Fourstringburn, apparently you ignored the post I was responding to, then read a ton into what I said while ignoring other key aspects of my post. Lets start with what I was responding to and part of what I said in response...
It's not all about vswr!! There are other factors.
Then I responded with...
This is true, yet when many people get an antenna analyzer all they use the increased abilities of the antenna analyzer to help them tune SWR...
So I started that post agreeing with you that the other variables are important, and should be looked at. I was in fact complaining about those who don't use an antenna analyzer in such a way. In essence I agreed with your entire premise of antenna analyzers right here.
Now to get to your question, the one you specifically stated you want an answer from me on... Not a problem, here is the quote and my response...
Why would you say that an ideal reading on a Analyzer like so wouldn't be the best possible tune or performance? PLEASE EXPLAIN YOUR STATEMENT!
Easy enough. First off, what makes you think that R=50 and X=0 is an ideal tune in the first place? If you think it is an ideal tun in any way then you are yourself stuck on SWR. How about a situation where you have a vertical 1/4 wavelength antenna over a horizontal ground plane. With your fancy antenna analyzer you tune it to the point where you have that so called "perfect tune" of R=50 and X=0. Now lets look at the performance you are NOT getting out of the antenna.
That length of antenna has a natural "radiation resistance" of about 36 ohms. This is "the good resistance" as it directly represents the energy lost to radiation. But wait, your R variable is showing 50 ohms... Where is the rest of that coming from? Losses.
Losses in series with antenna, such as ground losses, will add to the R variable, making it read as higher on your shiny antenna analyzer. In this case about 14 of that R=50 is from loss. To get this figure you simply take the R reading you get at resonance, and subtract the radiation resistance from it. So now we figure in how that 14 ohms of loss affects the antenna... 14 ohms of loss is 28% of the R=50, so 28% of the energy the antenna is absorbing from the feedline is being lost to heat instead of being beneficial to the antenna's performance. This is an antenna efficiency of 72%.
If you, instead, tuned this same antenna to, say, R = 36 and X=0 you give up that so called "perfect" SWR match, and instead have an SWR of about 1.39 : 1. This will reflect 2.663% of the power that makes it to the antenna back towards the radio. Making the mistake of assuming that all of this reflected power is lost, (is isn't), that means now your antenna's efficiency is in the range of 97%, and in the real world slightly higher than even that.
So you choose, in this case do you go for that so called "perfect" SWR match, or do you go for a slight SWR mismatch shown above? On the plus side, very few people in the world will ever see the difference between these two possible tunes of this example antenna... Don't think this can't be a real world example, a ground mounted vertical antenna fits this perfectly, where some people add radials until the tune is that so called "perfect" SWR match and stop adding radials when there is more performance to be had from the antenna...
Field strength meters can work for basic tuning and checking radiation patterns and such, but were talking about using analyzers for people who like to build there own antennas as well as check other antennas for an inside look on what an antenna is really doing.
Assuming you can get the antenna for the field strength meter in the lobe of the antenna you can tune the antenna to its peak performance by directly measuring the field strength of the RF radiation from the antenna. Sure, an antenna analyzer can get you close to this point, but the field strength meter can get you even close. If you want to tune an antenna for peak signal, a field strength meter is the way to go.
The whole reason I brought up field strength meters to begin with was apparently missed by you. The intention is to get one and use it for a while before getting an antenna analyzer, at which point you would have learned that that so called "perfect" SWR match is rarely the best tune for an antenna performance wise.
Further, you don't have to have an antenna analyzer to build an antenna. Look back on HomerBB's earlier builds posted right here on these forums. He had built many antennas that worked well before he got his first antenna analyzer.
Continuing on...
Analyzers assists greatly in making antennas, matching with stubs, loading coils, baluns, chokes, etc. while field strength meters can't help you with that.
Great, you just agreed with the point I was trying to make in the first place. Thank you.
Analyzers can teach you more valuable lessons than just SWR readings if one really wants to learn. For the idiot CBer who only cares that his SWRRRR 'S is flat across the band for his over modulated export radio and his Davemade amp, then I would agree an analyzer would be a wasted expense since a good vintage D104 mic and a noise toy and a little left over for a truckstop Barjan SWR meter can be bought for the same amount.
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Here again, you state the whole point of me writing that post in the first place. So you demonstrate that we are in 100% agreement..
I presume you don't own an analyzer but still form an opinion on one and everybody that uses one.
You presume I don't own an antenna analyzer? Really. I own 2 actually, and I showed the output of one of them to you in a different thread, you know, the one where you pointed out several times that your RigExpert was better than the MFJ? Further, I also have a grid dip meter that I sometimes use as well just for fun.
The opinion I formed was just about those who spend the money to buy an antenna analyzer, even the as you see it, lowly MFJ259b, and then continue to use it for nothing more than SWR meter. Those are the ONLY people I was talking about, and I think I did a pretty good job making that clear in the context of the post. I was NOT talking about people who own antenna analyzers in general, and that is also clear in the aforementioned post.
The DB
