Guy,
I need some more db's on Tx. For Rx I hear much better than heard into
EU from Seattle area. It's a hard path and easy to believe EU QRN/QRM is
the main culprit. Your "loss list" is a great list, but I am thinking
about a different potential problem with my T with eight 125' long
elevated 10' radials, pretty much even in directions around the compass.
It has a good choke and buried feedline.
I have 3:1 measured current unbalance with an MFJ RF current meter I
calibrated. Perhaps unavoidable given the forest, lawn, towers, and
buildings near where the radials run. Plugging those values into Eznec
4.2 as a source for each radial yields insignificant pattern distortion.
Kirchoff's law is ok on the actual values, sum of measured radial
currents = vertical (85' to top of T, 33' each side top loading).
N6LF with his modeling shows that radials longer than 1/4wl can cause
significant losses. Now it occurs to me that the MFJ gave me scalar
current values and those are not necessarily the actual i+jx radial
currents. I think Kirchoff is happy as long as the eight radial plus
vertical i+jx radial values all add to j0 which was true at resonant
frequency where I was measuring the currents. So perhaps some of my
radials are longer than 1/4wl RF and increasing the losses.
So my questions for the wizards of top band verticals are:
1. Am I correct with my non scalar interpretation of Kirchoff's law for
radials?
2. What are easy ways to measure current phase for each radial? (I have
a dual channel scope and was thinking of making current probes of some
sort).
3. Was my 4.2 pattern/gain analysis correct for the modeling of the
unbalanced scalar currents?
4. Since the summed measured RF currents were correct, am I overthinking
this about potential losses?
5. Do other Topbanders have experience with measuring radial current phase?
6. Most of the literature gives strong admonitions to "equalize" radial
current "within a few percent" (ON4UN and others). Yet no analysis is
given for why or how to do that. My modeling seems to disagree. My
calculation of extra skin depth loss due to higher vs equal currents is
only a few watts.
W8JI advises to think about antennas as systems that include everything,
and the more I learn the more the complexity of the system unfolds.
Grant KZ1W
A db here and a db there and pretty soon its 3db or more.
On 1/7/2019 9:07 AM, Guy Olinger K2AV wrote:
Apologies to all for delay in response.
Losses related to ground and close dielectric materials remain the
single monster gorilla in the room for improving TX performance of
vertical antennas.
Setting aside content on k2av.com relating to the FCP, the other
issues in that web page’s "Loss List" section apply to any inverted L,
e.g. not having a tree inside the bend, avoiding proximity to
dielectric materials, quality of whatever counterpoise, etc
Simply having the RF current maximum on a vertical wire at the ground,
largely diminished at the top, is a loss issue, unless the in/on
ground radial system is EXCELLENT.
If you are considering beefing up your radial system in stages, then
by definition your radial system is NOT EXCELLENT. You already know
the deficiencies, those are what you haven't done yet and plan to do,
sometime.
The net effect of a collection of radial system deficiencies
separating you from EXCELLENT will be at minimum over Midwest USA
magic super dirt. Ground losses move in the direction of catastrophic
as ground quality deteriorates from super to average, to poor, very
poor, junk, awful, to unbelievably bad. The vast majority of the
country has ground quality that will make you pay if your radial
system is NOT EXCELLENT.
If you have that magic, super 30 millisiemens dirt, you can do
anything and get away with it. Please do not tell us, just keep it to
yourself. We already have enough things to make us jealous or feel
bad. Enjoy all your good results with schemes that blow up in ordinary
places. I have no problem with your good fortune, I just don't want to
be reminded over and over how poor NC dirt is for RF.
But please do not offer shortcut low-band advice, because you have no
idea what awful results your scheme might get in 2 millisiemens North
Carolina dirt, or even worse in the barely covered-over rubble that
sometimes passes for dirt in urban and some suburban building lots, or
in historic areas that have been built over previous ruins for
thirteen centuries, places where the skeletons of ancient kings have
been discovered buried in medieval church ruins found under
current-day parking lots.
The enemy of a vertical radiator is loss. Specifically, 1) dielectric
loss, RF exciting increased electron energy levels without electron
movement between atoms and 2) resistive loss, RF inducing current in
conductive but resistive materials. Dirt usually has both. Further and
worse, UNLESS there is net field cancellation at the radial wire or
below (outcome of an EXCELLENT radial system), dielectric material
within a few millimeters of radial field conductors INCREASES
dielectric loss.
RF fields at the feedpoint are huge, especially where a self-resonant
vertical radiator meets in/on ground radials. Radial deficiencies will
be costly close to vertical wire meeting counterpoise, further
multiplied by the "poorness factor" of the dirt underneath. That is
one of the gains of an elevated counterpoise, getting high fields away
from the damnable dirt where an EXCELLENT on/in ground counterpoise
just ain't possible.
Another way to reduce the fields at the ground is to quit using the
length of the vertical aerial wire as a cheap way to provide tuning
for matching to coax. If (on 160) you use an 88' foot wire as a start
for the L's horizontal, you will move the current max to 1/16 wave
down from the bend in the L. You will have done two good things, 1)
reduced the feedpoint current, hence also the RF field at the base,
reducing the power loss by the square of the field reduction, 2) put a
fairly uniform current on the *entire* vertical wire, further reducing
takeoff losses in trees, buildings, etc, by having a much larger
percentage of the total takeoff energy high enough get to sky without
encountering ANY dielectric losses.
How long to make the vertical wire? As long as you can while still
sufficiently avoiding dielectric and conductive materials. Losses from
higher current on a shorter vertical wire are outweighed significantly
by gains moving the feedpoint up in the air away from dreadful ground
losses only otherwise mitigated by EXCELLENT ground radial systems.
There are also questions about the efficiency of ground radials on top
of typical root content of "woodsy" locations. Roots are high loss
dielectric materials. Controversial, but an EXCELLENT *elevated*
radial system in the woods is going to outperform radials on ground.
Buried radials in the woods outright dismissed by many as impractical
at best.
The usual killer reason for abandoning or not adopting non-resonant
improvements to move current maximum well up on the vertical wire?
Desiring low SWR without tuning apparatus at the base of the vertical
wire. From the "Taming the exasperating Inverted L" section on
k2av.com:
**An Efficient Self-resonant Inverted L
is NOT a natural 50 ohm antenna**
Not even close. Think 20 to 35 ohms.
Varies with dimensions and environment.
**Lower SWR does NOT
predict improved performance**
A dummy load has perfect SWR, and at 100% loss
is a worse antenna than a light bulb.
73, Guy K2AV
PS: How much wire does it take to be an EXCELLENT radial field? Has to
be dense, full size all around, uniform in all directions. There are a
lot of hams who have had the space and actually done that, put down an
EXCELLENT radial field, and are definitely getting EXCELLENT results.
Just remember that "merely decent" radials over typical poor ground
can evaluate to "disappointing."
On Tue, Dec 18, 2018 at 11:07 AM Todd Goins <tgoins@gmail.com> wrote:
Hi Gary,
Thanks for the help. I got the new wire in place roughly as you described.
It is a few feet lower to give good clearance from the anchoring branch.
It doesn't work very well. Last night it was much poorer on receive and
transmit than my existing 43' vertical setup. I'm not sure what to think.
Maybe the light of day will reveal a clue, but it was fairly quick and easy
to construct and kinda tough to mess up but who knows...
I'll put an analyzer on the feedpoint this morning and see if it looks out
of whack. I was expecting it to be a least a little better but it clearly
wasn't.
73,
Todd - NR7RR
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