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Aperture Antennas INEL 5305 Prof. Sandra Cruz-Pol ECE, UPRM Ref. Balanis Chpt. 12.

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Presentation on theme: "Aperture Antennas INEL 5305 Prof. Sandra Cruz-Pol ECE, UPRM Ref. Balanis Chpt. 12."— Presentation transcript:

1 Aperture Antennas INEL 5305 Prof. Sandra Cruz-Pol ECE, UPRM Ref. Balanis Chpt. 12

2 Aperture Antennas Most common at microwave frequencies Can be flushed-mounted We will analyze radiation characteristics at far field – Rectangular aperture – Circular aperture

3 Far field is the F of the near field Fourier Transform for 1-D For two-dimensions, x and y; f t

4 Properties of Fourier Transform

5 Taking the Fourier transform of the 2 equations above:

6 Now, we define, And we obtain, Which has a solution of Then we take the inverse transform

7 If z=0, then, we are at the aperture Which looks like: Which is the inverse of F…

8 This is the Fourier transform for 2 dimensions, so: Therefore, if we know the field at the aperture, we can used these equations to find E(r). =>First, we’ll look at the case when the illumination at the rectangular aperture it’s uniform. It can be shown that,

9 Uniformly illuminated rectangular aperture *Note: in Balanis book, the aperture is axb, so no 4 factor on the eq. above.

10 How does this pattern looks…

11 TE 10 illuminated rectangular aperture

12 Rectangular Aperture: Directivity For TE 10 illuminated Rectangular Aperture the aperture efficiency is around 81%. For the uniform illumination, is 100% but in practice difficult to implement uniform illumination.

13 Circular Aperture (Uniform illumination) In this case we use cylindrical coordinates

14 Circular Aperture w/ uniform illumination For TE 11 illuminated Circular Aperture the aperture efficiency is around 84%. For the uniform illumination, is 100% but in practice difficult to implement uniformity

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