Sinc Real Power Aperture Rectangular Antenna

[(Sin x)/x]^N curve distribution pattern, where N is a real number, with a rectangular pattern of illumination.

The gain pattern computations are based on the Cartesian Coordinate frame. The XY plane is the plane of illumination and the Z axis is the direction of the propagation.

Computing Gain Pattern Values

For a rectangular aperture antenna, the gain pattern values are computed on a unit sphere. STK computes and applies a gain factor. This gain factor computation is based on the aperture type, which eliminates the gain pattern anomalies observed at higher elevation angles off the antenna boresight. Refer to the reference below for details.

You can set the maximum gain value or let STK compute the gain pattern directivity factor value. STK uses a directivity factor to compute the maximum directivity along the boresight. The directivity factor is based on the aperture illumination type. For more information, see the reference below.

Note that you can override the directivity factor computed by STK.

If you specify a maximum gain value, this value is used to scale the overall antenna gain pattern.

Balanis, Constantine, Antenna Theory: Analysis and Design, New York: Wiley (1982), pp. 690-694.

Antenna Parameters

Parameter	Description
X/Y Dimension	The X Dimension and Y Dimension of the antenna size. Valid if Use Dimensions is selected. The beamwidths will be automatically calculated and displayed.
X/Y Dim Beamwidth	The X Dim Beamwidth and Y Dim Beamwidth of the antenna gain pattern. Valid if Use Beamwidth is selected. The dimensions will be automatically calculated and displayed.
Design Frequency	This is the frequency of the antenna. The antenna design frequency is independent of the operational frequency of a transmitter, receiver, or radar. Changing the frequency of a transmitter, receiver, or radar does not update an embedded antenna's design frequency, nor vice versa. The design frequency is solely used at antenna configuration time to compute the antenna size from its max gain or beamwidth settings. A mismatch between signal frequency and antenna design frequency typically causes performance degradation.
Main-lobe Gain	The main-lobe gain value. Valid if Computed is not selected. Select Computed to automatically calculate the main-lobe gain based on beamwidth or diameter, efficiency, and design frequency.
Efficiency	The antenna efficiency factor, ranging from 0 to 100 percent.
Back-lobe Gain	You can use back-lobe gain two different ways: A specified constant gain value for the back hemisphere of the gain pattern. Modeled as a fraction of the Main-lobe Gain, but in the opposite direction. For example, boresight gain is computed at a 0 degree elevation angle, the back-lobe attenuation factor is applied and the result is used as the gain at the 180 degree elevation angle. The backlobe gain is a mirror image of the forward gain, but with the backlobe gain applied as an attenuation factor. If “Use as main-lobe attenuation” is selected, the attenuation factor is applied on the main-lobe gain and the result is used in the back-lobe direction.
Function Power	A real number. The value must fall in the range 1-10.