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The inverted L was originally conceived as a transmitting antenna and was
cut to a resonant length. It is still quite popular particularly on the lower frequencies. As a receiving antenna, few people try for resonance as they are usually after broad band operation. "starman" wrote in message ... I doubt if most people try to make their inverted-L resonant for a particular frequency. However in many cases it does turn out to be resonant (like a longwire) at some frequency, particularly at the high end of the HF spectrum where it's one or more wavelengths long. -----= Posted via Newsfeeds.Com, Uncensored Usenet News =----- http://www.newsfeeds.com - The #1 Newsgroup Service in the World! -----== Over 100,000 Newsgroups - 19 Different Servers! =----- |
In article ,
"CW" wrote: "Telamon" wrote in message ... Depends on how you connect it to the radio. With just a single vertical lead-in then yes but use a coax grounded in some way then no. Feedline type has nothing to do with it. The classic inverted L was connected with a single wire feedline. Coax feed is often used now but not always. I, and many others, have run inverted Ls (transmitting) right off the back of the radio. If a coax cable is the vertical section then there is no vertical part to the antenna so the answer is no. If it is a single wire then the lead-in is part of the antenna and will radiate similar to the horizontal section. Another thing to consider is that the vertical portion should be a significant portion of the antenna to qualify as an inverted L. An antenna that is 15 feet high and 150 feet long the vertical portion is only 10% of the total pickup area. I would consider that to be a horizontal random/long wire. There is a bit of truth to that. It is generally excepted that an inverted L is most efficient when the verticle portion is as long as possible. I went looking for a definition and could not find one specifically. The closest I could find resembled a Marconi type where the vertical and horizontal sections were 1/8 wavelength each or 50%. -- Telamon Ventura, California |
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Hello CW,
YES, for a Classic "Longwire" Antenna, sizing is about the 'length' of the Horizontal Wire. BUT - The subject here is an Inverted "L" Antenna that would NOT be a 'random wire antenna'. So the first consideration would be maintaining the Shape (aspect radio) of the Inverted "L" Antenna. Then the second consideration would be sizing the Inverted "L" Antenna to be resonte at a given frequency (SW Band) for some one who had a specific interest in that band. One simple method would have been to suggest making the total length of the Inverted "L" Antenna one wavelength for that band: EXAMPLES: Total Length equals Vertical plus Horizonal Sections 49M Band = 165Ft Total 41M Band = 137Ft Total 31M Band = 104Ft Total 25M Band = 85Ft Total 22M Band = 73Ft Total 19M Band = 65Ft Total 16M Band = 57Ft Total A better method would have been to suggest making the TOP Section of the Inverted "L" Antenna One Wavelength and the END Section of the Inverted "L" Antenna a Half Wavelength. Thereby maintaining the Inverted "L" Antennas Aspect Radio of 2H:1V (Shape Factor). NOTE: This better method is what I choose to describe in my prior post. EXAMPLES: "L" Section Lengths for Horizontal and Vertical. 49M Band = 165Ft Horizontal & 83Ft Vertical 41M Band = 137Ft Horizontal & 68Ft Vertical 31M Band = 104Ft Horizontal & 52Ft Vertical 25M Band = 85Ft Horizontal & 42Ft Vertical 22M Band = 73Ft Horizontal & 37Ft Vertical 19M Band = 65Ft Horizontal & 33Ft Vertical 16M Band = 57Ft Horizontal & 28Ft Vertical iane ~ RHF .. .. = = = "CW" = = = wrote in message . net... Better look up long wire. Verticle length has nothing to do with it. "RHF" wrote in message om... If, by 'design' for a specific band of frequencies an Inverted "L" Antenna has the Horizontal Top Section equal to One Wavelength and a Vertical End Section equal to One Half Wavelength; then it would be considered a Longwire Antenna for that Band. |
StarMan,
That is True. IIRC: Many of the 'original' HAM Transmitting Inverted "L" Antennas were Quarter Wavelength Antennas with 1/8 Vertical and 1/8 Horizontal for dual polarization of the signal in-theory (near and far propagation ?). The 'evolution' of the Inverted "L" Antenna application to an 'available space concept' for a SWL Receiving "Only" Antenna; generally has the Top/Horizontal Section about twice as long as the End/Vertical Section. NOTE: Reversing the "L" and having the End Section feed point at the far end of the antenna with a buried Coax Cable running directly under it (acting as a Counterpoise) makes for a better (lower noise) receiving antenna. iane ~ RHF .. .. = = = starman = = = wrote in message ... RHF wrote: Telamon, "the vertical portion should be a significant portion of the antenna to qualify as an inverted L. An antenna" TRUE - Look at the Letter "L" and you will see that an Inverted "L" Antenna will have an END (Vertical) to TOP (Horizontal) 'aspect ratio' between 1:1.5 (2:3) and 1:2; but beyond 1:4 it is really not an "L" any more. The vertical section of the inverted-L is also important for receiving certain kinds of signals (propagation related) that the horizontal section is less sensitive to. -----= Posted via Newsfeeds.Com, Uncensored Usenet News =----- http://www.newsfeeds.com - The #1 Newsgroup Service in the World! -----== Over 100,000 Newsgroups - 19 Different Servers! =----- |
In article ,
Telamon wrote: In article , starman [snip] Are all inverted-L's, random wires? Depends on how you connect it to the radio. With just a single vertical lead-in then yes but use a coax grounded in some way then no. Another thing to consider is that the vertical portion should be a significant portion of the antenna to qualify as an inverted L. An antenna that is 15 feet high and 150 feet long the vertical portion is only 10% of the total pickup area. I would consider that to be a horizontal random/long wire. -- Telamon Ventura, California Nothing about antenna theory seems to ever be simple. The antenna you describe, above about 15MHz, will have a horizontal pattern quite different from a 150 foot horizontal wire. The horizontal wire will have a horizontal pattern like the petals of a warped daisy flower, with many lobes separated by deep nulls, some more than 40dB 'deep'. That vertical section of the above-described inverted-L will do quite a bit to fill in those nulls. Also, the inverted-L is simple to ground. Electromagnetic theory does not require such a ground, but your friendly local Electrical Code does. Not saying you're wrong, Telamon; below 10 MHz, you're basically right. Just saying that we SW & scanner types work with wavelengths from about one mile down to about a foot, and it's hard to find rules or principles that apply uniformly across the whole range. -- R F Wieland Newark, DE 19711-5323 USA 39.68N 75.74W Icom R75 Heathkit GR-81 Inverted-L in the attic Reply to wieland at me dot udel dot edu |
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