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Ohmic losses- not microstrip.
Hello all. If we assume that the antenna's surrounding is air, then my assumption is that dielectric losses for the antenna are rather negligible. What type of antennas are usually showing higher effect of ohmic losses?
I mean, I know that reflector antennas are usually little susceptible to ohmic losses. But some types are not, my assumption would be loop antennae, Another thing is attenuation in waveguides. I assume that it would be the case with many tens of GHZ, for rectangular device. But, as I am only guessing, as I have been out of the game for long. |
Ohmic losses- not microstrip.
ldagan wrote on 8/6/2017 7:17 AM:
Hello all. If we assume that the antenna's surrounding is air, then my assumption is that dielectric losses for the antenna are rather negligible. What type of antennas are usually showing higher effect of ohmic losses? I mean, I know that reflector antennas are usually little susceptible to ohmic losses. But some types are not, my assumption would be loop antennae, Another thing is attenuation in waveguides. I assume that it would be the case with many tens of GHZ, for rectangular device. But, as I am only guessing, as I have been out of the game for long. Small loop antenna work with large currents and so suffer from ohmic losses more than many other types. -- Rick C |
That is not what I was looking for, exactly
first of all, thanks.
I mean, yes, currents are higher, but I was talking in relative terms, not absolute terms. I mean, reflectors and horn antennas can send very strong currents, or are you referring to high current density? -Lior |
Ohmic losses- not microstrip.
ldagan wrote on 8/6/2017 1:40 PM:
first of all, thanks. I mean, yes, currents are higher, but I was talking in relative terms, not absolute terms. I mean, reflectors and horn antennas can send very strong currents, or are you referring to high current density? The current density depends on your design. If you use a very small conductor for a loop the density will be higher than if you use a large conductor. But in both cases the current in the conductor will be much higher than in many other antenna types. -- Rick C |
Ohmic losses- not microstrip.
On Sun, 6 Aug 2017 12:17:16 +0100, ldagan
wrote: Hello all. If we assume that the antenna's surrounding is air, then my assumption is that dielectric losses for the antenna are rather negligible. What type of antennas are usually showing higher effect of ohmic losses? I mean, I know that reflector antennas are usually little susceptible to ohmic losses. But some types are not, my assumption would be loop antennae, Yes, loop antennas can be VERY sensitive to resistive losses thanks to very high currents through the loop. The SLA (small loop antenna) magnetic loop performance is highly dependent on having the highest possible Q (to a limit where it becomes less than the modulation bandwidth). Any series resistance would ruin the Q which is why mechanical joints are soldered or brazed. Try playing with the AA5TB SLA spreadsheet calculator at: http://www.aa5tb.com/aa5tb_loop_v1.22a.xls and watch what happens at low frequencies to the efficiency when you increase the "added loss resistance". Notice that it's in milliohms. Another thing is attenuation in waveguides. I assume that it would be the case with many tens of GHZ, for rectangular device. But, as I am only guessing, as I have been out of the game for long. At GHZ frequencies, the skin depth is quite shallow. Therefore, only the inside surface plating really needs to be low resistance. I've worked with silver plated rigid molded PLASTIC WR90 X band waveguide which worked but had mechanical rigidity problems. We also had problems with cracked plating on outside 90 degree corners, such as on flange to waveguide connections. https://www.microwaves101.com/encyclopedias/waveguide-construction http://www.eenewsautomotive.com/news/plastic-waveguides-future-communication-networks -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Ohmic losses- not microstrip.
Jeff Liebermann wrote on 8/6/2017 7:20 PM:
On Sun, 6 Aug 2017 12:17:16 +0100, ldagan wrote: Another thing is attenuation in waveguides. I assume that it would be the case with many tens of GHZ, for rectangular device. But, as I am only guessing, as I have been out of the game for long. At GHZ frequencies, the skin depth is quite shallow. Therefore, only the inside surface plating really needs to be low resistance. I've worked with silver plated rigid molded PLASTIC WR90 X band waveguide which worked but had mechanical rigidity problems. We also had problems with cracked plating on outside 90 degree corners, such as on flange to waveguide connections. https://www.microwaves101.com/encyclopedias/waveguide-construction http://www.eenewsautomotive.com/news/plastic-waveguides-future-communication-networks Silver is only some 10% better conductivity than copper and you lose about half that back due to the skin effect. So in reality it is only around 5% more effective (unless I'm remembering the numbers wrong and it's actually 20 and 10 per cent). From what I've read a much larger effect is surface roughness at the really high frequencies. If the roughness is comparable to the skin effect depth it creates a longer, more resistive path. -- Rick C |
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