Further electrical and electronic principles [[electronic resource] /] / Christopher R. Robertson |
Autore | Robertson Christopher R |
Edizione | [3rd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 |
Descrizione fisica | 1 online resource (280 p.) |
Disciplina | 621.3 |
Soggetto topico |
Electrical engineering
Electronics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-136-40151-2
1-282-71113-X 9786612711138 0-08-087812-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Further Electrical and Electronic Principles; Copyright; Contents; Preface; Chapter 1 Single-Phase Series A.C. Circuits; 1.1 Pure Resistance; 1.2 Pure Inductance; 1.3 Inductive Reactance; 1.4 Pure Capacitance; 1.5 Capacitive Reactance; 1.6 Impedance; 1.7 Inductance and Resistance in Series; 1.8 Resistance and Capacitance in Series; 1.9 Resistance, Inductance and Capacitance in Series; 1.10 Power in the A.C. Circuit; 1.11 Power Factor; 1.12 Power Triangle; 1.13 Series Resonance; Summary of Equations; Assignment Questions; Suggested Practical Assignments
Chapter 2 Single-Phase Parallel A.C. Circuits2.1 Summary of Series A.C. Circuits and Equations; 2.2 The R-C Parallel Circuit; 2.3 The R-L Parallel Circuit; 2.4 R-L-C Parallel Circuit; 2.5 Practical Components in Parallel; 2.6 Series Resonance; 2.7 Circuit Q-factor; 2.8 Frequency Response Curve; 2.9 Parallel Resonance; 2.10 The Importance of Power Factor; 2.11 Power Factor Correction; 2.12 Filters; 2.13 Low-pass Filters; 2.14 High-pass Filters; 2.15 Band-pass Filters; 2.16 Band-stop (Notch) Filters; 2.17 Coupled Tuned Circuits; Summary of Equations; Assignment Questions Suggested Practical AssignmentsChapter 3 Three-Phase A.C. Circuits; 3.1 Generation of a Three-Phase Supply; 3.2 Three-Phase, Four-Wire System; 3.3 Relationship between Line and Phase Quantities in a Star-connected System; 3.4 Delta or Mesh Connection; 3.5 Relationship between Line and Phase Quantities in a Delta-connected System; 3.6 Power Dissipation in Star and Delta-connected Loads; 3.7 Star/Delta Supplies and Loads; 3.8 Measurement of Three-phase Power; 3.9 The Two-Wattmeter Method; 3.10 Neutral Current in an Unbalanced Three-phase Load; 3.11 Advantages of Three-phase Systems Summary of EquationsAssignment Questions; Suggested Practical Assignments; Chapter 4 Network Theorems; 4.1 Superposition Theorem; 4.2 Constant Voltage and Constant Current Sources and their Equivalence; 4.3 Thévenin's Theorem; 4.4 Norton's Theorem; 4.5 The Maximum Power Transfer Theorem; Assignment Questions; Chapter 5 A.C. Machines; 5.1 Transformer emf Equation; 5.2 The Practical Transformer; 5.3 Measurement of Transformer Losses; 5.4 Transformer Efficiency; 5.5 Isolating Transformer; 5.6 The Auto Transformer; 5.7 Current Transformer; 5.8 Alternators; 5.9 Rotor Construction 5.10 Alternator emf Equation5.11 Alternator Losses; 5.12 The Production of a Rotating Magnetic Field from a Polyphase Supply; 5.13 Three-phase Induction Motor; 5.14 Three-phase Synchronous Motor; 5.15 Starting Methods for Three-phase Motors; 5.16 Single-phase Motors; Summary of Equations; Assignment Questions; Suggested Practical Assignments; Chapter 6 D.C. Machines; 6.1 The Generation of D.C. Voltage; 6.2 The Commutation Process; 6.3 Armature Reaction; 6.4 Construction of D.C. Machines; 6.5 Types of Armature Winding; 6.6 Generator emf Equation; 6.7 Classification of Generators 6.8 Separately Excited Generator |
Record Nr. | UNINA-9910459630903321 |
Robertson Christopher R
![]() |
||
Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Further electrical and electronic principles [[electronic resource] /] / Christopher R. Robertson |
Autore | Robertson Christopher R |
Edizione | [3rd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 |
Descrizione fisica | 1 online resource (280 p.) |
Disciplina | 621.3 |
Soggetto topico |
Electrical engineering
Electronics |
ISBN |
1-136-40151-2
1-282-71113-X 9786612711138 0-08-087812-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Further Electrical and Electronic Principles; Copyright; Contents; Preface; Chapter 1 Single-Phase Series A.C. Circuits; 1.1 Pure Resistance; 1.2 Pure Inductance; 1.3 Inductive Reactance; 1.4 Pure Capacitance; 1.5 Capacitive Reactance; 1.6 Impedance; 1.7 Inductance and Resistance in Series; 1.8 Resistance and Capacitance in Series; 1.9 Resistance, Inductance and Capacitance in Series; 1.10 Power in the A.C. Circuit; 1.11 Power Factor; 1.12 Power Triangle; 1.13 Series Resonance; Summary of Equations; Assignment Questions; Suggested Practical Assignments
Chapter 2 Single-Phase Parallel A.C. Circuits2.1 Summary of Series A.C. Circuits and Equations; 2.2 The R-C Parallel Circuit; 2.3 The R-L Parallel Circuit; 2.4 R-L-C Parallel Circuit; 2.5 Practical Components in Parallel; 2.6 Series Resonance; 2.7 Circuit Q-factor; 2.8 Frequency Response Curve; 2.9 Parallel Resonance; 2.10 The Importance of Power Factor; 2.11 Power Factor Correction; 2.12 Filters; 2.13 Low-pass Filters; 2.14 High-pass Filters; 2.15 Band-pass Filters; 2.16 Band-stop (Notch) Filters; 2.17 Coupled Tuned Circuits; Summary of Equations; Assignment Questions Suggested Practical AssignmentsChapter 3 Three-Phase A.C. Circuits; 3.1 Generation of a Three-Phase Supply; 3.2 Three-Phase, Four-Wire System; 3.3 Relationship between Line and Phase Quantities in a Star-connected System; 3.4 Delta or Mesh Connection; 3.5 Relationship between Line and Phase Quantities in a Delta-connected System; 3.6 Power Dissipation in Star and Delta-connected Loads; 3.7 Star/Delta Supplies and Loads; 3.8 Measurement of Three-phase Power; 3.9 The Two-Wattmeter Method; 3.10 Neutral Current in an Unbalanced Three-phase Load; 3.11 Advantages of Three-phase Systems Summary of EquationsAssignment Questions; Suggested Practical Assignments; Chapter 4 Network Theorems; 4.1 Superposition Theorem; 4.2 Constant Voltage and Constant Current Sources and their Equivalence; 4.3 Thévenin's Theorem; 4.4 Norton's Theorem; 4.5 The Maximum Power Transfer Theorem; Assignment Questions; Chapter 5 A.C. Machines; 5.1 Transformer emf Equation; 5.2 The Practical Transformer; 5.3 Measurement of Transformer Losses; 5.4 Transformer Efficiency; 5.5 Isolating Transformer; 5.6 The Auto Transformer; 5.7 Current Transformer; 5.8 Alternators; 5.9 Rotor Construction 5.10 Alternator emf Equation5.11 Alternator Losses; 5.12 The Production of a Rotating Magnetic Field from a Polyphase Supply; 5.13 Three-phase Induction Motor; 5.14 Three-phase Synchronous Motor; 5.15 Starting Methods for Three-phase Motors; 5.16 Single-phase Motors; Summary of Equations; Assignment Questions; Suggested Practical Assignments; Chapter 6 D.C. Machines; 6.1 The Generation of D.C. Voltage; 6.2 The Commutation Process; 6.3 Armature Reaction; 6.4 Construction of D.C. Machines; 6.5 Types of Armature Winding; 6.6 Generator emf Equation; 6.7 Classification of Generators 6.8 Separately Excited Generator |
Record Nr. | UNINA-9910785032903321 |
Robertson Christopher R
![]() |
||
Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Further electrical and electronic principles [[electronic resource] /] / Christopher R. Robertson |
Autore | Robertson Christopher R |
Edizione | [3rd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 |
Descrizione fisica | 1 online resource (280 p.) |
Disciplina | 621.3 |
Soggetto topico |
Electrical engineering
Electronics |
ISBN |
1-136-40151-2
1-282-71113-X 9786612711138 0-08-087812-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Further Electrical and Electronic Principles; Copyright; Contents; Preface; Chapter 1 Single-Phase Series A.C. Circuits; 1.1 Pure Resistance; 1.2 Pure Inductance; 1.3 Inductive Reactance; 1.4 Pure Capacitance; 1.5 Capacitive Reactance; 1.6 Impedance; 1.7 Inductance and Resistance in Series; 1.8 Resistance and Capacitance in Series; 1.9 Resistance, Inductance and Capacitance in Series; 1.10 Power in the A.C. Circuit; 1.11 Power Factor; 1.12 Power Triangle; 1.13 Series Resonance; Summary of Equations; Assignment Questions; Suggested Practical Assignments
Chapter 2 Single-Phase Parallel A.C. Circuits2.1 Summary of Series A.C. Circuits and Equations; 2.2 The R-C Parallel Circuit; 2.3 The R-L Parallel Circuit; 2.4 R-L-C Parallel Circuit; 2.5 Practical Components in Parallel; 2.6 Series Resonance; 2.7 Circuit Q-factor; 2.8 Frequency Response Curve; 2.9 Parallel Resonance; 2.10 The Importance of Power Factor; 2.11 Power Factor Correction; 2.12 Filters; 2.13 Low-pass Filters; 2.14 High-pass Filters; 2.15 Band-pass Filters; 2.16 Band-stop (Notch) Filters; 2.17 Coupled Tuned Circuits; Summary of Equations; Assignment Questions Suggested Practical AssignmentsChapter 3 Three-Phase A.C. Circuits; 3.1 Generation of a Three-Phase Supply; 3.2 Three-Phase, Four-Wire System; 3.3 Relationship between Line and Phase Quantities in a Star-connected System; 3.4 Delta or Mesh Connection; 3.5 Relationship between Line and Phase Quantities in a Delta-connected System; 3.6 Power Dissipation in Star and Delta-connected Loads; 3.7 Star/Delta Supplies and Loads; 3.8 Measurement of Three-phase Power; 3.9 The Two-Wattmeter Method; 3.10 Neutral Current in an Unbalanced Three-phase Load; 3.11 Advantages of Three-phase Systems Summary of EquationsAssignment Questions; Suggested Practical Assignments; Chapter 4 Network Theorems; 4.1 Superposition Theorem; 4.2 Constant Voltage and Constant Current Sources and their Equivalence; 4.3 Thévenin's Theorem; 4.4 Norton's Theorem; 4.5 The Maximum Power Transfer Theorem; Assignment Questions; Chapter 5 A.C. Machines; 5.1 Transformer emf Equation; 5.2 The Practical Transformer; 5.3 Measurement of Transformer Losses; 5.4 Transformer Efficiency; 5.5 Isolating Transformer; 5.6 The Auto Transformer; 5.7 Current Transformer; 5.8 Alternators; 5.9 Rotor Construction 5.10 Alternator emf Equation5.11 Alternator Losses; 5.12 The Production of a Rotating Magnetic Field from a Polyphase Supply; 5.13 Three-phase Induction Motor; 5.14 Three-phase Synchronous Motor; 5.15 Starting Methods for Three-phase Motors; 5.16 Single-phase Motors; Summary of Equations; Assignment Questions; Suggested Practical Assignments; Chapter 6 D.C. Machines; 6.1 The Generation of D.C. Voltage; 6.2 The Commutation Process; 6.3 Armature Reaction; 6.4 Construction of D.C. Machines; 6.5 Types of Armature Winding; 6.6 Generator emf Equation; 6.7 Classification of Generators 6.8 Separately Excited Generator |
Record Nr. | UNINA-9910799964403321 |
Robertson Christopher R
![]() |
||
Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Further electrical and electronic principles [[electronic resource] /] / Christopher R. Robertson |
