Electrical Control for Machines 7th Edition Lobsiger Solutions Manual

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Electrical Control for Machines 7th Edition Lobsiger Solutions Manual.

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Product Details:

  • ISBN-10 ‏ : ‎ 0357671163
  • ISBN-13 ‏ : ‎ 978-0357671160
  • Author:  Diane Lobsiger

Reflecting the latest trends and practices from industry, the cutting-edge new ELECTRICAL CONTROLS FOR MACHINES, 7e delivers a thorough introduction to the range of technologies found in today’s electrical machine controls. Completely up to date, circuit diagrams and the descriptions of the circuits illustrate a modern representation of the controls circuits. The text also offers expansive coverage of the power and control circuitry required to operate electrical machinery. While it discusses the trend away from relay control to PLC control, the text maintains solid coverage of relay circuits. Its emphasis on the critical importance of worker and equipment safety in industrial settings includes a detailed explanation of the risk assessment process and a safety relay circuit. In addition, the inclusion of international equipment specifications reflects the dramatic impact of globalization and integration of businesses on the way industries function.

 

Table of Content:

  1. Ch 1: Transformers and Power Supplies
  2. 1.1 Control Transformers
  3. 1.2 Transformer Regulation
  4. 1.3 Sizing a Transformer
  5. 1.4 Operating Transformers in Parallel
  6. 1.5 Temperature Rise in a Transformer
  7. 1.6 50-Hz vs 60-Hz Operation
  8. 1.7 Constant Voltage Regulators
  9. 1.8 Power Supplies for Control Voltage
  10. 1.9 Uninterruptible Power Systems (UPS)
  11. 1.10 Circuit Diagram
  12. 1.11 Insulation Classifications
  13. 1.12 Conductor Ampacity
  14. 1.13 Conductor Color Code
  15. 1.14 Electrical Symbols
  16. Ch 2: Fuses, Disconnect Switches, and Circuit Breakers
  17. 2.1 Protective Factors
  18. 2.2 Fuse Construction and Operation
  19. 2.3 Fuse Types
  20. 2.4 Peak Let-Thru Current (Ip) and Ampere Squared Seconds (I2t)
  21. 2.5 Voltage and Frequency Surges
  22. 2.6 Circuit Breaker Types
  23. 2.7 Programmable Motor Protection
  24. 2.8 Electrical Metering and Voltage Protection
  25. 2.9 Selecting Protective Devices
  26. 2.10 Ground Fault Circuit Interrupter
  27. Ch 3: Control Units for Switching and Communication
  28. 3.1 Oil-Tight Units
  29. 3.2 Push-Button Switches
  30. 3.3 Selector Switches
  31. 3.4 Heavy-Duty Switches
  32. 3.5 Indicating Lights
  33. 3.6 General Information on Oil-Tight Units
  34. 3.7 Circuit Applications
  35. 3.8 Annunciators
  36. 3.9 Light-Emitting Diodes
  37. 3.10 Membrane Switches
  38. Ch 4: Relays
  39. 4.1 Control Relays and Their Uses
  40. 4.2 Timing Relays
  41. 4.3 Latching Relays
  42. 4.4 Plug-In Relays
  43. 4.5 Contactors
  44. Ch 5: Solenoids
  45. 5.1 Solenoid Action
  46. 5.2 Solenoid Force and Voltage
  47. 5.3 Low Voltage
  48. 5.4 Overvoltage
  49. 5.5 AC Solenoids on DC
  50. 5.6 DC Solenoids on AC
  51. 5.7 50- and 60-Cycle Solenoids
  52. 5.8 Solenoid Temperature Rise
  53. 5.9 Valve Operation
  54. 5.10 Circuit Applications
  55. 5.11 Variable Solenoids
  56. 5.12 Proportional Valves
  57. 5.13 Servo Valves
  58. Ch 6: Types of Control
  59. 6.1 Open-Loop Control
  60. 6.2 Closed-Loop Control
  61. 6.3 Proportional Control
  62. 6.4 Proportional-Integral
  63. 6.5 Proportional-Integral-Derivative
  64. 6.6 Proportional-Integral-Derivative Examples
  65. Ch 7: Motion Control Devices
  66. 7.1 Importance of Position Indication and Control
  67. 7.2 Limit Switches-Mechanical
  68. 7.3 Limit Switch Symbols
  69. 7.4 Circuit Applications
  70. 7.5 Proximity Limit Switches
  71. 7.6 LED Indicators
  72. 7.7 Solid-State Outputs
  73. 7.8 Detection Range
  74. 7.9 Hysteresis
  75. 7.10 Attenuation Range
  76. 7.11 Speed
  77. 7.12 Magnet-Operated Limit Switch
  78. 7.13 Vane Switches
  79. 7.14 Linear Position Displacement Transducers
  80. 7.15 Angular Position Displacement Transducers
  81. 7.16 Use of AC Synchronous and DC Stepping Motors
  82. 7.17 Servo Positioning Control
  83. 7.18 Sensing Theory
  84. 7.19 Flow Sensors
  85. Ch 8: Pressure Control
  86. 8.1 Importance of Pressure Indication and Control
  87. 8.2 Types of Pressure Switches
  88. 8.3 Circuit Applications
  89. Ch 9: Temperature Control
  90. 9.1 Importance of Temperature Indication and Control
  91. 9.2 Selection of Temperature Controllers
  92. 9.3 Electronic Temperature Controller (Pyrometer)
