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![Page 1: Smith Chart - jwctech.com · Smith Chart and Reflection coefficient Smith Chart is a polar plot of the voltage reflection coefficient, overlaid with impedance grid. So, you can covert](https://reader031.vdocument.in/reader031/viewer/2022040108/5e03db333886f335525792eb/html5/thumbnails/1.jpg)
Smith Chart
Weimin Peng
JWC technologies, Inc.
www.jwctech.com
(972)207-0917
![Page 2: Smith Chart - jwctech.com · Smith Chart and Reflection coefficient Smith Chart is a polar plot of the voltage reflection coefficient, overlaid with impedance grid. So, you can covert](https://reader031.vdocument.in/reader031/viewer/2022040108/5e03db333886f335525792eb/html5/thumbnails/2.jpg)
• Smith Chart was developed by P. Smith at the Bell Lab in 1939
• Smith Chart provides an very useful way of visualizing the transmission line phenomenon and matching circuits.
• In this slide, for convenience, we assume the normalized impedance is 50 Ohm.
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Smith Chart and Reflection coefficient
Smith Chart is a polar plot of the voltage reflection coefficient, overlaid with impedance grid. So, you can covert the load impedance to reflection coefficient and vice versa.
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Smith Chart and impedance
Examples:
The upper half of the smith chart is for inductive impedance. The lower half of the is for capacitive impedance.
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Constant Resistance Circle
And the impedance on this circle r = 1 with different inductance (upper circle) and capacitance (lower circle)
This produces a circle where
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More on Constant Impedance Circle
The circles for normalized rT = 0.2, 0.5, 1.0, 2.0 and 5.0 with
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Constant Inductance/Capacitance Circle
Similarly, if xT is hold unchanged and vary the rT
You will get the constant Inductance/capacitance circles.
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Constant Conductance and Susceptance Circle
Reflection coefficient in term of admittance:
And similarly, We can draw the constant conductance circle (red) and constant susceptance circles(blue).
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Example 1: Find the reflection coefficient from input impedance
Example1: Find the reflection coefficient of the load impedance of:
Step 1: In the impedance chart, find 1+2j. Step 2: Measure the distance from (1+2j) to the Origin w.r.t. radius = 1, which is read 0.7 Step 3: Find the angle, which is read 45° Now if we use the formula to verify the result. The result is
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Example 2: Adding an inductor in series with load
Step 1: In the smith chart, find the load Zload
Step 2: Rotate along the constant r circle by the amount of ( ) The terminal point is the input impedance of the inductor in series with the load.
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Summary: Adding inductive/Capacitive Components to the Load
The effect of adding inductive and capacitive component with the load.
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Impedance Matching Example 1
The load is at 0.4 Ω + j1.5 Ω, the reference impedance is 50 Ω. Step 1: Add a serial capacitor to move the impedance to 1 + jx along a constant resistance circle Step 2: Add a parallel inductor to move the impedance to 1 along a constant conductance circle. Note: The matching circuit is a high pass filter
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Impedance Matching Example 2
The load is at 0.4 Ω + j1.5 Ω, the reference impedance is 50 Ω. Step 1: Add a parallel capacitor to move the impedance to 1 + jx along a constant conductance circle Step 2: Add a serial inductor to move the impedance to 1 along a constant resistance circle. Note: The matching circuit is a low pass filter
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Impedance Matching Example 3
The load is at 0.4Ω + j1.5, the reference impedance is 50 Ω. Step 1: Add a cable to rotate the load admittance to 1 + jb along a constant reflection coefficient circle Step 2: Add a short stud to move the load admittance to 1 along a constant admittance circle. Note: The matching circuit is a low pass filter