Testing Elecraft T1 autotuner with 10-ft. whip

FYI

Paul, W0RW asked me to test the new Elecraft T1 mini
antenna tuner with a 10-ft. whip and 13-ft. drag line.
I didn't have that kind of whip so I tested it with a
10-ft length of thick (12-gauge) stranded insulated
copper wire taped to one of those black, expandable
plastic fish poles in a vertical position. I don't
think those poles have detrimental electrical or RF
properties (fill me in if I'm wrong).

The feed point of this vertical wire was 5 feet off
the ground. I didn't use the 6-inch feed line that
Paul said he was using -- I just connected directly to
the bottom of the 10-ft. wire.  

The 13-ft. drag line consisted of the same kind of
wire, and was simply laid on the grass.

I used my FT-817 running 5 watts and the Elecraft T1
tuner. I used a CW signal for testing.

The results using an Elecraft 4:1 balun were very
good. For every band (looking at both the high and low
ends of the broad bands) from 50 MHz down through 7
MHz (excluding 60m where I can't broadcast) the SWR
was 1:1. On the high end of the 3 MHz band the SWR was
between 1:1 and 1:2. I couldn't obtain a decent SWR on
the low end of the 3 MHz band. I couldn't load on
160m.

All the above tunes were accomplished "first time."

Without using a balun, I again obtained 1:1 SWRs from
50 MHz down through 14 MHz. On 10 MHz I found an SWR
between 1:1 and 1:2. I couldn't load on the bands
below 10 MHz.

Looks like that 10-ft. vertical and the 13-ft. drag
line work very well with the T1 and the balun.

-- Bil   KD6JUI
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Very good on the report and I for one appreciate the work and effort into
it.

My one question is, "are you able to tell if the RF output was "reduced" to
satisfy the low SWR or did the RF output remain same?"
There are situations where the tuner matches but the radio outputs at
reduced power because the antenna is less than optimum.

Ron wb1hga
"CW, an esoteric experience"

 
KD6JUI writes:
The results using an Elecraft 4:1 balun were very
good. For every band (looking at both the high and low
ends of the broad bands) from 50 MHz down through 7
MHz (excluding 60m where I can't broadcast) the SWR
was 1:1. On the high end of the 3 MHz band the SWR was
between 1:1 and 1:2. I couldn't obtain a decent SWR on
the low end of the 3 MHz band. I couldn't load on
160m.
(snip)
 Without using a balun, I again obtained 1:1 SWRs from
50 MHz down through 14 MHz. On 10 MHz I found an SWR
between 1:1 and 1:2. I couldn't load on the bands
below 10 MHz.

Looks like that 10-ft. vertical and the 13-ft. drag
line work very well with the T1 and the balun.

 

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Today I put a CB whip on the back of my bike and cable-tied the T1 to a
6" piece of coax, and then another length to my FT817. The whip was at a
45 degree angle but began to sag towards the back.  I also clipped a
length of wire to the top and various other positions to try to get it
to load on 60 or 75m, but couldn't get it to load below 70m.  Matches
were easy on the high bands, and seemed a little more lossy on 40m.

I ran 2.5W or 5W, but did not make any SSB contacts, though I did get a
weak signal report from a KH6 in Honolulu from my QRV location at the
San Francisco bay.

See pix at http://wa5znu.org/log

It was mostly a dry run, as I don't think the 817 has enough power to
work SSB bike mobile.  Next week I plan to try again, with my K5OOR 50W
amplifier for the FT-817, now that Elecraft has given us the test
results for intermittent operation SSB in the 35W range.

I did not try the 817 connector cable, but when I do I will rprobably
need to use some kind of wiring harness, as there were more wires than I
was comfortable with already.

I know that Bud W3FF has had good experience with tuned grounds on the
low bands so I may look into that as well.  Also, I need to get the
antenna more vertical, whixh may require some metal work.

Leigh / WA5ZNU
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One way to get a match with a too-short antenna is to use a less-good
ground! <G>

Seriously, as an antenna is shortened below 1/4 wavelength the capacitive
reactance gets very high and the radiation resistance goes very low - well
under 1 ohm.

The T1 needs to correct both conditions: add enough inductance to bring the
system to resonance (balance out the capacitive reactance of that short
radiator) and convert the resulting resistance to 50 ohms.

On the lower bands the T1 can run out of inductance and can't bring a short
antenna to resonance. Most antenna tuners have limited inductance for
extreme matching on the lower bands. That's why they usually are specified
for only 80 meters and up, and have limited matching capabilities even on
80.

One way to overcome that is to add a loading coil to the antenna. That's why
mobile/portable short antennas have them. You can use a toroid core or, my
preference, make a small air-wound coil on something like a 35 mm film
container and add it in series at the antenna feed point. It's a
cut-and-paste sort of thing. When the T1 can produce a match you've got
enough inductance.

I tried something a little different with my T1. I changed the T1's toroid
coils. I doubled all the values since I didn't care about 6-meter coverage.
That was easy. I wound a new L7. I found that a T50-2 core would fit if it
was tilted just a bit to clear the case when the unit was reassembled. Fully
wound it took 38 turns and provides about 7.5 uH; that's about twice the
inductance of the original L7. Then it was just a matter of moving all the
toroids over one space. The original L7 was put in the place for L6, the
original L6 was put in the place for L5 and so on with the little three-turn
L1 no longer used.

That improved the inductance range available for the lower bands. It still
won't load a wet noodle on 160 meters without an external inductor, but
it'll load a whole lot more in the way of short antennas on the lower bands
than it did with the original coils.

The other place the T1, like any tuner, can run out of range is in the
ability to convert the remaining resistive part of the impedance the antenna
presents to 50 ohms for the transmitter. Few antennas in the real world show
an impedance over a few thousand ohms. Compared to 50 ohms, that's a range
of maybe 20 or 30:1 (30 times 50 = 1500 ohms). But a short antenna with an
impedance of, say. 0.5 ohm requires the tuner have a range of 50/0.5 =
100:1! That gets tough to do.

BAD GROUND TO THE RESCUE!

The impedance is only that low if the resistance is only the radiation
resistance of the short antenna. However, two other things come into play:
the resistance of the conductors and the ground resistance. Conductor
resistance can be a couple of ohms in any case. If the radiation resistance
is 0.5 ohm and the conductor resistance (including any coils) is, say, 2
ohms, then the efficiency of the antenna is only 25%. It can't get any
better because the power is shared between making heat in the conductors and
making electromagnetic waves in space: 25% to RF and  75% to heat. (That's
why we need superconductor for really efficient short antennas.)

Even so, in most end-fed antennas there is another major element that adds
resistance, and loss, to the antenna. That's the ground resistance. It's in
series with the antenna, so it eats up power too. A 'typical' ground can
have anything from tens of ohms to several hundred ohms resistance. A
well-tuned, full-length insulated 1/4 wave 'counterpoise' is going to show
something about 35 ohms, for example.

A typical 'drag wire' is going to be a lot higher than 35 ohms unless you're
walking through salt water. As you increase that resistance, you make the
matching job much easier for the tuner at the cost of less actual RF being
radiated.

So if your pedestrian mobile setup won't tune on a lower band frequency, try
shortening your drag wire - just fold it back on itself a bit - and see if
that doesn't help.

Of course, your RF output, typically in the range of a few percent at best
under these conditions, drops even more. But that's part of the wonder of it
all: just how little actual radiated RF it takes to be heard over very
surprising distances!

Ron AC7AC



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