation, rotor speed always lags the magnetic field's speed, allowing the rotor bars to cut magnetic lines of force and produce useful torque. This speed difference is called slip speed. Slip also increases with load and is necessary for torque production. Slip Depends On Motor Parameters The formal definition of slip is:
2 S = (ns, n) x 100 percent/ns, where ns = synchronous speed n = actual speed At low values, slip is directly proportional to the rotor resistance, stator voltage frequency and load torque, and inversely proportional to the second power of supply voltage. The traditional way to control wound-rotor-induction-motor speed is to increase slip by adding resistance in the rotor circuit. The slip of low-hp motors is higher than that of high-hp motors because rotor-winding resistance is greater in smaller motors. As seen in Table 1, smaller and lower-speed motors are associated with higher relative slip. However, high-slip large motors and low-slip small motors also are available. Table 1. Motor slip of selected aluminium and cast iron NEMA motors, with synchronous speed ranging from 3600 RPM to 900 RPM As one can see, full-load slip varies from less than 1 percent (in high-hp motors) to more than 5 percent (in fractional-hp motors). These variations may cause load-sharing problems when motors of different sizes are connected mechanically. At low load, the sharing is about correct; but at full load, the motor with lower slip takes a higher share of the load than the motor with higher slip. As shown in Figure 2, rotor speed decreases in proportion to load torque. This means that rotor slip increases in the same proportion. Key: A = Synchronous speed B = Rotor speed C = Rotor slip
3 D = Torque Figure 2. The speed curve of an induction motor. Slip is the difference in rotor speed relative to that of the synchronous speed. CD = AD, BD = AB. Relatively high rotor impedance is required for good across-the-line (full voltage) starting performance (meaning high torque against low current), and low rotor impedance is necessary for low full-load speed slip and high operating efficiency. The curves in Figure 3 show how greater rotor impedance in motor B reduces the starting current and increases the starting torquebut it causes a greater slip than in standard motor A. Figure 3. Torque/speed and current/speed curves for a standard motor A (full lines) and a hightorque motor B (dotted lines). Methods To Reduce Slip Synchronous motors, reluctance motors or permanent-magnet motors don't slip. Synchronous motors commonly are used for very high-power and very low-power applications, but to a lesser extent in the medium-hp range, where many typical industrial applications are found. Reluctance
4 motors also are used, but their output/weight ratio is not good and, therefore, they are less competitive than squirrel-cage induction motors. Permanent magnet (PM) motors, which are used with electronic adjustable-speed drives, provide benefits such as accurate speed control without slip, high efficiency with low rotor losses and the flexibility of choosing a very low base speed, eliminating the need for gearboxes. PM motors are limited to special applications, mainly because of high cost and the lack of standardization. Figure 4. The effect of the slip compensation. Selecting an oversized AC induction motor also reduces slip. Larger motors exhibit less slip, and it gets smaller with a partial (rather than full) motor load. For example, refer to Table 1. The required power is 10 hp at about 1,800 rpm and 1.5 percent speed accuracy is required. We know that a 10-hp motor has a slip of 4.4 percent. Can we achieve an accuracy of 1.5 percent with a 15-hp motor? Answer: The full-load slip of the 15-hp motor is 2.2 percent, but the load is only 10/15 = The slip will be 67 percent of 2.2 and equals 1.47 percent, which fulfils the requirements. A disadvantage to oversizing is that larger motors consume more energy, increasing investment and operation costs. Applying An Adjustable-Speed AC Drive Is Often The Best Solution Using adjustable-speed control can solve AC induction motor limitations. The most common AC drives use pulse-width modulation (PWM). Line voltage is rectified, filtered and converted to a variable voltage and frequency. When frequency-converter ouput is connected to an AC motor, it's possible to adjust motor speed. When an AC drive is used to adjust motor speed, motor slip is no longer a problem in many applications. A number of drive applications still exist, including printing machines, extruders, paper machines, cranes and elevators, in which high static speed accuracy, dynamic speed accuracy or both are required.
