E-books. Design of electrical equipment, power supply, electric drive, lighting equipment, etc.
Matyushchenko V.S. Theoretical bases of electrical engineering. Linear electric circuits of permanent and single-phase sinusoidal currents: Textbook. - Khabarovsk: Publishing House of the FENU, 2002. - 111 p .: ill.
1. Linear DC electric circuits
1.1. Electrical circuit and its components
1.2. Ohm's law for a circuit with an EMF
1.3 Calculation of complex electric circuits of direct current
1.3.1. Kirchhoff's method of equations
1.3.2. Nodal potential method
1.3.3. Contour Currents Method
1.3.4. Overlay method
1.3.5. Equivalent transformation of a triangle and a resistance star
1.4. Passive and active two-ports. The theorem on an active two-terminal network
1.5. Equivalent generator method
1.6. DC power transmission line
2. Electric circuits of single-phase sinusoidal current
2.1. The law of electromagnetic induction
2.2. Getting a sinusoidal emf. Characteristics of sinusoidal magnitudes. Designations in alternating current circuits
2.3. The effective value of alternating current
2.4. Representation of a sinusoidal time function by a rotating vector. Vector diagrams
2.5. Basic information about complex numbers
2.6. The representation of sinusoidal time functions by complex numbers
2.7. Methods for specifying sinusoidal current
2.8. Kirchhoff's laws in sinusoidal current circuits. Methods for calculating sinusoidal current circuits
2.9. The concept of active resistance. Sine-wave current in active resistance
2.10. Self-induction. Inductance. Sine-wave current in inductance
2.11. Sinusoidal current in the tank
2.12. Serial connection of active resistance, inductance and capacitance
2.13. Parallel connection of active resistance, inductance and capacitance
2.14. Passive two-terminal network in a sinusoidal current circuit. Equivalent resistance and conductivity
2.15. Ohm's law in symbolic form for an arbitrary chain
2.16. On the calculation of sinusoidal current circuits
2.17. Resonances in electrical circuits
2.18. Energy and power in the sinusoidal current circuit
3. Circuits with mutual inductance
3.1. The phenomenon of mutual induction.
3.2. Sequential connection of inductively coupled elements
3.3. Parallel connection of inductively coupled elements
3.4. Marking clamps of inductively coupled coils
3.5. Complex circuit with mutual inductance
3.6. Equivalent replacement of inductive bonds
3.7. Transformer without steel core
Comments
When commenting on, remember that the content and tone of your message can hurt the feelings of real people, show respect and tolerance to your interlocutors even if you do not share their opinion, your behavior in the conditions of freedom of expression and anonymity provided by the Internet, changes Not only virtual, but also the real world. All comments are hidden from the index, spam is controlled.