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loops and 4:1 baluns
I have started to experiment with EZNEC and am
modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD |
loops and 4:1 baluns
On Jan 16, 6:52*pm, Tad Danley wrote:
I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. *I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. *I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD It's harder to build a 2:1 balun.. a 4:1 is a 2:1 turns ratio, and more common (yes, one can do 3:2, that's 1.5:1 turns, 2:25:1 Z) |
loops and 4:1 baluns
7:5 turns ratio is 2:1 balun;
3:2 turns, as suggested, is 2.25:1: SWR 1.1:1 is good... Gianluca |
loops and 4:1 baluns
"Tad Danley" wrote in message ... I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD the simpler match is 1/4 wave of 75 ohm cable. |
loops and 4:1 baluns
the simpler match is 1/4 wave of 75 ohm cable.
For a narrow band... Gianluca |
loops and 4:1 baluns
"Tad Danley" wrote in message ... I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD -------- I am beginning to suspect that traditionally made baluns are not as exact in practice as they are theoretically. This is not a surprise, really. Few things in electronics are exact as we humans like to assume, as you well know. Good seeing your post, OM. Ed Cregger, N2ECW former NM2K |
loops and 4:1 baluns
"Ed Cregger" wrote in message ... "Tad Danley" wrote in message ... I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD -------- I am beginning to suspect that traditionally made baluns are not as exact in practice as they are theoretically. This is not a surprise, really. Few things in electronics are exact as we humans like to assume, as you well know. the baluns are exact, the practical antennas aren't. |
loops and 4:1 baluns
Tad Danley wrote:
I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? The resonant feedpoint of the 80m loop that I modeled with EZNEC is 115 ohms. Without a 4:1 at the feedpoint, the 50 ohm SWR is 2.3:1 inviting foldback. With a 4:1 balun, the 50 ohm SWR is 1.7:1 with no foldback. It is rare for the feedpoint resistance of a loop to be exactly 100 ohms. Of course, if the loop is fed with high-Z0 ladder-line, the 100 ohm feedpoint resistance is transformed to a higher impedance value where a 4:1 balun might be more effective. For single-band operation, most hams simply feed the loop with 1/4WL of Z0=75 ohm coax (quarter-wave transformer). -- 73, Cecil http://www.w5dxp.com |
loops and 4:1 baluns
"Dave" wrote in message ... "Ed Cregger" wrote in message ... "Tad Danley" wrote in message ... I have started to experiment with EZNEC and am modeling a couple of loop antennas including some delta loops. I see references to hams using 4:1 baluns with these antennas, but the models I see show a feed point impedance of roughly 100 ohms. I'm not sure how a 4:1 balun would help - what am I missing? Thanks and 73, Tad Danley, K3TD -------- I am beginning to suspect that traditionally made baluns are not as exact in practice as they are theoretically. This is not a surprise, really. Few things in electronics are exact as we humans like to assume, as you well know. the baluns are exact, the practical antennas aren't. Only in theory. Such things as variances in construction materials from one batch to another and the variations that one human will introduce to construction versus another human also induce characteristics that do not always jibe with theory. I admit that I am argueing a very fine point here, Dave, but folks without any electronics education, but who have pursued electronics theory as part of their amateur radio advocation, are sometimes prone to thinking that everything is exact. In the real physical world, few things are exact. Ask any technician or machinist. Ed, N2ECW |
loops and 4:1 baluns
On Sat, 17 Jan 2009 12:48:05 -0500, "Ed Cregger"
wrote: I am beginning to suspect that traditionally made baluns are not as exact in practice as they are theoretically. the baluns are exact, the practical antennas aren't. Only in theory. Such things as variances in construction materials from one batch to another and the variations that one human will introduce to construction versus another human also induce characteristics that do not always jibe with theory. I admit that I am argueing a very fine point here, Dave, but folks without any electronics education, but who have pursued electronics theory as part of their amateur radio advocation, are sometimes prone to thinking that everything is exact. In the real physical world, few things are exact. Ask any technician or machinist. Any technician or machinist has only a remote association with exact anyway. I've calibrated their tools and know how inexact they are. However, returning to the context of BalUns, a person can choose to fail, or simply fumble along when it comes to their design, construction, or application - but this is not a performance fault of the class of BalUn. Using your 160M BalUn for 1.2GHz work isn't a blight on the BalUn, but on the user's inappropriate application (hammering in a screw for example). The test data I've seen for careful constructions have remarkable attributes that defy typical construction projects pursuing other goals. Jerry Sevick's work reveals less than 0.02dB variation of insertion loss over the HF range for one of his constructions. The value of insertion loss it does present is less than 0.1dB. The ability to duplicate his work is not outside the capability of any individual who writes to this group - but anyone could certainly slop it into oblivion if care was not high in their mind. The specs I offered above came of simply opening the book and describing the first page that offered test results. Scanning further for better examples yields better examples. As a class, BalUns are rather exceptional performers. So, to this casual off-hand remark of BalUns not being as "exact" in practice as in theory begs the question: "How exact?" When I see such manufactured controversies conjoined (through other authors) with turns-ratio, the discussion of BalUn operation is showing stress fractures in understanding - not theory. 73's Richard Clark, KB7QHC |
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