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Array factor

From Wikipedia, the free encyclopedia

An array is simply a group of objects, and the array factor is a measure of how much a specific characteristic changes because of the grouping. This phenomenon is observed when antennas are grouped together. The radiation (or reception) pattern of the antenna group is considerably different from that of a single antenna. This is due to the constructive and destructive interference properties of radio waves. A well designed antenna array, allows the broadcast power to be directed to where it is needed most.

These antenna arrays are typically one dimensional, as seen on collinear dipole arrays, or two dimensional as on military phased arrays.

In order to simplify the mathematics, a number of assumptions are typically made:

 1. all radiators are equal in every respect
 2. all radiators are uniformly spaced
 3. the signal phase shift between radiators is constant.

The array factor is the complex-valued far-field radiation pattern obtained for an array of isotropic radiators located at coordinates , as determined by:[1]

where are the complex-valued excitation coefficients, and is the direction unit vector. The array factor is defined in the transmitting mode,[2] with the time convention . A corresponding expression can be derived for the receiving mode, where a negative sign appears in the exponential factors, as derived in reference.[3]

References

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  1. ^ Balanis, C. A. Antenna Theory, Analysis and Design (3 ed.). p. 291.
  2. ^ "IEEE Standard for definitions of terms for antennas". IEEE STD. 2014.
  3. ^ Frid, Henrik (2020). Analysis and Optimization of Installed Antenna Performance. Stockholm, Sweden: KTH (PhD thesis). pp. 36–39. ISBN 978-91-7873-447-4.

See also

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