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Verticals versus Horizontal Dipoles
Reg Edwards wrote:
There exist statistics of AVERAGE field strength noise levels experienced in cities, small towns and in the open countryside. I have forgotten where to find such statistics but Google may help. The statistics depend very much on frequency. They vary greatly between ELF and HF. Noise levels decrease by crudely 10 dB or 20 dB per octave or decade increase in frequency. ITU Recommendation ITU-R P.372-8, 'Radio Noise'. This document replaces and updates the old CCIR Report 322, which was the source for most of the information on radio noise in the amateur handbooks. The paper is available as a download from ITU, but they want 36 Swiss Francs for it (about $28): http://www.itu.int/rec/R-REC-P.372-8-200304-I/en -- 73 from Ian GM3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek |
Verticals versus Horizontal Dipoles
Reg: Your making such an obviously false statement calls into question
all of your pronouncements. There is not a single student in my University (or any other similar institution that I know of) who will graduate without providing many demonstrations of their significant arithmetic and mathematical ability. Your veracity is gone. Mac N8TT -- J. Mc Laughlin; Michigan U.S.A. Home: "Reg Edwards" wrote in message ... ========================================== Arithmetic is not taught in Western schools and universities any more. Even teachers are innumerate! ---- Reg. |
Verticals versus Horizontal Dipoles
On Sun, 5 Feb 2006 22:50:55 -0500, "J. Mc Laughlin"
wrote: Reg: Your making such an obviously false statement calls into question all of your pronouncements. There is not a single student in my University (or any other similar institution that I know of) who will graduate without providing many demonstrations of their significant arithmetic and mathematical ability. Your veracity is gone. C'Mon Mac, Reggie has been doing this so many years, it's his trademark schtick. To give Reggie credit where credit is due, can be found in a remarkable body of work of programs. Unfortunately, this accomplishment is seriously tipped out of balance when he scorns his audience as software addicts. Instead of teaching them Kelvin's principles by example, we get his poor English stagings of Le Misanthrope de Moliere. One of my favorite irascible English characters is Dr. Samuel Johnson, but his ire is tempered with a faith in humanity: "this boy rows us as well without learning, as if he could sing the song of Orpheus to the Argonauts, who were the first sailors.' He then called to the boy, 'What would you give, my lad, to know about the Argonauts?' 'Sir (said the boy,) I would give what I have.' Johnson was much pleased with his answer, and we gave him a double fare. Dr. Johnson then turning to me, 'Sir, (said he) a desire of knowledge is the natural feeling of mankind; and every human being, whose mind is not debauched, will be willing to give all that he has to get knowledge.' " 73's Richard Clark, KB7QHC |
Verticals versus Horizontal Dipoles
"Bob Bob" wrote I would also like to get an idea how "critical" it is to make sure ones antenna truly is horizontal (eg not an inverted V or quad loop) if noise is the greatest concern. One would assume you also get a similar affect of "less horizontal noise" from the actual noise source for the same reason. eg power lines radiate well upwards but not so well in groundwave. ======================================== Bob, The angle of the 'horizontal' dipole relative to the horizontal, whether it is an inverted-V or not, makes negligible difference to the amount of noise it collects. It is non-critical in this respect. The incoming, mainly distant noise comes in from all directions and angles and is randomly polarised. Except, that is, for locally generated noise, which is mainly a vertically polarised ground-wave and from low angles to which the horizontal dipole is quite insensitive. Noise radiated from nearby elevated power lines is probably randomly polarised and is collected in similar proportions by both horizontal and vertical antennas. When a power line is half-mile or more away I would guess that the received noise reverts to vertically polarised groundwaves which at HF are rapidly attenuated. The horizontal waves are even more rapidly attenuated. Noise can be studied only from its statistical probability distributions versus direction, angle, frequency, receiver bandwidth and time. The opinions and anecdotes of individuals matter only to the inviduals concerned and their locations on the Earth's surface. ---- Reg. |
Verticals versus Horizontal Dipoles
Roy Lewallen wrote:
