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horizontal vs sloped ground elements on a vertical ?

Here's another take, horizontal radials provide a roosting place for pigeons and other messy birds. I did away with mine because the bird poop was too much especially since the radials were over my roof. If this maybe a problem, I would go with sloped radials. Those numbers the modeling geeks give you will hardly be noticed on the other end.

Depending on which vertical you're running, you can do without the ground plane. The Imax and Antron come to mind.
 
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Here's another take, horizontal radials provide a roosting place for pigeons and other messy birds. I did away with mine because the bird poop was too much especially since the radials were over my roof. If this maybe a problem, I would go with sloped radials. Those numbers the modeling geeks give you will hardly be noticed on the other end.

Depending on which vertical you're running, you can do without the ground plane. The Imax and Antron come to mind.


Is that what they mean by STOOL PIGEON?
If you like to eat pigeon it would be a good hunting spot.
 
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Eddie
what your models show is what i thought would happen, as the radials droop to a steep angle the more the antenna acts like a 1/2wave dipole with a little more gain than a 1/4wave ground-plane,

I was thinking the same thing Bob.

did you happen to model a feed line and mast also?

Wavrider asked DB a very good question.

IMO, if we model this design over Real Earth without a Mast/FL included we might expect to see noticeable differences in results...on adding the mast and/or feed line back to the model later. I think there are lots of recommendations in the science on antennas that support this idea for adding a Mast and Feed Line to our models.

I think I would have set these models in Free Space...if the idea was not to include the Mast/FL.

Doing so, might show us more reliable results for comparison of this idea on slanting radials down in this design, and then we could also check the Average Gain results for each model as we go...in order to see how reliable the models might be.

I have not done this as yet, but I may try the idea and see how it compares.

This said however, I have come to realize that models having part of the mast physically located inside the radial area of the antenna itself, needs to be carefully considered as to the correct approach in modeling in Free Space.

Maybe adding a small offset hub for the radials is also a good idea that might help to prevent geometry errors.
 
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Having the radials 90 degrees from the vertical yields about 36 ohms feedpoint impedances, whereas sloping the radials at a 45 degree downward angle produces a feedpoint impedance closer to 50 ohms.
 
KC9Q

Yes sloping radials will increase the feed point impedance on a 1/4 wl vertical.


I remember sometime back Marconi modeled a 5/8 wl vertical with three 5/8 wl sloping radial's similar to the starduster but all elements 5/8 wl.

Model looked interesting. Discussed it with a friend of mine and he went and built one to try it.

He is still using it today and swears by it for being the most sensitive receive vertical he ever had. OP can hear a gnat pass gas the next county over.
 
Nothing mentioned on the ground radials eliminating CMC or contributing to CMC.
did you happen to model a feed line and mast also?

Wavrider asked DB a very good question.

IMO, if we model this design over Real Earth without a Mast/FL included we might expect to see noticeable differences in results...on adding the mast and/or feed line back to the model later. I think there are lots of recommendations in the science on antennas that support this idea.

Lets respond to your opinion with a fact, one of the best ways to minimize to eliminate CMCs, even better in most cases than using a choke, is to use a full set of 1/4 wavelength radials. I have no disagreement with seeing noticeable changes when adding masts to models after the fact, however, in my experience models with 1/4 wavelength radials don't seem to have this problem. Sure, their are changes, but not significant changes. Have you modeled this antenna with and without a mast to show its changes between the two sets? (NOTE: I didn't this time around, but I have modeled this antenna both with and without a mast many times in the past, and thus have a very good idea of what to expect.)

I think I would have set these models in Free Space...if the idea was not to include the Mast/FL.

Just because their is no mast added you would limit it to freespace?

I disagree with this. The model is not illegitimate just because it is over an earth and doesn't have a mast. It is possible to isolate antennas from masts (and by extension properly choke feed lines to effectively isolate them as well.)

So, do all antennas in the "real world" have a mast that goes straight down to the earth? The one on my roof right now wouldn't match that idea, so if I modeled it that way, any CMC's on the mast would actually not accurately represent what my antenna is doing. To assume all masts (or with antennas like mine, the electrical connection) goes from the feedpoint of the antenna straight down to the earth is actually a dangerous assumption. Mine has to follow the roof line of my house before the ground wire attached to the mast actually connects to a ground rod. If you have common mode currents, that in and of itself, is enough to change the results of what the antenna will do.

I'm not saying masts are useless, but you are making a quite large assumption when you only model a mast going straight down to the earth.

And that is not even factoring in the very real capability of fully isolating the antenna from the mast.

Doing so, might show us more reliable results for comparison of this idea on slanting radials down in this design, and then we could also check the Average Gain results for each model as we go...in order to see how reliable the models might be.

I have not done this as yet, but I may try the idea and see how it compares.

I actually have made a lot of models with and without masts to compare. I can generally tell you just by looking at a model's layout and its height above the earth if the result from adding a mast will make a large difference or not. For example, if you add a mast to my models above that goes straight down to the earth, I would actually expect them all to have slightly more gain than their non-mast counterparts. The reason is the length of the mast that would be used. If I were to add a few feet to their height, however, I would expect a little less gain at lower angles. However, in both cases I would expect said differences to be very small because their are full sets of 1/4 wavelength radials present. Why do I have these expectations? It is because I modeled these antenna designs in the past and compared having and not having said mast.

