Thank you so much for this video! I've been trying to figure out what EIRP for context at work, and thanks to your wonderful teaching-via-diagramed-formulas it's starting to click!

I have never found a better explanation than this. Absolutely brilliant mind! God bless you friend

9:30 Just to make sure, I think the words "effective area" doesn't mean area of the beam. It means imagining an equivalent isotropic with its receiving area scaled up by Gr. The reason is that receiving area for directive antenna is undefined but it is defined for isotropic (lambda^2/4pi). Similarly, at the transmitter, the power density is undefined for a directive antenna but it is defined for a sphere (Pt/4pi d^2). It seems that we can only analyse when we work in terms of isotropics.

Thank you for this video. I just started an internship and had no idea what gain or the friis equation was but thanks to you I have a decent understanding

This is very clearly explained! Thank you!

Really well done. 👍

Wow, very nice explanation. Thank you very much for the share!

At 5:39, is lambda squared the cross-sectional area?

Where can I find the derivation of 5:41? I really want to understand that tricky part.

Excellent!!!!

Amazing, thank you!😀

Excellent video!

So EDRP and EIRP? gain is the result when two make contact? regardless of direction?

Thanks a lot, I know Ae is a theroretical quantity of an antenna and it depends of lambda. Is it really Independent of the antenna size? An array has the same Ae like a dipol - assumed both are for the same frequency made thanks

I wonder if the E in EIRP stands for "equivalent" or "effective"? Some texts use both. The word "equivalent" makes more sense because its how much power you would need to put in an isotropic to achieve the same level. Also there's ERP when using non-isotropic antennas, but EIRP makes most sense intuitively because isotropic has zero gain and it makes sense to reference other antennas to this. Also in EIRP, the gain must be in dBi.

What an excellent explanation

Great video thanks

Could you do a video on TEM wave in lossless isotropic free space. An explanation of why the E field component and H field are in phase for an EM wave?

concepts and relationships are explained crystal clear One question: Why is EIRP important in OTA testing? the last equation (P_out) does not contain EIRP.

Thank you, so the gain can be always determined by taking the ratio of either the squared voltages or the power. Is that right? Thanks.

I need your help please

Can you illustrate difference between gain and directivity ?

I am currently studying for my Ham Licence exam here in New Zealand, It's starting to sink in sort of. I am also a sailor , so in practical terms I make the parallel between what I already know with how a lighthouse " Fresnel lens" works to take the total energy (P= wattage) of a small bulb and focus it into one very tightly controlled beam that can travel many N-miles to the horizon, keeping us hopefully safer and on the right passage, Kind of the same, but different in that light doesn't bounce off the ionosphere like DX radio waves do.Oh and of course there is no gain in the human eye unless you have some night vision goggles or telescope eyes . LoL . Thanks for your video, expressing this physical / practical world I know and have experience in the real world in mathematical terms/ symbols and ratios is taking a leap of faith that is not easy for getting my brain around, or second nature for me. Math was not my best subject at school , but you breaking it down has certainly helped put me towards understanding a little more of the greater picture, and of course I actually want to understand what I am learning rather than just parroting off the answers. Regards and 73's Kris

Very clear explanations, thank you! Please correct me if I'm wrong - but I *think* I understand why standards like AS/NZ 4268 define a maximum EIRP for a given frequency band. They are interested in real-world emissions, they don't particularly care how powerful the transmitter is, but more concerned with what is emitted in worst case (i.e. something in the path of the main lobe). AS/NZ 4268 points to EN 300 220-1 for measurement methods. I can't see reference to EIRP, only ERP. The measurement is to connect the transmitter to a dummy load and measured with measurement receiver (RF voltmeter or spectrum analyser), then the maximum antenna gain is added to this. In AS/NZ 4268 they state "ERP will always be 2.15dB less than EIRP". Does this mean we just add 2.15 to ERP to get the EIRP value? What is the significance of the "2.15dB" value? Sorry I got in the weeds a bit - I'm trying to learn this subject as a novice - so I really appreciate your videos! :)

hello sir! is there a voltage intensity in isotropic antennas?Thank you...by the way, very nice video. thank you

I think what could have been included is how the Friis formula leads to the impression that lower frequencies travel further due to the presence of the lambda squared term. This is misleading as the lambda term determines the effective area where power from the wave is extracted. Propagation in free space is infact independent of frequency. The real reason lower frequencies seem to travel further is propagation mechanisms that are available to it that are not available at higher frequencies.