5 Rather than over sizing the motors to eliminate the slip-induced speed error, it may be better to use sectional drive line-ups with separate inverters for each motor. The inverters are connected to a direct current (DC)-voltage bus bar supplied by a common rectifier. This is an energy-efficient solution because the driving sections use the braking energy from decelerating sections (regeneration). To reduce motor slip, compensation can be added to AC drives. A load torque signal is added to the speed controller to increase the output frequency in proportion to the load. (Slip compensation cannot be 100 percent of the slip because rotor temperature variations cause over-compensation and unstable control.) But the compensation can achieve an accuracy as great as 80 percent, reducing slip from 2.4 percent to 0.5 percent. Figure 5. Block diagram of Direct Torque Control, DTC Vector And Direct Torque Control Improve Speed Control The newest high-performance technologies in adjustable-speed drives field are vector control and direct torque control (DTC). Both use some type of motor model and suitable control algorithms to control torque and flux, rather than the voltage and frequency parameters used in PWM drives. The difference between traditional vector control and DTC is that the latter has no fixed switching pattern for each voltage cycle. DTC switches, instead, the inverter according to the load 40,000 times per sec. This makes DTC especially fast during instant load changes and minimizes the need for and effect of dramatic speed changes once the load or process is in operation. What Is DTC? DTC is an optimized AC drives control principle, in which inverter switching directly controls flux and motor torque. The input variables for DTC are motor current and DC link and voltage. The voltage is defined from the DC-bus voltage and inverter switch positions. The voltage and current signals are inputs to an accurate motor model, which updates stator flux and torque every 25 microseconds.
6 Two-level motor torque and flux comparators compare the actual values to the reference values produced by torque and flux reference controllers. The outputs from these two-level controllers are updated every 25 microseconds, and they indicate whether the torque or flux must be changed. Depending on the outputs from the two-level controllers, the switching logic optimizes inverter switch positions. This means that each single voltage pulse is determined separately at "atomic level." The inverter switch positions determine motor voltage and current, which, in turn, influence the motor torque and flux (this closed loop control eliminates the need for encoders in many applications). The reason DTC control reacts faster than PWM control is shown in Figure 6. The motor is running with low load at point A and the load has a stepwise increase to high load. The higher torque with the PWM control is achieved by reducing speed from A to B, which is quite slow. The higher torque with the DTC control is achieved by direct increase of torque from A to C about 10 times faster than that of PWM control. Figure 6. Comparison between PWM modulation and DTC drive control during load impact: A to B with PWM control and A to C with DTC control. Slip compensation with DTC is instantaneous and produces a nominal slip of 10 percent. This translates into a speed accuracy of 0.1 percent to 0.5 percent. This enables DTC drive use in many applications where a tachometer-based vector control was needed previously. For applications demanding an even higher accuracy, it's possible to add a pulse encoder to a DTC drive. Mauri Peltola is the former marketing manager of ABB Oy, Drives in Helsinki, Finland. He can be reached at Mauri.Peltola@fi.abb.com.
Principles of Adjustable Frequency Drives
What is an Adjustable Frequency Drive? An adjustable frequency drive is a system for controlling the speed of an AC motor by controlling the frequency of the power supplied to the motor. A basic adjustable
More informationMotor Fundamentals. DC Motor
Motor Fundamentals Before we can examine the function of a drive, we must understand the basic operation of the motor. It is used to convert the electrical energy, supplied by the controller, to mechanical
More informationUnit 33 Three-Phase Motors
Unit 33 Three-Phase Motors Objectives: Discuss the operation of wound rotor motors. Discuss the operation of selsyn motors. Discuss the operation of synchronous motors. Determine the direction of rotation
More informationFREQUENCY CONTROLLED AC MOTOR DRIVE
FREQUENCY CONTROLLED AC MOTOR DRIVE 1.0 Features of Standard AC Motors The squirrel cage induction motor is the electrical motor motor type most widely used in industry. This leading position results mainly
More informationSECTION 4 ELECTRIC MOTORS UNIT 17: TYPES OF ELECTRIC MOTORS
SECTION 4 ELECTRIC MOTORS UNIT 17: TYPES OF ELECTRIC MOTORS UNIT OBJECTIVES After studying this unit, the reader should be able to Describe the different types of open single-phase motors used to drive
More informationSpeed Control Methods of Various Types of Speed Control Motors. Kazuya SHIRAHATA
Speed Control Methods of Various Types of Speed Control Motors Kazuya SHIRAHATA Oriental Motor Co., Ltd. offers a wide variety of speed control motors. Our speed control motor packages include the motor,
More information2. A conductor of length 2m moves at 4m/s at 30 to a uniform magnetic field of 0.1T. Which one of the following gives the e.m.f. generated?
Extra Questions - 2 1. A straight length of wire moves through a uniform magnetic field. The e.m.f. produced across the ends of the wire will be maximum if it moves: a) along the lines of magnetic flux
More information8 Speed control of Induction Machines
8 Speed control of Induction Machines We have seen the speed torque characteristic of the machine. In the stable region of operation in the motoring mode, the curve is rather steep and goes from zero torque
More informationDHANALAKSHMI COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING EE2302 - ELECTRICAL MACHINES II UNIT-I SYNCHRONOUS GENERATOR
1 DHANALAKSHMI COLLEGE OF ENGINEERING DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING Constructional details Types of rotors EE2302 - ELECTRICAL MACHINES II UNIT-I SYNCHRONOUS GENERATOR PART A 1.
