Cart subtotal (0 items): $0.00
Electrical Wiring Industrial

Electrical Wiring Industrial - 9781337101929

Stephen L. Herman
Electrical Wiring Industrial
Edition
16
Pub Date
2017-01-02
Copyright Year
2018
ISBN10
1337101923
ISBN13
9781337101929
Publisher
Delmar Publishers Inc
Page Count
384
Dimensions
8.20 in
10.80 in
0.60 in
Binding Format
Soft Cover
Units Per Carton
22.00
In Cart
$143.96
(Retail price: $179.95)
(You save $35.99 )
Ships in 1-3 business days
Add to Cart Adding to cart… Added to cart
 
Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Extended coverage of motor installation has been incorporated.
  • Extended coverage of motor installation has been incorporated.
  • Coverage of service entrances has been expanded.
  • Coverage of service entrances has been expanded.
  • Additional information concerning transformers is now included.
  • Additional information concerning transformers is now included.
  • Detailed new instruction explains how to select conductors for equipment.
  • Detailed new instruction explains how to select conductors for equipment.
  • Additional information on motor control symbols has been added.
  • Additional information on motor control symbols has been added.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

Stephen L. Herman

As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

  • 1. Plans and Sitework.
  • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
  • 2. The Unit Substation.
  • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
  • 3. Feeder Bus System.
  • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
  • 4. Panelboards.
  • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
  • 5. Trolley Busways.
  • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
  • 6. Using Wire Tables and Determining Conductor Sizes.
  • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
  • 7. Signaling Systems.
  • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
  • 8. Basic Motor Controls.
  • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
  • 9. Motors and Controllers.
  • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
  • 10. Motor Installation.
  • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
  • 11. Power Factor.
  • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
  • 12. Ventilating, Air Conditioning, and Other Facilities.
  • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
  • 13. System Protection.
  • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
  • 14. Lightning Protection.
  • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
  • 15. Site Lighting.
  • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
  • 16. Programmable Logic Controllers.
  • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
  • 17. Developing a Program for a PLC.
  • Assigning Inputs and Outputs. Converting the Schematic.
  • 18. Fiber Optics.
  • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
  • 19. Hazardous Locations.
  • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
  • 20. Harmonics.
  • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Extended coverage of motor installation has been incorporated.
  • Extended coverage of motor installation has been incorporated.
  • Coverage of service entrances has been expanded.
  • Coverage of service entrances has been expanded.
  • Additional information concerning transformers is now included.
  • Additional information concerning transformers is now included.
  • Detailed new instruction explains how to select conductors for equipment.
  • Detailed new instruction explains how to select conductors for equipment.
  • Additional information on motor control symbols has been added.
  • Additional information on motor control symbols has been added.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

Stephen L. Herman

As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

  • 1. Plans and Sitework.
  • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
  • 2. The Unit Substation.
  • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
  • 3. Feeder Bus System.
  • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
  • 4. Panelboards.
  • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
  • 5. Trolley Busways.
  • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
  • 6. Using Wire Tables and Determining Conductor Sizes.
  • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
  • 7. Signaling Systems.
  • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
  • 8. Basic Motor Controls.
  • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
  • 9. Motors and Controllers.
  • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
  • 10. Motor Installation.
  • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
  • 11. Power Factor.
  • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
  • 12. Ventilating, Air Conditioning, and Other Facilities.
  • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
  • 13. System Protection.
  • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
  • 14. Lightning Protection.
  • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
  • 15. Site Lighting.
  • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
  • 16. Programmable Logic Controllers.
  • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
  • 17. Developing a Program for a PLC.
  • Assigning Inputs and Outputs. Converting the Schematic.
  • 18. Fiber Optics.
  • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
  • 19. Hazardous Locations.
  • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
  • 20. Harmonics.
  • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Extended coverage of motor installation has been incorporated.
  • Extended coverage of motor installation has been incorporated.
  • Coverage of service entrances has been expanded.
  • Coverage of service entrances has been expanded.
  • Additional information concerning transformers is now included.
  • Additional information concerning transformers is now included.
  • Detailed new instruction explains how to select conductors for equipment.
  • Detailed new instruction explains how to select conductors for equipment.
  • Additional information on motor control symbols has been added.
  • Additional information on motor control symbols has been added.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

