Fundamentals of electrical engineering.

This book covers the basic principles of electrical engineering. The depth of content and presentation is intended for students in the field of mechatronics, especially those with a background in mechanics or mechanical engineering. In addition to theoretical sections and practical applications, the...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Felix Huning
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Berlin : De Gruyter, 2014.
Temas:
Electrical engineering > Textbooks.
Mechatronics > Textbooks.
Electrical engineering
Mechatronics
Textbooks
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Table of contents; 1. The fundamentals of solid-state physics; 1.1 Charge carriers, crystal structure and conductivity; 1.2 The electrical properties of solids; 2. Fundamental electrical laws; 2.1 The basics of electric field theory; 2.2 Electric potential and voltage; 2.3 Displacement field and electric flux; 2.4 Electric current and current density; 3. Fundamental circuit elements; 3.1 Electric circuits; 3.2 Consumer and generator system; 3.3 Voltage sources; 3.4 Ideal current sources; 3.5 Resistance, resistors and Ohm's law; 3.5.1 Real resistors; 3.5.2 Short circuit and open load.
  • 3.5.3 Real voltage sources3.5.4 Real current sources; 3.5.5 Transformation of sources; 4. Fundamental electrical circuit laws; 4.1 Kirchhoff's laws; 4.1.1 Kirchhoff's current law; 4.1.2 Kirchhoff's voltage law; 4.2 Operating point; 4.3 Wye-Delta transformation; 4.4 Meters and measurements; 4.5 Power and energy; 4.6 Maximum power transfer; 4.7 Dependent and independent sources; 5. Circuit analysis; 5.1 Nodal analysis; 5.2 Mesh analysis; 5.3 Linearity and Superposition; 5.4 Two-terminal circuit and Thévenin's theorem; 5.5 Norton's theorem; 6. Operational amplifier; 6.1 Operational amplifier.
  • 6.2 Operational amplifier circuits7. Time domain circuit analysis; 7.1 Capacitor; 7.2 Inductors; 7.3 Transient effects and switching; 7.3.1 First order circuit
  • the natural response; 7.3.2 First order circuit
  • complete response; 7.3.3 Second order circuit
  • the natural response; 7.3.4 Second order circuit
  • the complete response; 7.4 AC Analysis; 7.4.1 Vector diagram; 7.4.2 Complex numbers; 7.4.3 Application of complex numbers to AC circuits; 7.4.4 AC circuits; 7.4.5 Kirchhoff's laws for AC circuits; 8. Building blocks; 8.1 High-pass filter; 8.2 Bode plot; 8.3 Low-pass filter.
  • 8.4 Higher order filters8.5 Active filter; 9 AC power; 9.1 AC power of a pure resistive two terminal network; 9.2 AC power of a pure inductive two terminal network; 9.3 AC power of a mixed two terminal network with L, R and C; 10. Oscillating circuits; 10.1 Series configuration; 10.2 Parallel configuration; 11. Semiconductor devices; 11.1 Diode; 11.2 Bipolar transistor; 11.3 MOSFET; 12. Circuit simulation; PSPICE; References; Index.

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