Path: ...!weretis.net!feeder8.news.weretis.net!fu-berlin.de!uni-berlin.de!individual.net!not-for-mail From: liz@poppyrecords.invalid.invalid (Liz Tuddenham) Newsgroups: sci.electronics.design Subject: Re: Pawsey stub velocity Date: Mon, 17 Mar 2025 08:32:37 +0000 Organization: Poppy Records Lines: 62 Message-ID: <1r9bzo4.sohp5u4tm840N%liz@poppyrecords.invalid.invalid> References: <1r9aa77.1vp4ggx1eqrulmN%liz@poppyrecords.invalid.invalid> <447kal-juoa.ln1@coop.radagast.org> Mime-Version: 1.0 Content-Type: text/plain; charset=ISO-8859-1 Content-Transfer-Encoding: 8bit X-Trace: individual.net iJDhY+MdZA0Y365CvifQnw1JA0qroWxp5UQmjrBlFC9c7zaWF6 X-Orig-Path: liz Cancel-Lock: sha1:pCGeJ0+XZ2v41IS6VOi6wdVZa3Q= sha256:dua+6txtGuviAmqh7Vj2IZrs+yX0gGpJXL7Bf+9l52k= User-Agent: MacSOUP/2.4.6 Bytes: 4076 piglet wrote: > Dave Platt wrote: > > In article <1r9aa77.1vp4ggx1eqrulmN%liz@poppyrecords.invalid.invalid>, > > Liz Tuddenham wrote: > > > >> I've been mucking about with a design which includes a Pawsey stub. > >> Some sources say the velocity factor of the feeder co-ax and the > >> quarter-wave shorting stub, which is made of co-ax with the inner > >> disconnected, must be taken into account. Other sources say that the > >> velocity factor is that of an open wire, not co-ax, because the stub is > >> only the braid acting as a piece of wire. > >> > >> I can see that the stub does not need to be treated as co-ax, because it > >> is just acting as wire (and the fact that it is made from the braiding > >> of co-ax is irrelevant). I can also see that the feeder co-ax > >> apparently *is* being used as co-ax which means its velocity factor > >> should be taken into account. This leads to the logical conclusion that > >> the length of feeder co-ax shorted by the stub needs to be a different > >> length from the length of the stub itself - which none of the > >> descriptions mentions or illustrates (the kinks would be obvious). > > > > As I understand it: > > > > - The current flow on the _inside_ of the feeder coax is subject > > to the cable's velocity factor, because the electrical fields > > are applied across the cable dielectric. > > > > - The current flow back down the _outside_ of the feeder coax > > (which is what you want to choke off, in order to force > > balance in the antenna) is not subject to the cable's > > velocity factor, because the electrical field on the > > outside isn't going through the cable dielectric. It's > > going only through the outer insulation and then out > > into space. > > > > Again, if I understand it correctly, the presence of the outer > > insulation (on both the feeder, and the choke section) does cause > > current flow here to have a velocity factor of somewhat less than 1.0 > > (as you would see in a bare wire). However, the velocity change is > > much less than what occurs inside the cable (the VF here might be .98 > > rather than .67 as it might be inside the coax), and most opinions > > I've read say that it can generally be neglected when figuring out the > > length of the choke section (and thus the point at which the bottom of > > the choke is soldered to the feeder). > > > > I don't believe it matters significantly whether you remove > > the center conductor from the choke section, or simply > > trim it off flush at both ends and don't connect it. > Yes I think that’s right. The quarter wave transmission line we want is > formed between the stub shield and the feedline shield. These fields are in > the thin outer jacket insulation and air so velocity factor will be high > and near one. Spacing between the two shields should be minimised? I agree, that seems like the correct explanation - mystery solved! -- ~ Liz Tuddenham ~ (Remove the ".invalid"s and add ".co.uk" to reply) www.poppyrecords.co.uk