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Circuit Mason
Circuit Mason
Mason Overview
Download Mason
Download Mason
Download WaveMason
Download wxBounce
Change Log
Documentation
Table of Contents
Tutorials
Lesson 0: Basic Terms
Lesson 0: Section 2: Voltage, Current, Resistance, Power
Lesson 0: Section 3: Voltage Dividers
Lesson 0: Section 4: Other circuits
Lesson 1: Voltage Waves
Lesson 1: Section 2: Waves
Lesson 1: Section 3: Physical Waves
Lesson 1: Section 4: Voltage Waves and Propagation Delay
Lesson 1: Section 5: Wave Bounce Diagram for Simple Structures
Lesson 1: Section 5: Wave Reflections for Complex Structures
Lesson 1: Section 6: Wave Bounce Complex Structures
Lesson 1: Section 7: Wave Bounce Diagrams for Digital signals
Lesson 1: Section 8: Wave Bounce Diagrams for RF signals
the_old_page
Lesson 2: Reflections and Transmissions
Lesson 2 : Section 2 : Reflection and transmission in log scale
Lesson 2 : Section 3 : S-Parameters
Lesson 2 : Section 4: Voltage versus Power Gain
Lesson 2 : Section 5 : Interesting Scattering Parameter Properties
Lesson 2 : Section 6 : S-Parameters and multiple driven ports
Lesson 2 : Section 7 : Smith Charts
Lesson 2 : Section 8 : S-Parameters Equations
Lesson 3: Introduction to Simulation
Lesson 3 : Section 2 : Using Mason to Solve Circuits
Lesson 3 : Section 3 : Mason Plot
Lesson 3 : Section 4 : Observations
Lesson 4: Optimization with Variables
Lesson 4 : Section 2 : First Attempt at Improving the Quarter-Wave Transformer
Lesson 4 : Section 3 : Second Attempt
Lesson 4 : Section 4 : Using the Optimizer
Lesson 5: Power Dividers and Advanced Optimization Techniques
Lesson 5 : Section 2 : Dividers
Lesson 5 : Section 3 : Sets with a Wilkinson with a Extra Line Legnth
Lesson 6: Statistical Design
Lesson 6 : Section 2 : Statistical Analysis
Lesson 6 : Section 3 : Statistical Optimization
Lesson 7: Dynamic components versus subcircuits
Lesson 8: PrimCalc
Lesson 9: Lossless Taper Design
Lesson 10: Broadband Wilkinson Design
Lesson 11: Broadband matching with Constant Q Lines
Lesson 12: Printed Circuit Board Layout with Circuit Mason
Lesson 13: Antenna Array with WiFi Measurement
Lesson 14: Final Words
Advanced Topics
Advanced S-Parameters
Advanced Smith Charting
Broadband Wilkinson
Lossless taper
Project Definition
Circuit Mason
Circuit Mason
Mason Overview
Download Mason
Download Mason
Download WaveMason
Download wxBounce
Change Log
Documentation
Table of Contents
Tutorials
Lesson 0: Basic Terms
Lesson 0: Section 2: Voltage, Current, Resistance, Power
Lesson 0: Section 3: Voltage Dividers
Lesson 0: Section 4: Other circuits
Lesson 1: Voltage Waves
Lesson 1: Section 2: Waves
Lesson 1: Section 3: Physical Waves
Lesson 1: Section 4: Voltage Waves and Propagation Delay
Lesson 1: Section 5: Wave Bounce Diagram for Simple Structures
Lesson 1: Section 5: Wave Reflections for Complex Structures
Lesson 1: Section 6: Wave Bounce Complex Structures
Lesson 1: Section 7: Wave Bounce Diagrams for Digital signals
Lesson 1: Section 8: Wave Bounce Diagrams for RF signals
the_old_page
Lesson 2: Reflections and Transmissions
Lesson 2 : Section 2 : Reflection and transmission in log scale
Lesson 2 : Section 3 : S-Parameters
Lesson 2 : Section 4: Voltage versus Power Gain
Lesson 2 : Section 5 : Interesting Scattering Parameter Properties
Lesson 2 : Section 6 : S-Parameters and multiple driven ports
Lesson 2 : Section 7 : Smith Charts
