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Electronic Variable Speed Drives 4th edition [Pehme köide]

(York Technical College, Rock Hill, South Carolina), (York Technical College, Rock Hill, South Carolina)
  • Formaat: Paperback / softback, 272 pages, kõrgus x laius x paksus: 230x190x14 mm, kaal: 499 g
  • Ilmumisaeg: 01-Jan-2017
  • Kirjastus: Delmar Cengage Learning
  • ISBN-10: 1133134041
  • ISBN-13: 9781133134046
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Electronic Variable Speed Drives 4th editionSuurem pilt
  • Formaat: Paperback / softback, 272 pages, kõrgus x laius x paksus: 230x190x14 mm, kaal: 499 g
  • Ilmumisaeg: 01-Jan-2017
  • Kirjastus: Delmar Cengage Learning
  • ISBN-10: 1133134041
  • ISBN-13: 9781133134046
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781133134046.html
Gain a thorough understanding of today's electronic variable speed drives with this one-of-a-kind practical guide. ELECTRONIC VARIABLE SPEED DRIVES, 4E provides the information essential for mastering DC and inverter drive technology. Using a logical structure, this book introduces fundamental drive circuits before presenting more complex drive circuits. This new edition highlights the most current technology advances for drives. The authors use their extensive industry and teaching experience to present theory in a clear, straightforward manner with the emphasis you need on both troubleshooting and maintenance. New hands-on activities provide additional practice using the Allen-Bradley PowerFlex 70, while numerous waveform schematics guide you through operating different types of drives and interpreting their circuitry. Specific chapters focus on digital regenerative DC drives and frequency inverters as well as mechanical and electrical installation, set-up, tuning, programming, operating, and troubleshooting of each drive.
Dedications iii
Preface viii
Introduction ix
Chapter 1 Introduction to Variable Frequency Drives
1(10)
Chapter 2 Review of Physical, Electrical, and Motor Terminology
11(14)
Chapter 3 Variable Frequency Drive Basics
25(34)
Activity 3.1 VFD Familiarization
55(4)
Chapter 4 VFD Installation
59(12)
Chapter 5 VFD Initialization
71(74)
Activity 5.1 HIM Familiarization
74(16)
Procedure 5.1.1 Jumpers, Wiring, and Powering Up
75(1)
Procedure 5.1.2 Reset to Factory Defaults
76(2)
Using the ALT Function
78(1)
Procedure 5.1.3 S.M.A.R.T. Start-Up
79(3)
Assisted Start-Up
82(1)
Procedure 5.1.4 Switching the HIM to Manual Control and Auto Control
82(3)
Procedure 5.1.5 Using the HIM to Change the Speed of the Motor
85(1)
Procedure 5.1.6 Using the HIM to Change the Direction of Rotation
86(1)
Procedure 5.1.7 Using the HIM to Determine Drive Status
87(1)
Procedure 5.1.8 Removing the HIM
88(2)
Activity 5.2 Autotune
90(4)
Procedure 5.2.1 Method of Motor Control (EC/Method of Motor Torque (Standard)
91(1)
Procedure 5.2.2 Motor Nameplate Data Entry
91(1)
Procedure 5.2.3 Dynamic/static Autotune
92(2)
Activity 5.3 Menu Navigation
94(5)
Procedure 5.3.1 Basic and Advanced Parameter View (Access)
95(2)
Procedure 5.3.2 File and Parameter Structure--File/Group/Parameters
97(1)
Procedure 5.3.3 Menu Navigation and Parameter Programming
98(1)
Activity 5.4 Local/Remote Control of a VFD
99(11)
Using the "ALT" Function to Toggle Auto/Man
100(1)
Procedure 5.4.1 Manual Reference Preload, Digital Inputs, and Reference Select
100(5)
Procedure 5.4.2 Operating the VFD Using the HIM (Local Control)
105(2)
Procedure 5.4.3 Operating the VFD Using Remote Control
107(3)
Activity 5.5 Methods of Control and Monitoring the Motor
110(35)
Wiring Supply Power and the Motor
111(1)
Control Wiring
111(1)
Procedure 5.5.1 Using a Digital Input to Toggle Auto/Man (Remote/Local) and Changing Accel/Decel
111(4)
Procedure 5.5.2 Using a Potentiometer for Local Control and a PLC for Remote Control
115(7)
Procedure 5.5.3 Methods of Monitoring Motor Performance
122(4)
Procedure 5.5.4 Master/Follower Configuration (No trim or PI configuration included)
126(6)
Setting Maximum Speed
132(1)
Procedure 5.5.5 Programming Speeds, Skip Frequency, and S-Curves
132(1)
Programming Speeds: Maximum Frequency, Maximum Speed, and Overspeed Limit
133(2)
Skip Frequency
135(2)
S-Curve Function
137(1)
Encoder Basics
138(7)
Chapter 6 Diagnostics
145(28)
Chapter 7 DC Drives
173(50)
Chapter 8 Steppers and Servos
223(28)
Appendix A AC Motor Review 251(6)
Appendix B DC Motor Review 257(6)
Appendix C Power Semiconductors and Common Rectifiers 263(24)
Glossary 287(12)
Index 299
Michael E. Brumbach is the retired (after 28 years of service) associate dean of the Industrial and Engineering Technologies Division at York Technical College in Rock Hill, South Carolina. He holds an associate degree in electronics technology. In addition to this book, Mr. Brumbach has co-authored ELECTRONIC VARIABLE SPEED DRIVES and INDUSTRIAL MAINTENANCE. Jeffrey A. Clade is the Department Chair for the Industrial Maintenance Department at York Technical College in Rock Hill, South Carolina. He holds an associate degree in Industrial Maintenance Technology. He is also a licensed Master Electrical Contractor in South Carolina. He has co-authored INDUSTRIAL MAINTENANCE.