More informationHow to Turn an AC Induction Motor Into a DC Motor (A Matter of Perspective) Steve Bowling Application Segments Engineer Microchip Technology, Inc.
1 How to Turn an AC Induction Motor Into a DC Motor (A Matter of Perspective) Steve Bowling Application Segments Engineer Microchip Technology, Inc. The territory of high-performance motor control has
More informationTechnical Guide No. 100. High Performance Drives -- speed and torque regulation
Technical Guide No. 100 High Performance Drives -- speed and torque regulation Process Regulator Speed Regulator Torque Regulator Process Technical Guide: The illustrations, charts and examples given in
More informationWIND TURBINE TECHNOLOGY
Module 2.2-2 WIND TURBINE TECHNOLOGY Electrical System Gerhard J. Gerdes Workshop on Renewable Energies November 14-25, 2005 Nadi, Republic of the Fiji Islands Contents Module 2.2 Types of generator systems
More informationLab 14: 3-phase alternator.
Lab 14: 3-phase alternator. Objective: to obtain the no-load saturation curve of the alternator; to determine the voltage regulation characteristic of the alternator with resistive, capacitive, and inductive
More informationEquipment: Power Supply, DAI, Wound rotor induction motor (8231), Electrodynamometer (8960), timing belt.
Lab 13: Wound rotor induction motor. Objective: to examine the construction of a 3-phase wound rotor induction motor; to understand exciting current, synchronous speed and slip in this motor; to determine
More informationNO LOAD & BLOCK ROTOR TEST ON THREE PHASE INDUCTION MOTOR
INDEX NO. : M-142 TECHNICAL MANUAL FOR NO LOAD & BLOCK ROTOR TEST ON THREE PHASE INDUCTION MOTOR Manufactured by : PREMIER TRADING CORPORATION (An ISO 9001:2000 Certified Company) 212/1, Mansarover Civil
More information13 ELECTRIC MOTORS. 13.1 Basic Relations
13 ELECTRIC MOTORS Modern underwater vehicles and surface vessels are making increased use of electrical actuators, for all range of tasks including weaponry, control surfaces, and main propulsion. This
More informationDIRECT CURRENT GENERATORS
DIRECT CURRENT GENERATORS Revision 12:50 14 Nov 05 INTRODUCTION A generator is a machine that converts mechanical energy into electrical energy by using the principle of magnetic induction. This principle
More informationEquipment: Power Supply, DAI, Synchronous motor (8241), Electrodynamometer (8960), Tachometer, Timing belt.
Lab 9: Synchronous motor. Objective: to examine the design of a 3-phase synchronous motor; to learn how to connect it; to obtain its starting characteristic; to determine the full-load characteristic of
More informationAND8008/D. Solid State Control Solutions for Three Phase 1 HP Motor APPLICATION NOTE
Solid State Control Solutions for Three Phase 1 HP Motor APPLICATION NOTE INTRODUCTION In all kinds of manufacturing, it is very common to have equipment that has three phase motors for doing different
More informationBasics of Electricity
Basics of Electricity Generator Theory PJM State & Member Training Dept. PJM 2014 8/6/2013 Objectives The student will be able to: Describe the process of electromagnetic induction Identify the major components
More informationAC Motor Speed. n s = synchronous speed (in RPM), f = frequency (in Hz), and p = the number of poles
AC Induction Motors Simplest and most rugged electric motor Consists of wound stator and rotor assembly AC in the primary member (stator) induces current in the secondary member (rotor) Combined electromagnetic
More informationDC GENERATOR THEORY. LIST the three conditions necessary to induce a voltage into a conductor.