  93. 9.4 Controller Outputs
  94. 9.5 Additional Terms
  95. 9.6 Temperature Switches (Thermostats)
  96. 9.7 Temperature Sensors
  97. 9.8 Circuit Applications
  98. Ch 10: Time Control
  99. 10.1 Selected Operations
  100. 10.2 Types of Timers
  101. 10.3 Synchronous Motor-Driven Timers
  102. 10.4 Solid-State Timers
  103. 10.5 Circuit Applications
  104. Ch 11: Count Control
  105. 11.1 Electromechanical Control Counters
  106. 11.2 Circuit Applications
  107. 11.3 Solid-State Counters
  108. Ch 12: Control Circuits
  109. 12.1 Placement of Components in a Control Circuit
  110. 12.2 Control Circuit Examples
  111. Ch 13: Motors and Drives
  112. 13.1 DC Motors-Principles of Operation
  113. 13.2 DC Motors
  114. 13.3 AC Motors-Theory of Operation
  115. 13.4 Polyphase Squirrel-Cage Induction Motors
  116. 13.5 Variable Frequency Drives
  117. 13.6 Single-Phase Motors
  118. 13.7 Resistance Split-Phase Motors
  119. 13.8 Capacitor Start Motors
  120. 13.9 Permanent Split-Capacitor Motors
  121. 13.10 Shaded-Pole Motors
  122. 13.11 Brushless DC Motors
  123. Ch 14: Motor Starters
  124. 14.1 Contacts and Overload Relays
  125. 14.2 Across-the-Line (Full-Voltage) Starters
  126. 14.3 Reversing Motor Starters
  127. 14.4 Multispeed Motor Starters
  128. 14.5 Additional Across-the-Line Starter Circuits
  129. 14.6 Reduced-Voltage Motor Starters
  130. 14.7 Solid-State Motor Starters
  131. 14.8 Starting Sequence
  132. Ch 15: Introduction to Programmable Control
  133. 15.1 Primary Concepts of Relay Control
  134. 15.2 Introduction to Programmable Logic Controllers
  135. 15.3 Programmable Logic Controller Concepts
  136. 15.4 PLC Input/Output (I/O)
  137. 15.5 Processor
  138. 15.6 Memory
  139. 15.7 Power Supplies
  140. 15.8 Programming
  141. 15.9 Examine On/Examine Off
  142. 15.10 Peripheral and Support Devices
  143. 15.11 Data Communications
  144. 15.12 Converting from Relay Logic to PLC
  145. Ch 16: Industrial Data Communications
  146. 16.1 Overview
  147. 16.2 Industrial Information Technology Architecture
  148. 16.3 Data Communication Network Concepts
  149. 16.4 Data Transmission
  150. 16.5 Industrial Data Highway
  151. 16.6 Network Topologies
  152. 16.7 Industrial Networks
  153. 16.8 Data Transfer Rate
  154. 16.9 Ethernet and the Information Highway
  155. 16.10 Transmission Media
  156. 16.11 Troubleshooting Networks
  157. 16.12 Open Systems versus Proprietary Systems
  158. 16.13 Network Layers
  159. 16.14 Typical Network Systems
  160. Ch 17: Quality Control
  161. 17.1 Defining Quality and Quality Control
  162. 17.2 Electrical and Electronic Circuits Used in Quality Control
  163. 17.3 Quality Achieved through Machine and Process Monitoring
  164. 17.4 Process Tolerance (Standards)
  165. 17.5 Information Systems
  166. 17.6 Maintaining Quality
  167. Ch 18: Safety
  168. 18.1 Worker Safety
  169. 18.2 Machine Safety
  170. 18.3 Diagnostic Systems
  171. 18.4 Machine Safety Circuit
  172. 18.5 Programmable Controllers in Safety
  173. 18.6 Other Safety Conditions
  174. Ch 19: Troubleshooting
  175. 19.1 Safety First
  176. 19.2 Analyzing the Problem
  177. 19.3 Major Trouble Spots
  178. 19.4 Equipment for Troubleshooting
  179. 19.5 Motors
  180. 19.6 Troubleshooting a Complete Control Circuit
  181. 19.7 Troubleshooting the Programmable Logic Controller
  182. 19.8 Electronic Troubleshooting Hints
  183. Ch 20: Designing Control Systems for Easy Maintenance
  184. 20.1 Design Considerations
  185. 20.2 Diagrams and Layouts
  186. 20.3 Locating, Assembling, and Installing Components
  187. Appendix A: Summary of Electrical Symbols
  188. Appendix B: Units of Measurement
  189. Appendix C: Rules of Thumb for Electric Motors
  190. C.1: Horsepower versus Amperes
  191. C.2: Horsepower Revolutions per Minute-Torque
  192. C.3: Shaft Size-Horsepower-Revolutions per Minute
  193. Appendix D: Electrical Formulas
  194. Appendix E: Use of Electrical Codes and Standards
  195. E.1: Major Goals
  196. E.2: The History of the NFPA 79 Standard
  197. E.3: Tables
  198. Appendix F: Application of Electric Heat
  199. F.1: Calculating Heat Requirements
  200. F.2: Selection and Application of Heating Elements
  201. Appendix G: Power Factor Correction
  202. G.1: Apparent Power and Actual Power
  203. G.2: Magnetizing Current and Power Current
  204. G.3: Determining the Amount of Correction Required
  205. G.4: Typical Capacitor Design Features
  206. Glossary
  207. Index

 

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