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single source signal will vary a great deal. This will cause undesirable fading and distortion. We
cannot successfully directly mix multiple antennas for diversity reception for the same reasons we
do not want an antenna to respond to the same signal source over multiple paths, since we cannot
combine randomly varying phase and level signals without increasing fading or reducing signal-to-
noise (S/N) ratio.
There is no detrimental effect when a higher frequency array of small receiving elements is placed
inside the circle of a lower frequency array of short elements.
Note: The
DXE-RCA8C
Eight Circle Receiving Array System should be separated
from transmitting or other antennas and structures (particularly metal) by at least
1/2-wavelength. Less separation may cause significant pattern distortion and the
introduction of re-radiated noise into the system. This becomes apparent as
reduced front-to-rear directivity in one or more directions or a higher noise level.
Effects On Pattern
As far as pattern goes every directional array, no matter how constructed or designed, will always
interact with surrounding conductors. Adequate spacing is almost entirely dependent on electrical
characteristics of the surrounding conductors for a given style of receiving array.
For example, a given style array of similar dimensions from one company will be similarly affected
by surrounding conductors regardless of element design, for a given style of element. The effect on
pattern depends almost entirely on how much surrounding objects absorb and re-radiate signals, if
the undesired structure is in a null or peak of the receiving array, and how close the systems are in
terms of wavelength.
With so many variables involved, there is no optimum or minimum spacing for effects on pattern.
The best practice is to install the array as far as possible from tall conductors or noise sources, or
place potential problems in less frequently used directions. For best pattern, space the system as far
as possible from conductors that might be noise sources or re-radiate unwanted signals. One
wavelength or more is generally ideal, although adequate performance generally occurs with much
smaller spacing.
Site Selection in Relation to Noise Sources
Because the array is directional, use this example as a guide: If you have a noise source and if your
primary listening area is northeast, locate the array northeast of the dominant noise source. This
ensures the array is looking away from the source of noise when beaming in the primary listening
direction. The second-best location for the array is when the noise source is as far as possible from
either side of the array. If you look at patterns, the ideal location for the array is one that places
undesired noise in a deep null area.
If this receiving array is in an area free of noise sources (power lines, electric fences, etc.), locate
the array so transmitting antennas and buildings are located in a null direction or commonly unused
direction.
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