DC Generators DC generators are widely used to produce a DC voltage. The amount of voltage produced depends on a variety of factors. EO 1.5 LIST the three conditions necessary to induce a voltage into
More informationIntroduction. Three-phase induction motors are the most common and frequently encountered machines in industry
Induction Motors Introduction Three-phase induction motors are the most common and frequently encountered machines in industry - simple design, rugged, low-price, easy maintenance - wide range of power
More informationELECTRICAL ENGINEERING Vol. III - Induction Motor and Self-Excited Induction Generator - Tze-Fun Chan
INDUCTION MOTOR AND SELFEXCITED INDUCTION GENERATOR TzeFun Chan The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong, China Keywords: threephase induction motor, singlephase induction motor,
More information*ADVANCED ELECTRIC GENERATOR & CONTROL FOR HIGH SPEED MICRO/MINI TURBINE BASED POWER SYSTEMS
*ADVANCED ELECTRIC GENERATOR & CONTROL FOR HIGH SPEED MICRO/MINI TURBINE BASED POWER SYSTEMS Jay Vaidya, President Electrodynamics Associates, Inc. 409 Eastbridge Drive, Oviedo, FL 32765 and Earl Gregory,
More informationPulse Width Modulated (PWM) Drives. AC Drives Using PWM Techniques
Drives AC Drives Using PWM Techniques Power Conversion Unit The block diagram below shows the power conversion unit in Pulse Width Modulated (PWM) drives. In this type of drive, a diode bridge rectifier
More informationMotors and Generators
Motors and Generators Electro-mechanical devices: convert electrical energy to mechanical motion/work and vice versa Operate on the coupling between currentcarrying conductors and magnetic fields Governed
More informationUSE OF ARNO CONVERTER AND MOTOR-GENERATOR SET TO CONVERT A SINGLE-PHASE AC SUPPLY TO A THREE-PHASE AC FOR CONTROLLING THE SPEED OF A THREE-PHASE INDUCTION MOTOR BY USING A THREE-PHASE TO THREE-PHASE CYCLOCONVERTER
International Journal of Electrical Engineering & Technology (IJEET) Volume 7, Issue 2, March-April, 2016, pp.19-28, Article ID: IJEET_07_02_003 Available online at http:// http://www.iaeme.com/ijeet/issues.asp?jtype=ijeet&vtype=7&itype=2
More informationSYNCHRONOUS MACHINES
SYNCHRONOUS MACHINES The geometry of a synchronous machine is quite similar to that of the induction machine. The stator core and windings of a three-phase synchronous machine are practically identical
More informationSynchronous motor. Type. Non-excited motors
Synchronous motor A synchronous electric motor is an AC motor in which the rotation rate of the shaft is synchronized with the frequency of the AC supply current; the rotation period is exactly equal to
More informationWhite Paper. DTC A motor control technique for all seasons
White Paper DTC A motor control technique for all seasons DTC A motor control technique for all seasons Variable-speed drives (VSDs) have enabled unprecedented performance in electric motors and delivered
More informationIntroduction. Upon completion of Basics of AC Motors you should be able to:
Table of Contents Introduction...2 AC Motors...4 Force and Motion...6 AC Motor Construction... 12 Magnetism... 17 Electromagnetism... 19 Developing a Rotating Magnetic Field...24 Rotor Rotation...29 Motor
More informationPulse Width Modulated (PWM)
Control Technologies Manual PWM AC Drives Revision 1.0 Pulse Width Modulated (PWM) Figure 1.8 shows a block diagram of the power conversion unit in a PWM drive. In this type of drive, a diode bridge rectifier
More informationPrinciples and Working of DC and AC machines
BITS Pilani Dubai Campus Principles and Working of DC and AC machines Dr Jagadish Nayak Constructional features BITS Pilani Dubai Campus DC Generator A generator consists of a stationary portion called
More informationTHIS paper reports some results of a research, which aims to investigate the
FACTA UNIVERSITATIS (NIŠ) SER.: ELEC. ENERG. vol. 22, no. 2, August 2009, 227-234 Determination of Rotor Slot Number of an Induction Motor Using an External Search Coil Ozan Keysan and H. Bülent Ertan
More informationAC generator theory. Resources and methods for learning about these subjects (list a few here, in preparation for your research):
AC generator theory This worksheet and all related files are licensed under the Creative Commons Attribution License, version 1.0. To view a copy of this license, visit http://creativecommons.org/licenses/by/1.0/,
More informationAC Generators and Motors
