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Engineering
Electrical Engineering
Electromagnetics
1. Foundations of Electromagnetics
2. Electrostatics
3. Magnetostatics
4. Time-Varying Electromagnetic Fields
5. Electromagnetic Wave Propagation
6. Wave Reflection and Transmission
7. Transmission Lines
8. Waveguides and Resonant Structures
9. Antennas and Radiation
10. Advanced Electromagnetic Topics
Transmission Lines
Transmission Line Theory
Distributed Circuit Model
Resistance per Unit Length
Inductance per Unit Length
Conductance per Unit Length
Capacitance per Unit Length
Telegrapher's Equations
Voltage and Current Equations
Wave Solutions
Characteristic Parameters
Characteristic Impedance
Propagation Constant
Attenuation Constant
Phase Constant
Wave Propagation on Transmission Lines
Forward and Backward Waves
Incident Waves
Reflected Waves
Lossless Transmission Lines
Simplified Parameters
Phase Velocity
Wavelength on Line
Low-Loss Transmission Lines
Attenuation Effects
Distortion
Lossy Transmission Lines
High-Loss Behavior
Distortionless Condition
Terminated Transmission Lines
Load Reflection Coefficient
Definition and Calculation
Relationship to Load Impedance
Input Impedance
General Expression
Special Cases
Voltage Standing Wave Ratio
Definition and Measurement
Relationship to Reflection Coefficient
Special Terminations
Short-Circuit Termination
Open-Circuit Termination
Matched Termination
Reactive Terminations
Transmission Line Applications
Quarter-Wave Transformers
Impedance Transformation
Bandwidth Considerations
Half-Wave Lines
Impedance Repetition
Stub Matching
Short-Circuit Stubs
Open-Circuit Stubs
Single-Stub Matching
Double-Stub Matching
Smith Chart
Smith Chart Construction
Impedance Coordinates
Admittance Coordinates
Smith Chart Applications
Impedance Calculations
VSWR Determination
Matching Network Design
Normalized Impedance and Admittance
Normalization Process
Chart Reading Techniques
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6. Wave Reflection and Transmission
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8. Waveguides and Resonant Structures