This said however, I have come to realize that models having part of the mast physically located inside the radial area of the antenna itself, needs to be carefully considered as to the correct approach in modeling in Free Space.

I have no problem with this, it needs to be considered when over an earth as well. Angled radials don't do quite as good a job at minimizing CMC's as horizontal radials do. The reason is the mast and radials affect each others electrical length to some extent. The more you angle said radials down, the more this change to said radials and mast are. The change this creates causes them to be electrically shorter than their physical length.

Maybe adding a small offset hub for the radials is also a good idea that might help to prevent geometry errors.

I love how you are apparently assuming that I didn't use a hub... We have had discussions on this in the past, I am well aware of the issues acute angles create when using the nec2 engine. Adding a hub is one way to fix this known problem with the nec2 engine, however it isn't the only way. I created a thread on it a while back showing a comparison between using a hub and using another method to solve this problem. My models with and without a hub have near identical results. In this case I used the other method. Its the same method that ghz24 told me about to adjust AGT, and I have tested it extensively within the nec2 environment when it comes to correcting for things like acute angles. Prior testing shows that I won't see any significant difference between either of these methods as the results are virtually identical.

Also, when modeling antennas like this, if you don't have a hub, or use some other means of accounting for the error such as what I used, when angling the radials down nec2 actually over-reports gain as AGT goes up. In my models, which have all been corrected to have the same AGT (and that is exactly 1) you will note that as I angled the radials down gain actually went down, not up. It is your models that shows gain going up as you angle the radials down, although I assume you used a hub as you brought its includion up.

Actually when you posted your models, I was curious what the AGT was for each of your models. I let it stand, however, because I had the same thought as what fourstringburn posted later.

Those numbers the modeling geeks give you will hardly be noticed on the other end.

I didn't see the point of us dominating this discussion with modeling like we have multiple threads in the past. Using modeling to show what they can expect to see is one thing, and it is ok if their are differences between our models (we do use very different techniques after all). However, we don't have to turn every thread that one of us posts some models into a discussion between us on modeling...


The DB
 
Thanks for the reply DB.

I do not model, I never learned how nor do I have the time.

I appreciate all the effort and time that goes into learning how to model.
Sharing your results of modeling allows me to compare what models look like.

NOTICE I said compare different models not critique the modeling method of who ever models an antenna.

I was specifically asking if you modeled feed line and masts as the installation of the antenna can greatly reduce cmc, or contribute to it. I just wanted to compare the model of antenna with, and without mast and feedline.
thanks
 
there is no reason for 4 radials @ 90 degrees, 2 @ 180 work just as well

I have a 15' mast. Would love to put a Maco V58 on it but can't because of my steeply pitched roof. However, if I remove one of the radials (the one facing the house) it will work. But what effect will that have on performance?
 
Have you modeled this antenna with and without a mast to show its changes between the two sets?

DB, when I posted my opinions (IMO) and concerns to Bob...I had not yet made any current models including a mast for this design or made any models in Free Space. As usual, I had only tried to duplicate your overlay results. I did it that way only as a starting point considering the topic. Those models were over Real Earth and did not include a mast.

I also did not add a hub to the models in my overlays...as you can see in my second PDF file (Horizontal model to start, etc.) posted above, the radials are connected directly to the radiator.

I also posted my considerations for doing Free Space models and tried to explain why, but again I had not made such models.

I was not considering CMC at that point, because those models had no mast or feed line to indicate the presence of such currents.

The only difference I could see is you models showed less gain as the radials were slanted down...and my models showed a slight increase in gain. I also saw a notable difference in the patterns...so I took the chance to try and figure out why without asking.

My model with 3 horizontal radials that I started with..produced similar matching results as you reported. So, I had the idea we might have close to similar models to start. If you did something different with your model...then it did not show a change in the match. I attributed the difference in patterns I was seeing to your using a Poor or Extremely Poor ground description in your model settings.

(NOTE: I didn't this time around, but I have modeled this antenna both with and without a mast many times in the past, and thus have a very good idea of what to expect.)

DB, I have done the same I'm sure, but I usually can find an old model that is close to the idea to be considered. I do this as a starting point and produce a new model without trying to remember stuff.

Good post DB thanks for the models.
Confirms how the starduster type antenna work.
Direct feed no matching network.

Nothing mentioned on the ground radials eliminating CMC or contributing to CMC.
did you happen to model a feed line and mast also?

Here we see Wavrider talked about CMC and asked whether you modeled a feed line and mast. That comment got me curious enough to open my Eznec and check out if there was a discernible difference between a 1/4 wave ground plane with and without a mast or feed line. What struck me there was...how would anyone know if there were CMC on a model with no mast or feed line wires to indicate such currents?

Also, when modeling antennas like this, if you don't have a hub, or use some other means of accounting for the error such as what I used, when angling the radials down nec2 actually over-reports gain as AGT goes up. In my models, which have all been corrected to have the same AGT (and that is exactly 1) you will note that as I angled the radials down gain actually went down, not up. It is your models that shows gain going up as you angle the radials down, although I assume you used a hub as you brought its includion up.