Stephen L. Herman

As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

  • 1. Plans and Sitework.
  • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
  • 2. The Unit Substation.
  • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
  • 3. Feeder Bus System.
  • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
  • 4. Panelboards.
  • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
  • 5. Trolley Busways.
  • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
  • 6. Using Wire Tables and Determining Conductor Sizes.
  • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
  • 7. Signaling Systems.
  • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
  • 8. Basic Motor Controls.
  • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
  • 9. Motors and Controllers.
  • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
  • 10. Motor Installation.
  • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
  • 11. Power Factor.
  • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
  • 12. Ventilating, Air Conditioning, and Other Facilities.
  • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
  • 13. System Protection.
  • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
  • 14. Lightning Protection.
  • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
  • 15. Site Lighting.
  • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
  • 16. Programmable Logic Controllers.
  • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
  • 17. Developing a Program for a PLC.
  • Assigning Inputs and Outputs. Converting the Schematic.
  • 18. Fiber Optics.
  • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
  • 19. Hazardous Locations.
  • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
  • 20. Harmonics.
  • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Completely up to date to fully conform to the 2017 National Electrical Code.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
  • Extended coverage of motor installation has been incorporated.
  • Extended coverage of motor installation has been incorporated.
  • Coverage of service entrances has been expanded.
  • Coverage of service entrances has been expanded.
  • Additional information concerning transformers is now included.
  • Additional information concerning transformers is now included.
  • Detailed new instruction explains how to select conductors for equipment.
  • Detailed new instruction explains how to select conductors for equipment.
  • Additional information on motor control symbols has been added.
  • Additional information on motor control symbols has been added.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
  • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

Stephen L. Herman

As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

  • 1. Plans and Sitework.
  • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
  • 2. The Unit Substation.
  • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
  • 3. Feeder Bus System.
  • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
  • 4. Panelboards.
  • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
  • 5. Trolley Busways.
  • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
  • 6. Using Wire Tables and Determining Conductor Sizes.
  • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
  • 7. Signaling Systems.
  • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
  • 8. Basic Motor Controls.
  • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
  • 9. Motors and Controllers.
  • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
  • 10. Motor Installation.
  • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
  • 11. Power Factor.
  • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
  • 12. Ventilating, Air Conditioning, and Other Facilities.
  • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
  • 13. System Protection.
  • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
  • 14. Lightning Protection.
  • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
  • 15. Site Lighting.
  • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
  • 16. Programmable Logic Controllers.
  • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
  • 17. Developing a Program for a PLC.
  • Assigning Inputs and Outputs. Converting the Schematic.
  • 18. Fiber Optics.
  • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
  • 19. Hazardous Locations.
  • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
  • 20. Harmonics.
  • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
  • Product Description
  • Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Extended coverage of motor installation has been incorporated.
    • Extended coverage of motor installation has been incorporated.
    • Coverage of service entrances has been expanded.
    • Coverage of service entrances has been expanded.
    • Additional information concerning transformers is now included.
    • Additional information concerning transformers is now included.
    • Detailed new instruction explains how to select conductors for equipment.
    • Detailed new instruction explains how to select conductors for equipment.
    • Additional information on motor control symbols has been added.
    • Additional information on motor control symbols has been added.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

