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"J. McLaughlin" wrote in message ... Nice to hear from N8EE, another of Kraus' boys. 73 Mac N8TT Please explain. Do you mean that I have read Kraus' book, or that I was one of his students? (Which would be correct on both counts.) Nice to hear from another N by 2 callsign. Not very many of us around, it seems. Jim N8EE |
Nice to hear from another N by 2 callsign. Not very many of us around, it seems. Jim N8EE One more - Howdy from N2EE making noise in contests as flagship of Nikola Tesla RC, breaking records, exploring the frontiers of ocean fronts. Yuri da keykeeper of N2EE and NT1E (Nikola Tesla #1 Engineer) considered it to be my own call, but settled for the part of my old OK3BU |
J. McLaughlin wrote:
After investigating a large set of traveling wave antennas (not Beverage) I think that the smallest amount of power dissipated in the terminating resistance was about 2 db. Just modeled the subject antenna as well as I can. Without the termination resistors, the antenna has a gain of +6 dBi on 3.8 MHz. With the termination resistors, according to EZNEC, the gain drops to -10 dBi, a difference of 16 dB. -- 73, Cecil http://www.qsl.net/w5dxp |
That might not be a fair comparison, since the pattern might be quite
different with and without the resistors. To determine what fraction of the applied power is dissipated in the resistors, simply click the Load Dat button. Roy Lewallen, W7EL Cecil Moore wrote: J. McLaughlin wrote: After investigating a large set of traveling wave antennas (not Beverage) I think that the smallest amount of power dissipated in the terminating resistance was about 2 db. Just modeled the subject antenna as well as I can. Without the termination resistors, the antenna has a gain of +6 dBi on 3.8 MHz. With the termination resistors, according to EZNEC, the gain drops to -10 dBi, a difference of 16 dB. -- 73, Cecil http://www.qsl.net/w5dxp |
Roy Lewallen wrote:
That might not be a fair comparison, since the pattern might be quite different with and without the resistors. To determine what fraction of the applied power is dissipated in the resistors, simply click the Load Dat button. Well, the shape of the pattern looks the same. The Load Dat function produces 3015 watts into the antenna (high feedpoint impedance) and 1399 watts dissipated in each resistor. That's 217 watts not dissipated in the resistors out of 3015 watts into the antenna for an efficiency of about 7.2%, in the neighborhood of a mobile antenna on 75m. -- 73, Cecil http://www.qsl.net/w5dxp |
Cecil Moore wrote:
J. McLaughlin wrote: After investigating a large set of traveling wave antennas (not Beverage) I think that the smallest amount of power dissipated in the terminating resistance was about 2 db. Just modeled the subject antenna as well as I can. Without the termination resistors, the antenna has a gain of +6 dBi on 3.8 MHz. With the termination resistors, according to EZNEC, the gain drops to -10 dBi, a difference of 16 dB. -- 73, Cecil http://www.qsl.net/w5dxp The antenna described in this thread has been utilized by the military for simple, easy to erect and fairly inexpensive field use. I don't think that you will get any argument from anyone that a resistance terminated antenna is not as efficient as a tuned dipole. The benefit one receives from using a resistance terminated antenna is the lack of having to use an antenna tuner (another misnomer) when operating off resonance. I, personally, use a B&W folded resistance terminated antenna. This antenna is far from efficient but I can make great changes in operating frequency with out having to worry about matching the final circuit to the antenna. I would like to have a tuned dipole for each band/subband but have neither the room nor the desire to do so. Now if you go to the receiver and look at the signal strength meter, s-meter, you will see that 16db is only about 1 to 1 1/2 s units. In that a receiver can differentiate a signal down to a very small value the loss is of only academic interest, except to the purists. Dave WD9BDZ |
Oh my!
If you had a real E-mail address, I would have replied off-list. I am not sure what is the first to go as we age, but you have forgotten that we were both grad students of JDK. We have also both read his book! 73 Mac N8TT -- J. Mc Laughlin - Michigan USA Home: "JLB" wrote in message ... "J. McLaughlin" wrote in message ... Nice to hear from N8EE, another of Kraus' boys. 73 Mac N8TT Please explain. Do you mean that I have read Kraus' book, or that I was one of his students? (Which would be correct on both counts.) Nice to hear from another N by 2 callsign. Not very many of us around, it seems. Jim N8EE |
The antenna described in this thread has been utilized by the military
for simple, easy to erect and fairly inexpensive field use. Yes that is very true. However, what the military needs, and what us hams are trying to do is not that similar. What I would like as a ham is 100% of my rf radiated, especially when I am mobile. The military wants to communicate, and they don't care how the efficiency of the antenna system factors in to all this. In an old textbook of mine, the military wanted an automatic antenna tuner that would match 20KW to a 35' whip 2-30 MHZ. At 2MHZ the whip was very inefficient, and probably glowed in the dark. But they could communicate by the brute force method. I guess it depends on whether your goal is just to communicate, or communicate the most efficient way. 73 Gary N4AST |
On Fri, 16 Apr 2004 17:48:43 -0500, "David G. Nagel"
wrote: Now if you go to the receiver and look at the signal strength meter, s-meter, you will see that 16db is only about 1 to 1 1/2 s units. In that a receiver can differentiate a signal down to a very small value the loss is of only academic interest, except to the purists. Have you ever check the calibration of your S-meter? I have never found one that was 6dB per S-unit. Most seem to be around 3½-dB. Using that yard stick 16 dB is 4½ S-units. Many would consider that subatantial. Danny K6MHE |
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