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6M stacked loops - best height above ground?
On Thu, 29 Dec 2005 09:53:21 -0800, Roy Lewallen
wrote: Bob Bob wrote: And to complicate matters further the max antenna height being talked about being around 3-4 wavelengths off the ground is going to break the radiation pattern up into a number of lobes at various vertical angles. For that reason alone I think it is still worth modelling. There will be specific heights where the horizontal radiated component is at a maximum and this is likely the most desirable. . . Modeling will show that at great distances from the antenna, the horizontally radiated field is zero from any horizontally polarized antenna over ground. Roy Lewallen, W7EL Please see http://www.cebik.com/vhf/ex6.html on the topic. Near the end of the article he gets into the horizonatally polarized less than 1WL interrupted loops typical of 6m (halos, squares and triangles). For more, he also has an article on HOHPLs (horizontally oriented horizontally polarized loops 1WL and greater). Worth reading and observing the models used. Allison Kb1GMX FN42HH |
6M stacked loops - best height above ground?
True Roy
I should have said something like "approaches" the horizontal Apologies for the mis-speak I am also going to have to look into the theory of how much VHF diffracts and bends so one can choose the right angles grin.. Cheers Bob Roy Lewallen wrote: Modeling will show that at great distances from the antenna, the horizontally radiated field is zero from any horizontally polarized antenna over ground. Roy Lewallen, W7EL |
6M stacked loops - best height above ground?
Modeling will show that at great distances from the antenna, the
horizontally radiated field is zero from any horizontally polarized antenna over ground. Roy Lewallen, W7EL "Bob Bob" wrote True Roy. I should have said something like "approaches" the horizontal. Apologies for the mis-speak. ___________ Pending some clarification from one of you (or anyone else) as to what is meant here, I point out that h-pol radiation directed toward an elevation at/near ground level has been, and still is the basis for very successful commercial broadcasting by FM and TV stations. RF |
6M stacked loops - best height above ground?
Roy Lewallen wrote:
Modeling will show that at great distances from the antenna, the horizontally radiated field is zero from any horizontally polarized antenna over ground. I need to clarify this. It's based on a theoretical model which doesn't apply in many practical cases. It assumes that the signal reaches the destination by two paths, direct and via reflection from the ground; that the ground is perfectly flat at the point of reflection; and the destination is very far from the source. The lower the elevation angle being observed, the farther the destination has to be for this effect to occur. For example, consider the field strength at an elevation angle of one degree from an FM transmitter whose antenna is 1000 feet above the average terrain. Neglecting Earth curvature (which probably shouldn't be neglected in this case), at a very distant point, the reflected signal which will interfere with the direct signal strikes the ground at a point about 11 miles from the transmitter. The receiver would have to be more than 22 miles away (and of course, higher in elevation than the transmitting antenna) for reasonable cancellation to occur. At a half degree elevation angle, the receiver would have to be twice that distance; at a quarter degree, four times, and so forth. Full cancellation at zero elevation angle would occur only at an infinite distance. In many practical situations, you can safely assume that the potentially interfering ground reflection takes place beyond the receiver, so a better estimation of received signal strength can be obtained by looking at the free space pattern. Roy Lewallen, W7EL |
6M stacked loops - best height above ground?
Roy, I prefer my radiation patterns to be functions of the antenna itself. After all, that's what it's all about. To determine the field strength at a distance I prefer not to take any notice of Eznec's misleading ideas on the state of the ionosphere or groundwave loss and do my own calculations. Or I can follow up Eznec by using a program dedicated to either groundwave or ionospheric propagation. I agree preferences will differ. But it is important to understand exactly what radiation patterns do or do not mean. Please do not take this note as any criticism of Eznec. It is a valuable (and free) calculating resource. But, as you demonstrate, it is difficult to describe in a few words exactly what it does. Please simplify! ---- Reg. |
6M stacked loops - best height above ground?
Reg Edwards wrote:
Roy, I prefer my radiation patterns to be functions of the antenna itself. After all, that's what it's all about. That's just fine. All antenna modeling programs I know of allow selection of a free space environment, which gives you just what you want. To determine the field strength at a distance I prefer not to take any notice of Eznec's misleading ideas on the state of the ionosphere EZNEC makes no assumptions about the state of the ionosphere, or even its existence. or groundwave loss and do my own calculations. The only assumption EZNEC makes in its far field analysis about ground wave loss is that at an infinite distance it's infinite. The professional EZNEC programs, which do directly report far field ground wave signal strength when requested, use the Norton approximations (implemented in NEC) which are widely accepted. Or I can follow up Eznec by using a program dedicated to either groundwave or ionospheric propagation. I agree preferences will differ. But it is important to understand exactly what radiation patterns do or do not mean. With that I agree wholeheartedly. Please do not take this note as any criticism of Eznec. It is a valuable (and free) calculating resource. But, as you demonstrate, it is difficult to describe in a few words exactly what it does. Please simplify! First a note, EZNEC is not free. It's copyrighted, commercial software. Only the EZNEC demo program is free and can be copied and distributed freely. Like other powerful tools, EZNEC requires some effort on the part of the user to understand its use. If you're not willing to make that effort, I suggest that you not use it, but find (or write) a program that suits you and your limited willingness to learn. [Give NEC-2 or MININEC a try!] All types of EZNEC, including the demo program, include a comprehensive and extensively indexed manual. I also recommend the ARRL antenna modeling course, which numerous users have made positive comments about. But both of those are useful only to people who want more than to get a quick answer without taking any time to consider what the answer means. I'll leave it to you and others to produce simple programs which do one specific, simple thing. There's a place for those, but also a place for more versatile programs like EZNEC which unavoidably require a bit more effort to fully use. Roy Lewallen, W7EL |
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