    Stephen L. Herman

    As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

    • 1. Plans and Sitework.
    • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
    • 2. The Unit Substation.
    • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
    • 3. Feeder Bus System.
    • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
    • 4. Panelboards.
    • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
    • 5. Trolley Busways.
    • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
    • 6. Using Wire Tables and Determining Conductor Sizes.
    • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
    • 7. Signaling Systems.
    • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
    • 8. Basic Motor Controls.
    • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
    • 9. Motors and Controllers.
    • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
    • 10. Motor Installation.
    • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
    • 11. Power Factor.
    • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
    • 12. Ventilating, Air Conditioning, and Other Facilities.
    • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
    • 13. System Protection.
    • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
    • 14. Lightning Protection.
    • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
    • 15. Site Lighting.
    • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
    • 16. Programmable Logic Controllers.
    • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
    • 17. Developing a Program for a PLC.
    • Assigning Inputs and Outputs. Converting the Schematic.
    • 18. Fiber Optics.
    • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
    • 19. Hazardous Locations.
    • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
    • 20. Harmonics.
    • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
  • Features
  • Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Extended coverage of motor installation has been incorporated.
    • Extended coverage of motor installation has been incorporated.
    • Coverage of service entrances has been expanded.
    • Coverage of service entrances has been expanded.
    • Additional information concerning transformers is now included.
    • Additional information concerning transformers is now included.
    • Detailed new instruction explains how to select conductors for equipment.
    • Detailed new instruction explains how to select conductors for equipment.
    • Additional information on motor control symbols has been added.
    • Additional information on motor control symbols has been added.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

    Stephen L. Herman

    As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

    • 1. Plans and Sitework.
    • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
    • 2. The Unit Substation.
    • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
    • 3. Feeder Bus System.
    • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
    • 4. Panelboards.
    • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
    • 5. Trolley Busways.
    • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
    • 6. Using Wire Tables and Determining Conductor Sizes.
    • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
    • 7. Signaling Systems.
    • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
    • 8. Basic Motor Controls.
    • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
    • 9. Motors and Controllers.
    • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
    • 10. Motor Installation.
    • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
    • 11. Power Factor.
    • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
    • 12. Ventilating, Air Conditioning, and Other Facilities.
    • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
    • 13. System Protection.
    • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
    • 14. Lightning Protection.
    • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
    • 15. Site Lighting.
    • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
    • 16. Programmable Logic Controllers.
    • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
    • 17. Developing a Program for a PLC.
    • Assigning Inputs and Outputs. Converting the Schematic.
    • 18. Fiber Optics.
    • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
    • 19. Hazardous Locations.
    • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
    • 20. Harmonics.
    • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
  • About the Author
  • Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Extended coverage of motor installation has been incorporated.
    • Extended coverage of motor installation has been incorporated.
    • Coverage of service entrances has been expanded.
    • Coverage of service entrances has been expanded.
    • Additional information concerning transformers is now included.
    • Additional information concerning transformers is now included.
    • Detailed new instruction explains how to select conductors for equipment.
    • Detailed new instruction explains how to select conductors for equipment.
    • Additional information on motor control symbols has been added.
    • Additional information on motor control symbols has been added.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

