KAT1 (K1) & end-fed halfwave wire antenna

> The other day I posted an antenna question about making a K1 antenna
> that avoids halfwave multiples (& thanks again to the guys who replied
> offlist).  From the calculations in that note and some modeling by
> another op it seems the ~18m/60' is probably the length to try there.
>
> But end-fed halfwave antennas have some advantages, especially the
> fact that as a voltage fed antenna they have less of a need for a low
> impedance ground to keep rf losses low.  On the other hand, they offer
> very high impedance to the tuner.  The KAT1 manual says to look out
> for "rf problems" at exact half wavelengths but doesn't come out and
> say if it can or can't handle it (even if just at certain ranges of
> length).
>
> A longtime ham told me some ATUs used to have a switch to move a cap
> to one end of the matching network or another to offer a wider
> matching range.  So if the KAT1 can handle the impedance, great.  If
> not, maybe I can put a coil in series and tap it at the 50 Ohm point
> of the coil. I'm not sure if it's worth the effort, especially since
> it'd be nice to keep portable ops as simple as possible.  But if
> there's a noticeable performace increase...  Has anyone tried either
> method?  (That is, direct connection of halfwave end-fed or tapping an
> inductor.)  Thanks for any ideas.
>
> 73,
> Mike  ab3ap
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>You are right about the improved efficiency of the end fed dipole (i.e. half
>wave) antenna. From the standpoint of radiation, it's identical in all
>respects to a center fed dipole. The only difference is that you're feeding
>at a voltage loop instead of at a current loop. For portable use, that means
>no feeder is needed and you can still get the high-current portion of the
>antenna up "in the clear" - at least 1/4 wave up if you're able to run it
>vertically or as an "inverted L" with the bend at the center of the wire.
>
>There are two problems with an end fed dipole. First, most automatic antenna
>tuners (including the Elecraft tuners) cannot handle the very high impedance
>of an end fed dipole. Secondly, such tuners do not isolate the rig from the
>high RF voltage present at the end of the antenna. The whole rig tends to
>"float" up to the high RF voltage at the end of the antenna which makes the
>rig "hot" with RF. In modern rigs filled with logic chips, the RF can raise
>havoc by producing false inputs to the logic here and there at random. In
>extreme situations you can even feel the "bite" of the RF voltage when you
>touch the rig, even at QRP power levels. Also, at a voltage loop,
>capacitance to ground affects the tuning. Your body touching the rig easily
>detunes the antenna system.
>
>The hot RF issue is the easiest to deal with, but makes the antenna more
>complex. Ground the rig. It doesn't have to be a very efficient ground; just
>something to reduce the RF voltage to an acceptable level. A 1/4 wave length
>of wire isolated from ground and hooked to the case of the rig is perhaps
>the simplest although all sorts of lengths of wire laid on the ground
>usually work too.
>
>Matching to the high impedance at the end of a dipole is a little more
>difficult to deal with using an automatic tuner. I currently use an end-fed
>dipole in a temporary setup with my rig on the second floor of the house. I
>use a manually-adjusted link coupled tuner that effectively decouples the
>antenna from the rig. Unfortunately, such tuners are very difficult to
>automate. It has two variable capacitors that must be adjusted and five coil
>taps to adjust when moving from one band to another. Most automatic tuners,
>including the Elecraft tuners, us an "L-network". It is an efficient and
>flexible design, but because of the very high RF voltages that can be
>present when the impedance is very high, the compact, automated versions
>aren't designed to match the very high impedance at the end of a dipole.
>
>That's the bad news. The good news is that it's not necessary to use an
>antenna exactly 1/2 wave long for good efficiency. While the 1/2 wave is
>ideal, lengths longer or shorter, within reason, can still provide an
>efficient antenna. As you move away from the half wave length, the impedance
>drops and ground losses increase, so the idea is to find the length closest
>to 1/2 wave that your ATU will still handle and which don't produce any
>detuning effects when you touch the rig.
>
>Many folks do what you are considering: use a coil or a variable capacitor
>in series with the antenna where it connects to the rig. A tapped coil is
>more common because coils are less easily damaged in the field. The coil or
>capacitor will change the impedance at the feed point so the ATU can find a
>match. For highest efficiency, you want to start with an antenna a close to
>1/2 wavelength long as possible, and then add only the reactance
>(capacitance or inductance) needed to get a match; no more. The farther you
>go from 1/2 wavelength, the lower the antenna efficiency. That is, unless
>you can set up a good ground system. And that's why some portable operators
>choose to go to the trouble to rig a 1/4 wave wire, insulated from
>surrounding objects, as  a "counterpoise" connected to the rig case. You
>need one for each band. You can use multiwire cable with each wire cut to
>the right length, but be sure to separate the last few feet of each wire
>from the others. The point about a 1/4 wave wire is that if you force one
>end to be "hot" (at a high impedance) by insulating it from everything
>around it, the other end you connect to the rig will show an impedance of
>about 35 ohms: low enough to be a decent RF ground. You must separate the
>ends from the other wires (and other objects) to keep them from detuning the
>wire.
>
>BTW, your friend is right about the "switch". That's part of an L-network
>like the Elecraft tuners use. In the Elecraft ATUs the switching done
>automatically. It's part of the relay chatter you hear going on while the
>ATU is searching for a match.
>
>Ron AC7AC
>
>-----Original Message-----
>
>The other day I posted an antenna question about making a K1 antenna
>that avoids halfwave multiples (& thanks again to the guys who replied
>offlist).  From the calculations in that note and some modeling by
>another op it seems the ~18m/60' is probably the length to try there.
>
>But end-fed halfwave antennas have some advantages, especially the fact
>that as a voltage fed antenna they have less of a need for a low
>impedance ground to keep rf losses low.  On the other hand, they offer
>very high impedance to the tuner.  The KAT1 manual says to look out for
>"rf problems" at exact half wavelengths but doesn't come out and say if
>it can or can't handle it (even if just at certain ranges of length).
>
>A longtime ham told me some ATUs used to have a switch to move a cap to
>one end of the matching network or another to offer a wider matching
>range.  So if the KAT1 can handle the impedance, great.  If not, maybe I
>can put a coil in series and tap it at the 50 Ohm point of the coil.
>I'm not sure if it's worth the effort, especially since it'd be nice to
>keep portable ops as simple as possible.  But if there's a noticeable
>performace increase...  Has anyone tried either method?  (That is,
>direct connection of halfwave end-fed or tapping an inductor.)  Thanks
>for any ideas.
>
>73,
>Mike  ab3ap
>
>_______________________________________________
>Elecraft mailing list
>Post to: [hidden email]
>You must be a subscriber to post to the list.
>Subscriber Info (Addr. Change, sub, unsub etc.):
> http://mailman.qth.net/mailman/listinfo/elecraft
>
>Help: http://mailman.qth.net/subscribers.htm
>Elecraft web page: http://www.elecraft.com
>