UsefulLinks
Engineering
Electrical Engineering
Circuit Analysis and Design
1. Fundamentals of Electric Circuits
2. Resistive Circuit Analysis
3. Systematic Circuit Analysis Methods
4. Circuit Theorems and Network Analysis
5. Operational Amplifiers
6. Energy Storage Elements and Transient Analysis
7. Sinusoidal Steady-State Analysis
8. AC Power Analysis
9. Frequency Response and Resonance
10. Filter Circuits
11. Magnetically Coupled Circuits
12. Two-Port Network Analysis
13. Circuit Design Fundamentals
11.
Magnetically Coupled Circuits
11.1.
Mutual Inductance
11.1.1.
Physical Basis of Mutual Inductance
11.1.2.
Mathematical Definition
11.1.3.
Dot Convention and Polarity
11.1.4.
Coupling Coefficient
11.2.
Analysis of Coupled Circuits
11.2.1.
Voltage Equations for Coupled Coils
11.2.2.
Energy Storage in Coupled Circuits
11.2.3.
Equivalent Circuit Models
11.3.
Transformer Principles
11.3.1.
Ideal Transformer Model
11.3.1.1.
Turns Ratio Relationships
11.3.1.2.
Voltage and Current Transformation
11.3.1.3.
Power Conservation
11.3.2.
Practical Transformer Considerations
11.3.2.1.
Leakage Inductance
11.3.2.2.
Winding Resistance
11.3.2.3.
Core Losses
11.3.3.
Impedance Transformation
11.3.3.1.
Referred Impedance Concept
11.3.3.2.
Load Matching Applications
11.4.
Three-Phase Systems Introduction
11.4.1.
Three-Phase Generation
11.4.2.
Wye and Delta Connections
11.4.3.
Line and Phase Relationships
11.4.4.
Balanced vs. Unbalanced Systems
Previous
10. Filter Circuits
Go to top
Next
12. Two-Port Network Analysis