AC Generators and Motors Course No: E03-008 Credit: 3 PDH A. Bhatia Continuing Education and Development, Inc. 9 Greyridge Farm Court Stony Point, NY 10980 P: (877) 322-5800 F: (877) 322-4774 info@cedengineering.com
More informationThree-Phase Induction Motor
EXPERIMENT Induction motor Three-Phase Induction Motors 208V LL OBJECTIVE This experiment demonstrates the performance of squirrel-cage induction motors and the method for deriving electrical equivalent
More informationRotating Machinery Diagnostics & Instrumentation Solutions for Maintenance That Matters www.mbesi.com
13 Aberdeen Way Elgin, SC 29045 Cell (803) 427-0791 VFD Fundamentals & Troubleshooting 19-Feb-2010 By: Timothy S. Irwin, P.E. Sr. Engineer tsi@mbesi.com Rotating Machinery Diagnostics & Instrumentation
More informationInduction Motor Theory
PDHonline Course E176 (3 PDH) Induction Motor Theory Instructor: Jerry R. Bednarczyk, P.E. 2012 PDH Online PDH Center 5272 Meadow Estates Drive Fairfax, VA 22030-6658 Phone & Fax: 703-988-0088 www.pdhonline.org
More informationSPEED CONTROL OF INDUCTION MACHINE WITH REDUCTION IN TORQUE RIPPLE USING ROBUST SPACE-VECTOR MODULATION DTC SCHEME
International Journal of Advanced Research in Engineering and Technology (IJARET) Volume 7, Issue 2, March-April 2016, pp. 78 90, Article ID: IJARET_07_02_008 Available online at http://www.iaeme.com/ijaret/issues.asp?jtype=ijaret&vtype=7&itype=2
More informationModelling, Simulation and Performance Analysis of A Variable Frequency Drive in Speed Control Of Induction Motor
International Journal of Engineering Inventions e-issn: 78-7461, p-issn: 319-6491 Volume 3, Issue 5 (December 013) PP: 36-41 Modelling, Simulation and Performance Analysis of A Variable Frequency Drive
More informationCHAPTER 4 DESIGN OF INTEGRAL SLOT AND FRACTIONAL SLOT BRUSHLESS DC MOTOR
47 CHAPTER 4 DESIGN OF INTEGRAL SLOT AND FRACTIONAL SLOT BRUSHLESS DC MOTOR 4.1 INTRODUCTION This chapter deals with the design of 24 slots 8 poles, 48 slots 16 poles and 60 slots 16 poles brushless dc
More informationDrives Low Voltage. Adjustable Frequency. Adjustable Frequency Drives Low Voltage 32.0-1. Contents
June 2006 Sheet 17.0-1 Adjustable Frequency Drives Low Voltage Contents Application Guide Basic Motor and Adjustable Frequency Drive Theory..................0-2 AC Motors...................................................0-2
More informationVariable Frequency Drives - a Comparison of VSI versus LCI Systems
Variable Frequency Drives - a Comparison of VSI versus LCI Systems Introduction TMEIC is a leader in the innovative design and manufacture of large ac variable f requency drive systems. TMEIC has been
More informationSimulation of VSI-Fed Variable Speed Drive Using PI-Fuzzy based SVM-DTC Technique
Simulation of VSI-Fed Variable Speed Drive Using PI-Fuzzy based SVM-DTC Technique B.Hemanth Kumar 1, Dr.G.V.Marutheshwar 2 PG Student,EEE S.V. College of Engineering Tirupati Senior Professor,EEE dept.
More informationLab 8: DC generators: shunt, series, and compounded.
Lab 8: DC generators: shunt, series, and compounded. Objective: to study the properties of DC generators under no-load and full-load conditions; to learn how to connect these generators; to obtain their
More informationTamura Closed Loop Hall Effect Current Sensors
Tamura Closed Loop Hall Effect Current Sensors AC, DC, & Complex Currents Galvanic Isolation Fast Response Wide Frequency Bandwidth Quality & Reliability RoHs Compliance Closed Loop Hall Effect Sensors
More informationUnderstanding the Alternator
http://www.autoshop101.com THIS AUTOMOTIVE SERIES ON ALTERNATORS HAS BEEN DEVELOPED BY KEVIN R. SULLIVAN PROFESSOR OF AUTOMOTIVE TECHNOLOGY AT SKYLINE COLLEGE SAN BRUNO, CALIFORNIA ALL RIGHTS RESERVED
More informationEET272 Worksheet Week 9
EET272 Worksheet Week 9 answer questions 1-5 in preparation for discussion for the quiz on Monday. Finish the rest of the questions for discussion in class on Wednesday. Question 1 Questions AC s are becoming
More informationIV. Three-Phase Induction Machines. Induction Machines
IV. Three-Phase Induction Machines Induction Machines 1 2 3 4 5 6 7 8 9 10 11 12 13 Example 1: A 480V, 60 Hz, 6-pole, three-phase, delta-connected induction motor has the following parameters: R 1 =0.461
More information1150 hp motor design, electromagnetic and thermal analysis
115 hp motor design, electromagnetic and thermal analysis Qasim Al Akayshee 1, and David A Staton 2 1 Mawdsley s Ltd., The Perry Centre, Davey Close, Waterwells, Gloucester GL2 4AD phone: +44 1452 888311
More informationHow the efficiency of induction motor is measured?