    Stephen L. Herman

    As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

    • 1. Plans and Sitework.
    • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
    • 2. The Unit Substation.
    • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
    • 3. Feeder Bus System.
    • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
    • 4. Panelboards.
    • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
    • 5. Trolley Busways.
    • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
    • 6. Using Wire Tables and Determining Conductor Sizes.
    • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
    • 7. Signaling Systems.
    • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
    • 8. Basic Motor Controls.
    • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
    • 9. Motors and Controllers.
    • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
    • 10. Motor Installation.
    • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
    • 11. Power Factor.
    • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
    • 12. Ventilating, Air Conditioning, and Other Facilities.
    • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
    • 13. System Protection.
    • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
    • 14. Lightning Protection.
    • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
    • 15. Site Lighting.
    • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
    • 16. Programmable Logic Controllers.
    • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
    • 17. Developing a Program for a PLC.
    • Assigning Inputs and Outputs. Converting the Schematic.
    • 18. Fiber Optics.
    • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
    • 19. Hazardous Locations.
    • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
    • 20. Harmonics.
    • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
  • Table of Contents
  • Walking you step by step through an industrial building, ELECTRICAL WIRING INDUSTRIAL, 16th Edition, equips you with the basic knowledge and skills you need to safely install wiring systems. This text is written in easy-to-read language and packed with vivid photographs and illustrations to help you understand key concepts. It is also thoroughly updated to reflect the 2017 National Electric Code, the standard for layout and construction of electrical systems. Plenty of example problems and detailed solutions clearly illustrate how the concepts apply to real-world situations. In addition, a set of building blueprints helps you see how each chapter's concepts are applied in an actual industrial building.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Completely up to date to fully conform to the 2017 National Electrical Code.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Chapters illustrate how to apply contemporary 2017 NEC® requirements for power distribution, conductor sizing, motor connection, power factor correction, and lighting in industrial settings.
    • Extended coverage of motor installation has been incorporated.
    • Extended coverage of motor installation has been incorporated.
    • Coverage of service entrances has been expanded.
    • Coverage of service entrances has been expanded.
    • Additional information concerning transformers is now included.
    • Additional information concerning transformers is now included.
    • Detailed new instruction explains how to select conductors for equipment.
    • Detailed new instruction explains how to select conductors for equipment.
    • Additional information on motor control symbols has been added.
    • Additional information on motor control symbols has been added.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Real-World Approach: Extremely practical, the chapter on motor installation presents detailed instruction on how to size conductors, overloads, short circuit protective devices, and motor starter sizes in a way that relates to on-the-job situations.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Comprehensive Coverage: The text includes different types of three-phase services, such as wye, delta, wye with grounded neutral conductor, delta with B phase ground, and delta high leg services.
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Essential Motor Controls: A full chapter is devoted to basic motor controls as well as Programmable Logic Controllers (PLC).
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Illuminating Visuals: Detailed photographs, diagrams, and illustrations help clarify explanations of critical industrial electricity concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Practical Math: ELECTRICAL WIRING INDUSTRIAL covers specific math skills students will need to succeed on the job without overwhelming them with unnecessarily complicated concepts.
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical
    • Got questions about this solution? Connect with the author - https://www.cengage.com/discipline-trades/author-connection#electrical

    Stephen L. Herman

    As a retired electrician and proficient instructor with more than 30 years of practical experience, Stephen L. Herman is known for his reader-friendly approach. A seasoned author, Mr. Herman has written leading books on electricity and mathematics that are popular with students and instructors alike. For two decades Mr. Herman served as lead instructor for the Electrical Technology Curriculum at Lee College in Baytown, Texas, where he received an Excellence in Education Award from the Halliburton Education Foundation. He also taught at Randolph Community College in Asheboro, North Carolina, for nine years and helped pioneer an electrical curriculum for Northeast Texas Community College in Mount Pleasant, Texas. His additional publications include ELECTRIC MOTOR CONTROL, ELECTRICITY AND CONTROLS FOR HVAC/R, INDUSTRIAL MOTOR CONTROLS, UNDERSTANDING MOTOR CONTROLS, ELECTRONICS FOR ELECTRICIANS, ALTERNATING CURRENT FUNDAMENTALS, DIRECT CURRENT FUNDAMENTALS, ELECTRICAL STUDIES FOR TRADES, ELECTRICAL PRINCIPLES, EXPERIMENTS IN ELECTRICITY FOR USE WITH LAB VOLT EQUIPMENT, THE COMPLETE LABORATORY MANUAL FOR ELECTRICITY, and PRACTICAL PROBLEMS IN MATHEMATICS FOR ELECTRICIANS.

