BECKHOFF DK9222-1109-0015 User Manual

I/O

Wireless Automation

Application Note DK9222-1109-0015

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Fresnel zone, attenuation

Fresnel zone
In​radio​transmission,​the​space​between​the​transmitting​and​receiving​antennas​is​known​as​the​Fresnel​zone​(shown​grey​
here).​The​Fresnel​zone​corresponds​to​a​spheroid​between​the​two​antennas​and​should​be​free​of​obstructions​(e.g.​objects,​
houses,​trees,​etc.),​since​the​main​energy​is​transmitted​in​this​area.

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r

Fig. 5 Fresnel zone describes the space between transmitter and receiver.

Metal​obstructions​in​particular,​such​as​control​cabinets,​machine​parts,​pipes,​iron​girders,​etc.,​disturb​the​formation​of​
the​Fresnel​zone​and​considerably​limit​the​transmission​characteristics.​Each​obstruction​in​the​Fresnel​zone​attenuates​the​
transmission​in​accordance​with​the​size/surface​area​of​the​obstruction.​Reception​may​then​be​disturbed​or​completely​
interrupted​under​certain​circumstances.

However,​if​the​Fresnel​zone​is​free​of​obstructions,​the​propagating​radio​waves​are​attenuated​only​by​the​free​space​
attenuation​and​the​radius​of​the​Fresnel​zone​can​be​determined​in​accordance​with​diagram​1.​The​desired​range​is​plotted​
on​the​x‑axis.​The​resulting​radius​r​can​be​determined​on​the​y‑axis.​The​radius​r​is​also​equivalent​to​the​installation​height​of​
the​antenna.

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4

3,5

3

2,5

2

1,5

1

0,5

0

0 100 200 300 400 500

r/m

s/m

Diagram 1 Radius r of the Fresnel zone is equivalent to the installation height of the antenna.

New Automation Technology

Beckhoff

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For​application​notes​see​disclaimer​on​the​last​page