Autore | Robertson Christopher R |
Edizione | [3rd ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 |
Descrizione fisica | 1 online resource (280 p.) |
Disciplina | 621.3 |
Soggetto topico |
Electrical engineering
Electronics |
ISBN |
1-136-40151-2
1-282-71113-X 9786612711138 0-08-087812-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Further Electrical and Electronic Principles; Copyright; Contents; Preface; Chapter 1 Single-Phase Series A.C. Circuits; 1.1 Pure Resistance; 1.2 Pure Inductance; 1.3 Inductive Reactance; 1.4 Pure Capacitance; 1.5 Capacitive Reactance; 1.6 Impedance; 1.7 Inductance and Resistance in Series; 1.8 Resistance and Capacitance in Series; 1.9 Resistance, Inductance and Capacitance in Series; 1.10 Power in the A.C. Circuit; 1.11 Power Factor; 1.12 Power Triangle; 1.13 Series Resonance; Summary of Equations; Assignment Questions; Suggested Practical Assignments
Chapter 2 Single-Phase Parallel A.C. Circuits2.1 Summary of Series A.C. Circuits and Equations; 2.2 The R-C Parallel Circuit; 2.3 The R-L Parallel Circuit; 2.4 R-L-C Parallel Circuit; 2.5 Practical Components in Parallel; 2.6 Series Resonance; 2.7 Circuit Q-factor; 2.8 Frequency Response Curve; 2.9 Parallel Resonance; 2.10 The Importance of Power Factor; 2.11 Power Factor Correction; 2.12 Filters; 2.13 Low-pass Filters; 2.14 High-pass Filters; 2.15 Band-pass Filters; 2.16 Band-stop (Notch) Filters; 2.17 Coupled Tuned Circuits; Summary of Equations; Assignment Questions Suggested Practical AssignmentsChapter 3 Three-Phase A.C. Circuits; 3.1 Generation of a Three-Phase Supply; 3.2 Three-Phase, Four-Wire System; 3.3 Relationship between Line and Phase Quantities in a Star-connected System; 3.4 Delta or Mesh Connection; 3.5 Relationship between Line and Phase Quantities in a Delta-connected System; 3.6 Power Dissipation in Star and Delta-connected Loads; 3.7 Star/Delta Supplies and Loads; 3.8 Measurement of Three-phase Power; 3.9 The Two-Wattmeter Method; 3.10 Neutral Current in an Unbalanced Three-phase Load; 3.11 Advantages of Three-phase Systems Summary of EquationsAssignment Questions; Suggested Practical Assignments; Chapter 4 Network Theorems; 4.1 Superposition Theorem; 4.2 Constant Voltage and Constant Current Sources and their Equivalence; 4.3 Thévenin's Theorem; 4.4 Norton's Theorem; 4.5 The Maximum Power Transfer Theorem; Assignment Questions; Chapter 5 A.C. Machines; 5.1 Transformer emf Equation; 5.2 The Practical Transformer; 5.3 Measurement of Transformer Losses; 5.4 Transformer Efficiency; 5.5 Isolating Transformer; 5.6 The Auto Transformer; 5.7 Current Transformer; 5.8 Alternators; 5.9 Rotor Construction 5.10 Alternator emf Equation5.11 Alternator Losses; 5.12 The Production of a Rotating Magnetic Field from a Polyphase Supply; 5.13 Three-phase Induction Motor; 5.14 Three-phase Synchronous Motor; 5.15 Starting Methods for Three-phase Motors; 5.16 Single-phase Motors; Summary of Equations; Assignment Questions; Suggested Practical Assignments; Chapter 6 D.C. Machines; 6.1 The Generation of D.C. Voltage; 6.2 The Commutation Process; 6.3 Armature Reaction; 6.4 Construction of D.C. Machines; 6.5 Types of Armature Winding; 6.6 Generator emf Equation; 6.7 Classification of Generators 6.8 Separately Excited Generator |
Record Nr. | UNINA-9910821634103321 |
Robertson Christopher R
![]() |
||
Amsterdam ; ; Boston, : Elsevier / Newnes, 2008 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|