    • 1. Plans and Sitework.
    • Construction Plans. Explanation of Plan Symbols. Sitework. Testing the Site for Grounding Requirements. Interpreting the Site Plan. Metrics (SI) and the NEC.
    • 2. The Unit Substation.
    • The High-Voltage Section. Transformer Protection. Overcurrent Protection. Determining Transformer Fuse Size. The Transformer Section. The Low-Voltage Section. The High-Voltage Metering Equipment. Service Entrances. Transformer Maintenance.
    • 3. Feeder Bus System.
    • Feeder Ducts. The Circuit-Breaker Cubicles. Plug-In Busway. Bus Plugs.
    • 4. Panelboards.
    • Panelboards. Branch-Circuit Protective Devices. Panelboard Protective Devices. Power Panelboards.
    • 5. Trolley Busways.
    • Three-Phase Trolley Busways. The Trolley Busway Runs. Lighting in the Manufacturing Area. Lighting in the Boiler Room.
    • 6. Using Wire Tables and Determining Conductor Sizes.
    • Conductors. Insulation Type. Correction Factors. More than Three Conductors in a Raceway. Underground Conductors. Selecting Conductors for Equipment Installation. Calculating Conductor Sizes and Resistance. Long Wire Lengths. Calculating Resistance. Parallel Conductors. Testing Wire Installations. The American Wire Gauge (AWG).
    • 7. Signaling Systems.
    • The Master Clock. The Program System. The Paging System. The Fire Alarm System.
    • 8. Basic Motor Controls.
    • Two-Wire Controls. Three-Wire Controls. Schematic Symbols. Overload Relays. Schematics and Wiring Diagrams. Start–Stop Push-Button Control Circuit. Forward-Reverse Control. Basic Air-Conditioning Circuit. Timing Relays.
    • 9. Motors and Controllers.
    • The Machines and Their Motors. Motor Types. Single-Speed Squirrel-Cage Induction Motor. The Wound-Rotor Induction Motor. Determining Direction of Rotation for 3-Phase Motors. Connecting Dual-Voltage 3-Phase Motors. Dual-Voltage Single-Phase Motors. Determining Direction of Rotation for Single-Phase Motors. Terminal Identification for Direct-Current Motors. Determining the Direction of Rotation of a Direct-Current Motor. Direct-Current Power Supplies. Variable-Frequency Drives.
    • 10. Motor Installation.
    • Motor Nameplate Data. Motor Installation. Motor Tables. Direct-Current Motors. Single-Phase Alternating-Current Motors. Two-Phase Motors. Determining Conductor Size for a Single Motor. Overload Size. Overload Heaters. Determining Locked-Rotor Current. Short-Circuit Protection. Multiple Motor Calculations.
    • 11. Power Factor.
    • Loading on Alternating-Current Circuits. Power Factor Measurement. The Synchronous Condensers. The Tie-In. Correcting Power Factor with Capacitors. Correcting Motor Power Factor. Installing Capacitors. Testing Capacitors.
    • 12. Ventilating, Air Conditioning, and Other Facilities.
    • The Ventilator and Exhaust System. Special Terminology. The Cooling Equipment. Liquid Chillers. The Precipitation Unit.
    • 13. System Protection.
    • System Protection. Circuit breakers. Circuit-Breaker Time-Current Characteristic Charts. Fuse Time-Current Characteristic Charts. Ground-Fault Protector Time-Current Characteristic Charts. Coordination.
    • 14. Lightning Protection.
    • Atomic Structure. How Lightning Is Generated. Master Label. Building Protection. Safety Rules. References.
    • 15. Site Lighting.
    • Lamp Selection. Illuminance Selections. Power Limitation. Luminaire Placement. Electrical Installation.
    • 16. Programmable Logic Controllers.
    • Differences Between Programmable Logic Controllers and Personal Computers. Basic Components. Installing Programmable Logic Controllers. The Differential Amplifier.
    • 17. Developing a Program for a PLC.
    • Assigning Inputs and Outputs. Converting the Schematic.
    • 18. Fiber Optics.
    • Fiber Optics. Fiber-Optic Connectors. Fiber-Optic Lighting.
    • 19. Hazardous Locations.
    • Equipment Approval. Intrinsically Safe Circuits and Equipment. Equipment. Seals. Circuit-Breaker Panelboards. Luminaires. Motor Controls. Flexible Cords and Receptacles. Hazardous Areas. Explosion-Proof Equipment.
    • 20. Harmonics.
    • Harmonic Effects. Circuit-Breaker Problems. Bus Ducts and Panelboard Problems. Determining Harmonic Problems on Sin
 
Cart subtotal (0 items): $0.00