How the efficiency of induction motor is measured? S. Corino E. Romero L.F. Mantilla Department of Electrical Engineering and Energy E.T.S.I.I. y T. Universidad de Cantabria Avda de Los Castros, 395 Santander
More informationSimulation and Analysis of PWM Inverter Fed Induction Motor Drive
Simulation and Analysis of PWM Inverter Fed Induction Motor Drive C.S.Sharma, Tali Nagwani Abstract Sinusoidal Pulse Width Modulation variable speed drives are increasingly applied in many new industrial
More informationLine Reactors and AC Drives
Line Reactors and AC Drives Rockwell Automation Mequon Wisconsin Quite often, line and load reactors are installed on AC drives without a solid understanding of why or what the positive and negative consequences
More informationApplication Information
Moog Components Group manufactures a comprehensive line of brush-type and brushless motors, as well as brushless controllers. The purpose of this document is to provide a guide for the selection and application
More informationOn the Influence of Stator Slot shape on the Energy Conservation Associated with the Submersible Induction Motors
American Journal of Applied Sciences 8 (4): 393-399, 2011 ISSN 1546-9239 2010 Science Publications On the Influence of Stator Slot shape on the Energy Conservation Associated with the Submersible Induction
More informationHow to Optimize Performance and Minimize Size in High Speed Applications High Performance Brushless DC Motors
thinkmotion How to Optimize Performance and Minimize Size in High Speed Applications High Performance Brushless DC Motors I. Introduction II. III. IV. Optimization of a Brushless DC motor for high speed
More informationOutline. Turbine Generators. Generator History 3/25/2014
Turbine Generators Andrew Kusiak 2139 Seamans Center Iowa City, Iowa 52242-1527 andrew-kusiak@uiowa.edu Tel: 319-335-5934 Fax: 319-335-5669 http://www.icaen.uiowa.edu/~ankusiak Outline Generators Synchronous
More informationWHITE PAPER. DC Motors Explained. DC Motors Explained: White Paper, Title Page
DC Motors Explained: White Paper, Title Page DC Motors Explained By Joe Kimbrell, Product Manager, Drives, Motors & Motion, AutomationDirect DC Motors Explained: White Paper, pg. 2 How many types of DC
More informationWound Rotor Induction Motors 4-12 poles, up to 8000 kw, 11500 HP
Wound Rotor Induction Motors 4-12 poles, up to 8000 kw, 11500 HP ABB The Preferred Partner Egypt Cement Corporation, a major cement manufacturer, has chosen ABB wound rotor motors for all key applications
More informationSpecifying a Variable Frequency Drive s
Specifying a Variable Frequency Drive s Put on by Bruce Reeves and Jeremy Gonzales Dykman Electrical Covering the Western US For all of your VFD and Soft Start and Motor Needs How To Specify a Variable
More informationSpeed Control Motors. Speed Control Motors. Brushless Motor's Structure and Principle of Operation H-40. Structure of Brushless Motor
Speed Control Speed Control Brushless Motor's Structure and Principle of Operation Structure of Brushless Motor Ball Bearing Shaft Brushless motors have built-in magnetic component or optical encoder for
More informationC Standard AC Motors
C Standard AC Standard AC C-1 Overview, Product Series... C-2 Constant... C-9 C-21 C-113 Reversible C-147 Overview, Product Series Constant Reversible Electromagnetic Brake C-155 Electromagnetic Brake
More informationINDUCTION MOTOR PERFORMANCE TESTING WITH AN INVERTER POWER SUPPLY, PART 2
INDUCTION MOTOR PERFORMANCE TESTING WITH AN INVERTER POWER SUPPLY, PART 2 By: R.C. Zowarka T.J. Hotz J.R. Uglum H.E. Jordan 13th Electromagnetic Launch Technology Symposium, Potsdam (Berlin), Germany,
More informationControl of Motor Characteristics by Squirrel-Cage Rotor Design
394 CHAPTER 7 INDUCTION MOTORS Control of Motor Characteristics by Squirrel-Cage Rotor Design The reactance X 2 in an induction motor equivalent circuit represents the referred form of the rotor s leakage
More informationLOSSELESS STARTING METHOD FOR THE WOUND ROTOR INDUCTION MOTOR
LOSSELESS STARTING METHOD FOR THE WOUND ROTOR INDUCTION MOTOR Sergiu Ivanov Mihai Rdulescu University of Craiova, Romania INDA Craiova Faculty of Electrical Engineering 30, Mr#e#ti Street 107, Decebal
More informationDevelopment of the Induction Motor for Machine Tool Spindles and Servo Amplifier SANMOTION S
New Products Introduction Development of the Induction Motor for Machine Tool Spindles and Servo Amplifier SANMOTION S Takashi Sekiguchi Masahiro Kidou Yuusuke Shimura Yuji Ide Masahisa Koyama Michio Kitahara
More informationADJUSTABLE FREQUENCY DRIVES APPLICATION GUIDE
ADJUSTABLE FREQUENCY DRIVES APPLICATION GUIDE Adjustable Frequency Drives Application Guide Table of Contents Introduction....................................................................................
