Connecting to your ant with coax

>
>Connecting to your ant with coax.
>
>True story..... (maybe a little too long. You can jump
>way down to the paragraph labeled - The Practical Lesson):
>
>I built the KX1 (20/40m) and the ATU per the manual. Then
>built the vertical that Wayne suggest in the ATU manual;
>about 30ft vertical (some military surplus mast sections
>resting on a coke bottle) and 4 16-ft radials laid out on the
>ground.
>
>Hooked the KX1 to the antenna at the base of the antenna and
>hit the tune up buttons. It tuned beautifully (both bands)! I was doing the 'Happy Dance'! But I didn't want to sit at the base of
>the antenna while I was operating, so I found some old coax
>with connectors (about 15ft in length) and set myself up on
>card table that far away. Hit the tune up buttons again and
>found the SWR was terrible! (I was reading the SWR on the KX1
>read out.)
>
>Now I am a used-to-be-engineer, but have forgotten all that I
>once knew about antennas and coax - OK, OK, I admit it, I've
>become an appliance operator! Anyway, retirement does that
>to you.
>
>I puzzled over this for a few seconds and decided that the
>coax or connectors were bad. So I substituted in another coax
>cable (about the same length). Still the SWR was way out.
>(You guys who are still active engineers know what's wrong
>already, I'm sure. So I am writing for the old geezers like
>me or neophytes to the hobby.)
>
>The Practical Lesson:
>Well, this coax length is a 'gotcha' - Here's the deal....
>
>Recall from your studying the license manual that coax can
>act as an impedance transformer. Every half-wave length, the
>coax transforms the load impedance (that's your antenna) back
>to its original value.
>
>Coax has an attribute call 'Velocity Factor' (remember that
>one?). This VF is different for each type of coax. What that
>means is (practically speaking) that the coax really needs to
>be adjusted in length by multiplying that physical wave-length
>by the VF.
>
>So what I needed for coax length that was some multiple of
>half-wave length. Recall again from your earlier studies that
>the simple formula for a half-wave antenna length (ft) is:  
>468/freq (freq is in mhz) . So for 40m that length is roughly 66 ft.
>NOW.... you have to shorten the coax by the VF to get the final physical length. I was using coax type RG-59 with a VF of .68
>(from somebody's chart on the web). So, 66 x .68 = 45ft (approx).
>
>I rummaged around in my junque box and found a 42ft length
>of coax with BNC connectors on each end. I made up an
>additional short length of coax with a BNC on one end and a
>couple of Alligator clips on the other (this to connect the
>vertical to the 42ft length of coax).Hooked all that up to
>the KX1 and hit the tune buttons again!
>
>SHAZAM!!! (an old Gomer Pile expression) - SWR was back to
>near normal! (more 'Happy Dancing'.)
>
>Oh did I forget to mention that this same length will work on
>20m too!
>
>(OK, no flames now, but if you engineer types want to expand on
>this, go right ahead).
>
>73 de Jerry/k6iii
>San Jose, CA
>KX1 s/n 1101
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>Pretty good explaination.  I'll only add that the formula of 468/f
>already has a "correction factor" involved as the real formula is 492/f
>(for lenth in feet of a half wavelenth with frequency given in MHz).
>So, using 492/f and the proper velocity factor depending on type of
>dielectric you should be able to get pretty close to a physical half
>wavelength of coax.
>
>If you have an antenna analyzer (pick your favorite, mine is an
>MFJ-269), you should be able to tweak it slightly as well.  Actually,
>1/4 length stubs are really slick as well, again providing a
>transformer effect.  This is where it gets really cool.  Cut a length
>of coax slightly longer than your calculation (based on the proper
>velocity factor, also divide by 2 if you want a 1/4 wavelenth rather
>than a 1/2 wavelength) and install a proper RF connector of your choice
>on one end.  Connect the connectorized end to the analyzer.  You know
>you are at a quarter wavelength when the open circuit becomes a short
>circuit (with RF using the analyzer, not at DC).  Then, for fun and to
>prove to you that you just have a 1/4 wavelength line at that
>frequency, short the loose end and you should see that the analyzer
>measures an open circuit.  The reason for this can be explained with
>some nice formulas, but also graphically what happens is you rotate 1/2
>way around the Smith Chart, from either an open or a short circuit,
>whichever case you have, to the opposite side of the Smith Chart. If
>you are doing this with 75 ohm feedline instead of 50 ohm feedline, it
>will act as a transformer from 100 ohms to 50 ohms also.  So a 100 ohm
>load if applied directly to your antenna analyzer of choice would show
>a 2:1 SWR (assuming Zo = 50 ohms).  Put that 100 ohm load at the end of
>your 1/2 wavelength 50 ohm feedline and see that it is still a 2:1 SWR.
>Now attach it to the end of your 1/4 wavelength 75 ohm feedline and
>whatch the SWR magically become 1:1!  COOL!  Since Field Day is coming
>up, use this tip to minimize your SWR (for loads that are slightly high
>impedance) very easily without raising and lowering the antenna to trim
>it "just right" and without using an antenna tuner.  BTW, I always keep
>a couple of lengths of 1/4 wavelength 75 ohm "Q-lines" handy and
>labelled for what band they are tuned.  I saw an old RF engineer do
>this at my first Field Day at K8DAC in Saginaw, MI back in about 1983
>and I was amazed at the simplicity.  Now I'm an RF engineer and I'm still amazed at the simplicity!
>
>73,
>
>Mark, NK8Q
>K2 4786