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Transmission line stuff 5
On Feb 11, 5:38*pm, Jim Lux wrote:
K7ITM wrote: On Feb 11, 8:02 am, phaedrus wrote: I seem to recall that ladder/open-wire feeders are relatively high impedance ~500 ohms. Is it possible to construct 50 ohm open wire feeder and if so, what would the spacing be? Thanks! As hinted by others, especially Owen, it's quite possible to make parallel-conductor line of very low impedance. *There are two ways that are easy to describe, and these may well bring others to your mind: First, consider a line made of broad, flat conductors: *copper ribbon. *If the spacing is close compared with the conductor width, the impedance will be low. *This is not particularly practical for "open-wire feeders," but is commonly used on printed circuit boards. In the extreme, you can make transmission lines with impedances under 10 ohms this way, if you're of a mind to. *You can use thin, flexible Kapton tape, perhaps 0.1mm thick or less, and have conductors 10 or more mm wide. *According to a formula in Sams' "Reference Data for Engineers," the impedance will be approximately 377*s/ (sqrt(epsilon)*w), where w is the conductor width and s is the spacing. *For air dielectric, where epsilon is 1, you can make a 10 ohm line if the width is about 38 times the spacing. You see this in microstrip construction on various substrates, particularly where it's part of a matching network for transistor amplifiers (which can have Zs of a few ohms) On the other hand, there's generally not much advantage to making a low-impedance balanced line for RF work, so they are pretty uncommon in practice. in RF communications, that's true. In other high power RF applications, low Z can be desirable (because you'd rather take the IR hit than deal with the high voltage). In the pulsed nuclear research business you see lines with Z of a few ohms in pulse forming networks ften using distilled water as the dielectric.. that epsilon of 80 gets the C right up there so Sqrt(L/C) is small. Cheers, Tom Yes, indeed a low impedance can be helpful sometimes...but the times I've been involved with low-Z lines, they've almost always been unbalanced (e.g. coaxial). For a PFN, the high epsilon is also an advantage in storing a lot of energy. Since even very pure water is pretty conductive (relative to seriously good dielectrics), I'm a bit surprised it's used. Are the cases you're thinking of balanced lines, or coaxial? Is the impedance also chosen to match the load (in some sense), or is there also a transformer at the output to match to a higher-impedance load? It occurs to me that for a PFN, energy storage is a good thing...in fact, it's half of what a PFN is all about, the other half being delivering that energy in a controlled manner. But in power transmission, (excess) energy storage is generally a disadvantage. Lines with dielectric with high epsilon are lossier, and delay the signal more, than lines with low epsilon dielectric. Cheers, Tom |
#12
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Transmission line stuff 5
On Feb 11, 7:21*pm, K7ITM wrote:
On Feb 11, 5:38*pm, Jim Lux wrote: In other high power RF applications, low Z can be desirable (because you'd rather take the IR hit than deal with the high voltage). In the pulsed nuclear research business you see lines with Z of a few ohms in pulse forming networks ften using distilled water as the dielectric.. that epsilon of 80 gets the C right up there so Sqrt(L/C) is small. Yes, indeed a low impedance can be helpful sometimes...but the times I've been involved with low-Z lines, they've almost always been unbalanced (e.g. coaxial). *For a PFN, the high epsilon is also an advantage in storing a lot of energy. *Since even very pure water is pretty conductive (relative to seriously good dielectrics), I'm a bit surprised it's used. Both coaxial and parallel plate balanced.. For short pulses, the water isn't all that conductive (because it takes time for the water molecules to dissociate); you worry more about particulate or gas bubble contaminants cause a dielectric breakdown. For a spectacular example, look at the Z-machine. |
#13
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Transmission line stuff 5
On Feb 11, 4:02*pm, phaedrus wrote:
I seem to recall that ladder/open-wire feeders are relatively high impedance ~500 ohms. Is it possible to construct 50 ohm open wire feeder and if so, what would the spacing be? Thanks! Some simple experimental work he http://www.karinya.net/g3txq/twin_feed/ 73, Steve G3TXQ |
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