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Hi there. This is again Sergey from Cambium. :) It's very controversial statement that higher gain antenna is the wrong solution. To prove that, you're demonstrating the animation where a terrible pattern becomes bigger. But the thing is - this animation demonstrates the same antenna pattern, which means the same gain. G=e*D (efficiency * Directivity). Antenna with higher gain should have better directivity, which means narrower main lobes, and less side lobes. So higher gain antenna IS ALWAYS the right solution.

using a parbolic dish to amplify gain is it good? for lte bands 1 3 7 8 for example

Ok, off to find a video explaining side lobes..

Thank you very much

Thankyou :)

I don't believe this is correct. The "jittery line" he's referring to is the Noise Level. The Noise Floor is the smallest level of noise your instruments can measure. Furthermore, the Noise Figure is the ratio of the Noise Floor to the Theoretical Noise Floor (-174 dBm/Hz). Let's see if I can clear up all the terminology. Start with five signal levels, actual or theoretical (I'm making up all but one of the numbers): Input signal = -47 dBm (the actual signal) Noise Level = -67 dBm (the actual noise level, measured at the instrument) Noise Floor = -140 dBm (the lowest noise level my analyzer can measure) Theoretical Noise Floor = -174 dBm/Hz (the theoretically lowest possible noise level) at 20ºC Noise Figure = (-140 dBm) - (-174 dBm/Hz) = 34 dBm/Hz (at 20ºC in this particular case, at the △f of interest) And BTW, the Noise Factor is another term for Noise Figure.

Is higher negative floor noise is better or worse ?

still have a question. in an enterprise environment with many aps on channels 1, 6, and 11, if there are other rogue APs on the same channels, are those considered part of the noise floor because theyre unwanted?

thanks

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reduce transmitte power will reduce the noise 🙂