A step attenuator which is completely adequate for HF and can easily resolve 1 dB can be made from a few cheap slide switches, some PC board material, and a handful of ordinary 5% quarter watt resistors. Detailed instructions can be found in numerous sources, including the Web -- a Google search brought a large number of hits, the first of which was http://www.arrl.org/tis/info/pdf/9506033.pdf. But I'm afraid that this level of homebrewing is beyond the interest if not the ability of the majority of today's amateurs. Got it - Thanks, Roy! - 73 de Mike KB3EIA - |
Verticals versus Horizontal Dipoles
Reg, G4FGQ wrote:
"The angle of the "horizontal" dipole relative to the horizon, whether it is an inverted V or not, makes negligible difference to the amount of noise it collects." It could be taken to the extreme. Rotated 90-degrees, the horizontal wire becomes a vertical wire. On its way to becoming a vertical wire, it is a sloping wire. The sloping wire responds with a vertical component in addition to its horizontal component. The sum of these components make up the wire`s total response. To the best of my knowledge, Reg hit the nail squarely on the head in the rest of his posting about noise radiation and reception. Best regards, Richard Harrison, KB5WZI |
Verticals versus Horizontal Dipoles
Regardless of its noise properties, a quarter-wave and higher vertical
radiates more low-angle power than a half-wave horizontal dipole. There's no argument. If you can't be heard then you can't work 'em. Although a quarter-wave vertical radiates less power at high angles, it can still be heard quite well because propagation distances covered are relatively short. The vertical is omni-directional. The dipole is not. Skip-distances are the same for both vertical and horizontal. The Ancient Greeks Geometry rules. Therefore, the situation is biassed in favor of the vertical. The dipole wins only when the local noise level is much higher than atmospheric noise. If you live in or near a city then its your hard luck. Most of us do! ---- Reg. |
Verticals versus Horizontal Dipoles
Mike Coslo wrote:
Roy Lewallen wrote: A step attenuator which is completely adequate for HF and can easily resolve 1 dB can be made from a few cheap slide switches, some PC board material, and a handful of ordinary 5% quarter watt resistors. Detailed instructions can be found in numerous sources, including the Web -- a Google search brought a large number of hits, the first of which was http://www.arrl.org/tis/info/pdf/9506033.pdf. But I'm afraid that this level of homebrewing is beyond the interest if not the ability of the majority of today's amateurs. Got it - Thanks, Roy! - 73 de Mike KB3EIA - You're very welcome. The reason for my rather grumpy comment at the end is that I've recommended countless times for many years that people interested in evaluating antennas build a simple step attenuator -- an evening project. It allows you to make direct, quantitative comparisons between two antennas -- yours or someone else's, as well as calibrate your "S" meter. But to date, I've never gotten an iota of feedback that a single person has actually taken the trouble to build one. Rather, they continue to debate, ad nauseum and without any meaningful data, whether one antenna is better than the other, or at best quote differences in "S-units" read from their meters, without the foggiest idea how many dB it might represent or how different it is from someone else's meter (or from the same meter on a different band or a different part of the scale). The conclusion I've reached is that A) Hams would much rather argue than actually determine the facts, or B) The vast majority are unable to build a homebrew project consisting of slide switches, circuit board material, and resistors. I'm afraid both are probably true. Maybe you'll be the first to actually build one. If so, please drop me an email and let me know -- it'll make my day! Roy Lewallen, W7EL |
Verticals versus Horizontal Dipoles
"Roy Lewallen" wrote The reason for my rather grumpy comment at the end is that I've recommended countless times for many years that people interested in evaluating antennas build a simple step attenuator -- an evening project. ======================================== Roy, to cheer you up, many years back I made one in a diecast Eddystone box. The last decade was in 0.001 dB steps. It was intended only up to 5 MHz. It was used to determine the attenuation/temperature coefficients of oceanic, submarine coaxial cables, 26 miles long, in tanks at the cable factory. Temperature was changed by dumping a ton of ice into the tank, obtained from Billingsgate, London, fish market. I think the fish market is still in Billingsgate but the attenuator has long since disappeared. Perhaps the knobs still exist somewhere. Very sad! ---- Reg. |
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