Lesson 2 : Section 8 : S-Parameters Equations
Lesson 3: Introduction to Simulation
Lesson 3 : Section 2 : Using Mason to Solve Circuits
Lesson 3 : Section 3 : Mason Plot
Lesson 3 : Section 4 : Observations
Lesson 4: Optimization with Variables
Lesson 4 : Section 2 : First Attempt at Improving the Quarter-Wave Transformer
Lesson 4 : Section 3 : Second Attempt
Lesson 4 : Section 4 : Using the Optimizer
Lesson 5: Power Dividers and Advanced Optimization Techniques
Lesson 5 : Section 2 : Dividers
Lesson 5 : Section 3 : Sets with a Wilkinson with a Extra Line Legnth
Lesson 6: Statistical Design
Lesson 6 : Section 2 : Statistical Analysis
Lesson 6 : Section 3 : Statistical Optimization
Lesson 7: Dynamic components versus subcircuits
Lesson 8: PrimCalc
Lesson 9: Lossless Taper Design
Lesson 10: Broadband Wilkinson Design
Lesson 11: Broadband matching with Constant Q Lines
Lesson 12: Printed Circuit Board Layout with Circuit Mason
Lesson 13: Antenna Array with WiFi Measurement
Lesson 14: Final Words
Advanced Topics
Advanced S-Parameters
Advanced Smith Charting
Broadband Wilkinson
Lossless taper
Project Definition
More
Circuit Mason
Mason Overview
Download Mason
Download Mason
Download WaveMason
Download wxBounce
Change Log
Documentation
Table of Contents
Tutorials
Lesson 0: Basic Terms
Lesson 0: Section 2: Voltage, Current, Resistance, Power
Lesson 0: Section 3: Voltage Dividers
Lesson 0: Section 4: Other circuits
Lesson 1: Voltage Waves
Lesson 1: Section 2: Waves
Lesson 1: Section 3: Physical Waves
Lesson 1: Section 4: Voltage Waves and Propagation Delay
Lesson 1: Section 5: Wave Bounce Diagram for Simple Structures
Lesson 1: Section 5: Wave Reflections for Complex Structures
Lesson 1: Section 6: Wave Bounce Complex Structures
Lesson 1: Section 7: Wave Bounce Diagrams for Digital signals
Lesson 1: Section 8: Wave Bounce Diagrams for RF signals
the_old_page
Lesson 2: Reflections and Transmissions
Lesson 2 : Section 2 : Reflection and transmission in log scale
Lesson 2 : Section 3 : S-Parameters
Lesson 2 : Section 4: Voltage versus Power Gain
Lesson 2 : Section 5 : Interesting Scattering Parameter Properties
Lesson 2 : Section 6 : S-Parameters and multiple driven ports
Lesson 2 : Section 7 : Smith Charts
Lesson 2 : Section 8 : S-Parameters Equations
Lesson 3: Introduction to Simulation
Lesson 3 : Section 2 : Using Mason to Solve Circuits
Lesson 3 : Section 3 : Mason Plot
Lesson 3 : Section 4 : Observations
Lesson 4: Optimization with Variables
Lesson 4 : Section 2 : First Attempt at Improving the Quarter-Wave Transformer
Lesson 4 : Section 3 : Second Attempt
Lesson 4 : Section 4 : Using the Optimizer
Lesson 5: Power Dividers and Advanced Optimization Techniques
Lesson 5 : Section 2 : Dividers
Lesson 5 : Section 3 : Sets with a Wilkinson with a Extra Line Legnth
Lesson 6: Statistical Design
Lesson 6 : Section 2 : Statistical Analysis
Lesson 6 : Section 3 : Statistical Optimization
Lesson 7: Dynamic components versus subcircuits
Lesson 8: PrimCalc
Lesson 9: Lossless Taper Design
Lesson 10: Broadband Wilkinson Design
Lesson 11: Broadband matching with Constant Q Lines
Lesson 12: Printed Circuit Board Layout with Circuit Mason
Lesson 13: Antenna Array with WiFi Measurement
Lesson 14: Final Words
Advanced Topics
Advanced S-Parameters
Advanced Smith Charting
Broadband Wilkinson
Lossless taper
Project Definition
Statistical Block
Copyright 2010, Gregory Kiesel
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