No DB, I did not use a hub in the models posted above, but I did think it might be good idea if we included the mast for the Real Earth models.

Actually when you posted your models, I was curious what the AGT was for each of your models. I let it stand, however, because I had the same thought as what fourstringburn posted later.

I did not check my models for AG results. You may be right. I will have to check that out and get back. Maybe these models will then show decreasing gain as the radials drop.

Angled radials don't do quite as good a job at minimizing CMC's as horizontal radials do.

Again, CMC was not considered by me since the model had no mast or feed line. However, I just made two simple models using my model above that has 3 horizontal radials.

I added a mast and renamed the file to (SD 3HR 18')

I then took the model and lowered the radials 60 degrees. I named it (SD 3-60dR 18')

Below are the models to compare the currents visually in the antenna view. I also attached the beginning and ending portions of the Tabular Segments Report that shows us the current distribution per segment for wire #5, the mast.

The wire has 108 segments and is a long report, so I captured the top and bottom portions showing about 40 segments of wire #5 for each model. So, according to this model the magnitude of amperage values for both top and bottom on the mast for the slanted down radial model are about 30% less that my horizontal model shows. So, this shows me the horizontal radials do not necessarily do a better job of minimizing CMC vs slated down radials in this case. Maybe you could recheck your results and let me know.

Again, we can also see a modest difference in the currents in the Eznec antenna view. The red line for currents on the mast is closer to the radiator, less magnitude, for the slanted radial model.

As you noted, the difference in angle changes the electrical length of the two models at resonance and that showed up during my tuning the model to resonance...as noted in attached antenna view for wire #1 noted at the bottom of each model.
 

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  • CMC magnitude report..pdf
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now ...... round 2 ..... what happens when we take those ground elements , but , steeply slope them upwards , add a 1/4 wave length loop to the top of those elements symmetrically spacing them around the vertical , and extend our vertical radiator length almost 3/4 wavelength ?
 
now ...... round 2 ..... what happens when we take those ground elements , but , steeply slope them upwards , add a 1/4 wave length loop to the top of those elements symmetrically spacing them around the vertical , and extend our vertical radiator length almost 3/4 wavelength ?

Let me guess. If 36' in the air, an R of 50, a flat SWR, 5.8 dbi gain, and a HOA nightmare. But you could always claim, "It's not an antenna, it's modern art."
 
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now ...... round 2 ..... what happens when we take those ground elements , but , steeply slope them upwards , add a 1/4 wave length loop to the top of those elements symmetrically spacing them around the vertical , and extend our vertical radiator length almost 3/4 wavelength ?

Their are many many threads, most of which have many many pages (and then some) that covers this topic already, likely in more detail than you can handle. I suggest you look them up to get started. In a few months when your caught up to where we are now, then we can begin the next round of discussions and you can participate... ;)

If you want a shortcut, find the thread started by Henry HPSD, and only cover the threads on this antenna since then. That will cut out 90% of the content that has mostly been discarded.

I know I know, I just had to say it... :)


The DB
 
... if you are talking about radials on a 5/8 wavelength antenna, downward angled radials can actually work against the antenna.

To show this I made a few models using the Shockwave antenna design (the one based on the I-10K)

swra.jpg


A note on this, those gain figures are peak gain no matter the angle. On three of these, the dominant lobe is at 9 degrees off of horizontal. However, the other two patterns peak gain is up at 42 degrees Unfortunately with this view, I can't get the the output of only the lower angle, To show gain at only 9 degrees off of horizontal I have to use a different view...

swra2.jpg


Taking these two into account, what we see is an electrical lengthening a 5/8 wavelength antenna more. The longer you make a 5/8 wavelength antenna electrically, the weaker the lower angle lobe is in favor of the higher angle lobe. Essentially, angling the radials down is adding electrical length to the antenna. This lends weight to something someone said above.

as the radials droop to a steep angle the more the antenna acts like a 1/2wave dipole with a little more gain than a 1/4wave ground-plane,

So now comes the question of why my 1/4 wavelength model above seems to some to disagree with this very conclusion. I would say that the answer is in the answer to this question. If you have different length antennas and they are all mounted at the same tip height, how much of a difference is their when it comes to gain?


The DB
 
DB
i think we have established in other threads that when mounted at the same tip height there is little difference in gain between simple verticals with no or low loss matching setups,
the main advantage one design has over another is height of current maxima above ground,

a 5/8 advantage over 1/2waves is the height, even though 5/8 has 1/8wave of out of phase currents the extra height of current maxima above ground still holds an advantage UNTIL you raise the 1/2wave to the same tip height where the 1/2wave has a little more gain at low angles,

its not the magnitude of gain difference in your model that has me confused,
its the trend towards lower gain with steeper radials im having trouble with,

is the result the same in free space or higher above ground,
seems odd that all we ever needed was a ratshack 1/4wave ground-plane at the same tip height as other peoples much larger & more expensive antennas,

or an astroplane.
 
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