More informationTechnology for Next-generation Reduced-size High-performance Inverter
Technology for Next-generation Reduced-size High-performance Inverter 28 Technology for Next-generation Reduced-size High-performance Inverter Naoki Kurihara Shuichi Tachihara Kenhachiro Minamide Satoshi
More informationPower Quality Paper #3
The Effect of Voltage Dips On Induction Motors by: M D McCulloch 1. INTRODUCTION Voltage depressions caused by faults on the system affect the performance of induction motors, in terms of the production
More informationWe will discuss common industrial applications with guides for the proper use of electric motors on these.
INTRODUCTION: Baldor Electric Company has prepared this Specifiers Guide to help you cover all the bases when you are specifying electric motors. It will cover in a generic way most of the subjects which
More informationKeywords: synchronous generator, synchronous motor, automatic voltage regulator, V- curves, synchronizing power, hunting, excitation system
SYNCHRONOUS MACHINES Tze-Fun Chan Hong Kong Polytechnic University, Hong Kong, China Keywords: synchronous generator, synchronous motor, automatic voltage regulator, V- curves, synchronizing power, hunting,
More informationELECTRICAL ENGINEERING
ELECTRICAL ENGINEERING The master degree programme of Teacher Training in Electronical Engineering is designed to develop graduates competencies in the field of Curriculum Development and Instructional
More informationModeling and Simulation of a Novel Switched Reluctance Motor Drive System with Power Factor Improvement
American Journal of Applied Sciences 3 (1): 1649-1654, 2006 ISSN 1546-9239 2006 Science Publications Modeling and Simulation of a Novel Switched Reluctance Motor Drive System with Power Factor Improvement
More informationSYNCHRONOUS MACHINE TESTING WITH MOTOR CIRCUIT ANALYSIS INSTRUMENTATION
SYNCHRONOUS MACHINE TESTING WITH MOTOR CIRCUIT ANALYSIS INSTRUMENTATION Introduction Howard W. Penrose, Ph.D., CMRP Vice President, Engineering and Reliability Services Dreisilker Electric Motors, Inc.
More informationEquipment: Power Supply, DAI, Universal motor (8254), Electrodynamometer (8960), timing belt.
Lab 12: The universal motor. Objective: to examine the construction of the universal motor; to determine its no-load and full-load characteristics while operating on AC; to determine its no-load and full-load
More informationEnhancing the Design of Electric Machines through the Interaction of Software Tools. Markus Anders Electric machine sector manager CD-adpaco
Enhancing the Design of Electric Machines through the Interaction of Software Tools Markus Anders Electric machine sector manager CD-adpaco Outline Part I: SPEED and STAR-CCM+ Enhancing the thermal design
More informationDiscover the power of e-learning! The Quick Guide to AC Variable Frequency
The Quick Guide to AC Variable Frequency This ebook is meant as an easy guide to any electrical or electronic engineer or technician, who would like to know how modern ac variable frequency drives work.
More informationWhat Is Regeneration?
What Is Regeneration? Braking / Regeneration Manual Regeneration Overview Revision 1.0 When the rotor of an induction motor turns slower than the speed set by the applied frequency, the motor is transforming
More informationModule Title: Electrotechnology for Mech L7
CORK INSTITUTE OF TECHNOLOGY INSTITIÚID TEICNEOLAÍOCHTA CHORCAÍ Autumn Examinations 2012 Module Title: Electrotechnology for Mech L7 Module Code: ELEC7007 School: School of Mechanical, Electrical and Process
More informationBasics electronic speed Governor
Basics electronic speed Governor 1 MAN B&W Diesel Aktiengesellschaft, Augsburg Why do we need Governors? Power sources must be controlled to be converted to useful work. Uncontrolled prime movers, not
More informationE&I MAINTENANCE ENTRY TEST ENABLING OBJECTIVES. DESCRIBE hazards and precautions taken to avoid injury in the workplace.
