Plot 3D Array Gain of 4x4 Planar Antenna Pattern + Weighting

14 Aug. 2014
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Aktualisiert 15 Aug. 2014
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Hi folks
I created an uniform rectangula antenna array
f=3e9;
c=3e8;
lambda=c/f;
ura = phased.URA('Size',4, 'ElementSpacing',0.5*lambda);
As it is stated in the Help of the Phased Array Toolbox, it generates a 4x4 array in the yz-plane, which means that
% Azimuthal az
phi=0;
% Elevation el
theta=90;
1. Is this right?
Further, I would like to calculate the Array Gain A(psi), by using the dtft with
A(psi)= \sum_n a_n*z^n
z = e^(j*psi)
psi=(k_x,k_y,k_z)*d= wavefactor: (k*d*sin(theta)*cos(phi), k*d*sin(theta)*sin(phi), k*d*cos(phi))
k=2*pi/lambda = wavenumber
d=distance between array elements in (1/lambda)
Taking the values for theta and phi from above, I`ll get as a wavefactor only a value for the k_x direction, that is:
% psi= k*d = 2*pi/lambda*d = 2pi
Array Gain: I am trying to solve this problem with Z-Transformation but I dont get any reasonable results?
G = dtft(a_n,psi)
2. Is this right so far? How can I introduce the weights to the coefficients?
Moreover, I really would like to plot the Array Gain G in 3D polar plot.
3. How could I realize this?
I already found the Orfanidis`Toolbox but it does not help me. Looking forward to hearing from you guys.
Cheers, Bryana

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Antworten (1)

Honglei Chen
Honglei Chen am 14 Aug. 2014

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If you mean directivity, you could do the following to generate the 3D plot
f=3e9;
c=3e8;
lambda=c/f;
ura = phased.URA('Size',4, 'ElementSpacing',0.5*lambda);
plotResponse(ura,f,c,'RespCut','3d','Unit','dbi','Format','polar')

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Bryana
Bryana am 14 Aug. 2014
Hi,
thanks for your answer, but I already found this function. I am looking for a 3-D radiation pattern showing the Array Gain in all 3 dimensions.
Honglei Chen
Honglei Chen am 14 Aug. 2014
What do you mean by 3 dimensions? The syntax does plot a 3D radiation pattern.
Bryana
Bryana am 14 Aug. 2014
I mean the Radiation Pattern for az (phi 0:2*pi) and el (theta 0:pi) in yxz-dimension like the one in the attachment.
Honglei Chen
Honglei Chen am 14 Aug. 2014
I'd say that is what you want, just points to a different direction and with a backlobe. You can adjust the element to remove the backlobe and also rotate the axes to get a similar plot
f=3e9;
c=3e8;
lambda=c/f;
ura = phased.URA('Size',4, 'ElementSpacing',0.5*lambda,...
'Element',phased.CosineAntennaElement);
plotResponse(ura,f,c,'RespCut','3d','Unit','dbi','Format','polar')
set(gca,'CameraUpVector',[1 0 0]);
Bryana
Bryana am 15 Aug. 2014
Yeah, the diagram looks good. But, doesnt it show the Directivity D? I need to plot the Radiation pattern with its Main/Side/Grating Lobes. Wouldn`t that be in similar fashion something like this?:
% Gain_total = Element * Array Factor
Or in other words: Wouldn`t that just be the 2-D Antenna Pattern with polar coordinates transformed to 3D meshgrid?
Honglei Chen
Honglei Chen am 15 Aug. 2014
You can think that way, but the element pattern is 3D, also your example is a 3D polar plot. Everything plotted here is indeed in a 3D mesh grid. If you really want to see the axes, you can simply do
axis on
and you'll see axes. Is that your concern?
Bryana
Bryana am 15 Aug. 2014
Yeah. That`ll do the trick. Thanks alot!

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Bryana
Bryana
am 14 Aug. 2014

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