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#281
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On his web site, Yuri quoted W9UCW as measuring the currents at the ends
of a toroid mounted at the base of the antenna as being 100 mA at the bottom and 79 at the top. You must, then, believe these measurements to be in error. Roy Lewallen, W7EL Not! Here what Yuri has on his web site, quote by W9UCW: "Because of the constant claim that this must be due to the fact that the coil is so big compared to a wavelength, I measured the in and out current on a TOROIDAL loading coil used on a 20m mobile antenna. It was a 78" base mast (including spring and mount) with a 38" top whip (including 12" of alum. tubing for adjustment). Below --100ma & Above --79ma When I moved the coil to the top of the mast and made a horizontal "X" top hat to resonate it back on the same freq, I got Below --100ma & Above --47ma So, It happens even in a totally shielded loading coil with miniscule power going thru it! Kirchoff has no laws about current being the same on both ends of inductors. His current law is about one POINT in a circuit and his voltage law is about a closed loop." He described exactly how it was done, definitely not at the base. Yuri |
#282
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That's a pretty good theory, Yuri. I'd like to know where you got this "Cosine law" you keep talking about. From ancient Greeks I presume, it was way before my time. ON4UN has it shown in his book and pictures. Current in the radiator Ir = Imax x cos Alpha where Imax is the maximum current (like on the bottom of quarter wave radiator) Alpha is the angle (distance) in degrees like from 0 to 90 in quarter wave radiator. I can't seem to find mention of any such _law_ anywhere but on this newsgroup. It is one of the first things in trigonometry books, look into your high school library. Does that mean I should throw away my method of moments software because I don't need it any more? No, keep it. It is good for number of things, like arguing against reality. If you threw it away, what would you use as an argument? And what is a current drop? I've heard of voltage drops and cough drops but never current drops. It is right next to voltage drops. If it drops from one of the component to the other, that is called current drop across the component, like loading coil in the antenna, or coil in PI network, or in RF chokes, etc. Finally, how do you measure the "current in the radiator (in degrees)?" Why not use amperes like everyone else? We use amperes like everyone else. My ammeters are calibrated in A. Radiator length can be expressed in electrical degrees, if Roy claims that it can't be expressed in electrical length. Like quarter wave vertical would be 90 deg., half wave dipole would be 180 deg, Full wave quad would be 360 deg or 2 x 180 deg (same thing :-) I won't believe your theory, Yuri, until you and Cecil take the time to present it in terms of field theory. Since you guys have taken EM classes in college you should have no trouble doing this, right? You can worship what you wish, itsa free country. Or you can measure things and then you can choose whom to believe and where to send your contribution. 73, Tom Donaly, KA6RUH Yuri, K3BUm |
#283
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I think I'm learning something, but I'm getting a headache trying to follow
you guys! de jerry... "Roy Lewallen" wrote in message ... Can I conclude from this that if I were to make a coil with more or less inductance, then I would see a current difference between the ends of the coil? So tell you what. If you'll pull out your equations and calculate the expected current difference, I'll replace the coil with one of 100 ohms reactance and remeasure. How much current difference (magnitude andd phase, of course) between the ends of a 100 ohm inductor at the base of that same antenna? Roy Lewallen, W7EL Cecil Moore wrote: Yuri Blanarovich wrote: Judging by description, I would guess that there wasn't much difference. The feedpoint of the radiator alone is 35-j185. The impedance of the loading toroid is 0.6+j193. Assuming perfect predictability, that gives the antenna system a feedpoint impedance of 35.6+j8, i.e. it is *longer* than resonant. That moves the current maximum point inside the toroid making the current in and out even closer to equal. If a coil is installed at a current maximum point or a current minimum point, the current in and out will be the same. If a coil is installed at a place where the slope of the current envelope is positive, the current will actually increase through the coil. |
#284
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So, as a successful and award-winning engineer, what do you calculate as being the ratio of currents across my inductor, and how did you calculate it? Roy Lewallen, W7EL Judging by the picture, I wouldn't be able to include all the variables present in the setup. I will first measure it in same way as W9UCW did, about 2/3 up the mast and no wires hanging. Yuri |
#285
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Roy Lewallen wrote: Yuri, the inductor I put at the base of the antenna "replaced" something like 20 - 45 degrees, Nope, it didn't, Roy. Your 33' vertical was already equivalent to a 50' vertical apparently due to extraneous loading. I calculate that your coil replaced 18 degrees of wire with a current maximum point located inside the coil. -- 73, Cecil http://www.qsl.net/w5dxp In that case, If the feedpoint current was at 0 deg of the radiator length, and coil replaces 18 deg of wire, the cos 18 deg = 0.951 which should make difference, drop in the coil current 5% (or half, 2.5 deg?) Providing current maximum is exactly at the bottom end of the coil. Yuri, K3BU.us |
#286
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I think I'm learning something, but I'm getting a headache trying to follow you guys! de jerry... It not our fault, it is them :-) Yuri |
#287
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2.5 deg?)
make that 2.5%?) |
#288
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Well, what would it be if my setup was perfect?
Roy Lewallen, W7EL Yuri Blanarovich wrote: So, as a successful and award-winning engineer, what do you calculate as being the ratio of currents across my inductor, and how did you calculate it? Roy Lewallen, W7EL Judging by the picture, I wouldn't be able to include all the variables present in the setup. I will first measure it in same way as W9UCW did, about 2/3 up the mast and no wires hanging. Yuri |
#289
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I apologize. I read and was referring to the same quote, and interpreted
it to mean that the first measurement was made with the coil at the base of the antenna. So where was it -- 78" from the bottom? Roy Lewallen, W7EL Yuri Blanarovich wrote: On his web site, Yuri quoted W9UCW as measuring the currents at the ends of a toroid mounted at the base of the antenna as being 100 mA at the bottom and 79 at the top. You must, then, believe these measurements to be in error. Roy Lewallen, W7EL Not! Here what Yuri has on his web site, quote by W9UCW: "Because of the constant claim that this must be due to the fact that the coil is so big compared to a wavelength, I measured the in and out current on a TOROIDAL loading coil used on a 20m mobile antenna. It was a 78" base mast (including spring and mount) with a 38" top whip (including 12" of alum. tubing for adjustment). Below --100ma & Above --79ma When I moved the coil to the top of the mast and made a horizontal "X" top hat to resonate it back on the same freq, I got Below --100ma & Above --47ma So, It happens even in a totally shielded loading coil with miniscule power going thru it! Kirchoff has no laws about current being the same on both ends of inductors. His current law is about one POINT in a circuit and his voltage law is about a closed loop." He described exactly how it was done, definitely not at the base. Yuri |
#290
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I'm sorry, I didn't catch the step where you got from cos(18 degrees) =
0.951 to 2.5%. Roy Lewallen, W7EL Yuri Blanarovich wrote: 2.5 deg?) make that 2.5%?) |
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