SAFETY Industrial DESCRIBE hazards and precautions taken to avoid injury in the workplace. Example #1: All of the following are common PPE used to perform maintenance activities EXCEPT: a. Safety Glasses
More informationDrive circuit basics + V. τ e. Industrial Circuits Application Note. Winding resistance and inductance
ndustrial Circuits Application Note Drive circuit basics For a given size of a stepper motor, a limited space is available for the windings. n the process of optimizing a stepper motor drive system, an
More informationDirect Current Motors
Direct Current Motors DC MOTORS The DC machine can operate as a generator and as a motor. Chap 5. Electrical Machines by Wildi, 6 e Lecturer: R. Alba-Flores Alfred State College Spring 2008 When a DC machine
More informationAPPLICATION GUIDELINE FOR ELECTRIC MOTOR DRIVE EQUIPMENT FOR NATURAL GAS COMPRESSORS
APPLICATION GUIDELINE FOR ELECTRIC MOTOR DRIVE EQUIPMENT FOR NATURAL GAS COMPRESSORS RELEASE VERSION 4.0 May 2009 Gas Machinery Research Council Southwest Research Institute APPLICATION GUIDELINE FOR ELECTRIC
More informationHow To Understand And Understand The Electrical Power System
DOE-HDBK-1011/4-92 JUNE 1992 DOE FUNDAMENTALS HANDBOOK ELECTRICAL SCIENCE Volume 4 of 4 U.S. Department of Energy Washington, D.C. 20585 FSC-6910 Distribution Statement A. Approved for public release;
More information8022-0E Motor Winding Kit
8022-0E Motor Winding Kit LabVolt Series Datasheet Festo Didactic en 220 V - 60 Hz 06/2016 Table of Contents General Description 2 Optional Equipment Required to Operate the Rotating Machines 3 Features
More informationThe VOLTECH HANDBOOK of PWM MOTOR DRIVES. Andrew Tedd
The VOLTECH HANDBOOK of PWM MOTOR DRIVES Andrew Tedd Product: App-Note 108 Issue 1.0 VPN: 86-646 Contents 1. Introduction... 3 2. Principles of PWM motor drives... 7 3. Characteristics of PWM motor drive...
More informationELECTRODYNAMICS 05 AUGUST 2014
ELECTRODYNAMICS 05 AUGUST 2014 In this lesson we: Lesson Description Discuss the motor effect Discuss how generators and motors work. Summary The Motor Effect In order to realise the motor effect, the
More informationBALDOR ELECTRIC COMPANY SERVO CONTROL FACTS A HANDBOOK EXPLAINING THE BASICS OF MOTION
BALDOR ELECTRIC COMPANY SERVO CONTROL FACTS A HANDBOOK EXPLAINING THE BASICS OF MOTION MN1205 TABLE OF CONTENTS TYPES OF MOTORS.............. 3 OPEN LOOP/CLOSED LOOP..... 9 WHAT IS A SERVO..............
More informationData Sheet. AC Industrial Electric Motors
Data Pack B Issued ovember 2005 1502325812 Data Sheet AC Industrial Electric Motors Standards organisations The RS-ABB range of ac induction motors is produced to common European standards, these being
More informationChen. Vibration Motor. Application note
Vibration Motor Application note Yangyi Chen April 4 th, 2013 1 Table of Contents Pages Executive Summary ---------------------------------------------------------------------------------------- 1 1. Table
More informationUnderstanding Variable Speed Drives
Understanding Variable Speed Drives April 1, 1997 Solomon S. Turkel, Solomon S. When applied properly, the variable frequency drive (VFD) is the most effective motor controller in the industry today. Modern
More informationchapter6 Electrical machines and motors Unit 1 outcome 6
Electrical machines and motors chapter6 Unit 1 outcome 6 The principles of magnetism are central to many of the tasks you will carry out as an electrician. Magnetism, like gravity, is a fundamental force.
More informationSimple Analysis for Brushless DC Motors Case Study: Razor Scooter Wheel Motor
Simple Analysis for Brushless DC Motors Case Study: Razor Scooter Wheel Motor At first glance, a brushless direct-current (BLDC) motor might seem more complicated than a permanent magnet brushed DC motor,
More informationFundamentals of Inverter Fed Motors
Fundamentals of Inverter Fed Motors Technical Manual 10/02 MN780 Contents Page The Growing Use Of Inverters.................................................................. 1 How Inverters Affect Motors....................................................................
More informationVLT AutomationDrive for Marine winch applications
MAKING MODERN LIVING POSSIBLE VLT APPLICATION NOTE VLT AutomationDrive for Marine winch applications This Application note is meant to be a guideline for using Danfoss VLT AutomationDrive in winch applications.
More informationFRENIC5000MS5 for Machine Tool Spindle Drives
FRENIC5MS5 for Machine Tool Spindle Drives Yoshikazu Tanaka Hiroaki Hayashi Hiroshi Takahashi 1. Introduction Fig.1 External view of FRENIC5MS5 In AC spindle drive systems for machine tools, operation
More informationAMZ-FX Guitar effects. (2007) Mosfet Body Diodes. http://www.muzique.com/news/mosfet-body-diodes/. Accessed 22/12/09.
Pulse width modulation Pulse width modulation is a pulsed DC square wave, commonly used to control the on-off switching of a silicon controlled rectifier via the gate. There are many types of SCR s, most
More information