| 1. | The Smith chart is actually constructed on such a polar diagram.
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| 2. | Programs often process this into more common forms like Smith charts.
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| 3. | Optimal matching circuits can be designed for a particular system using Smith charts.
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| 4. | Often these will be scaled as Smith Charts.
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| 5. | The conversion may be read directly from the Smith chart or by substitution into the equation.
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| 6. | The following table gives some similar examples of points which are plotted on the Z Smith chart.
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| 7. | In terms of the reactance half-plane to the Smith chart used for impedance matching of transmission lines.
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| 8. | An alternative method is to plot the VSWR and distance to the node ( in wavelengths ) on a Smith chart.
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| 9. | The Smith chart scaling is designed in such a way that reflection coefficient can be converted to normalised impedance or vice versa.
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| 10. | From this plot the DUT impedance ( normalised to " Z " 0 ) can be read directly off the Smith chart.
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