J.
Canada's position for WRC-2007 is to allow amatuers 1W EIRP. If you used
that as your 'reference' then you shouldn't go wrong. I asked for 1W EIRP
to keep my experiment in line with the work that is going on to get the band
approved.
73 Scott
----- Original Message -----
From: "J. Allen" <[email protected]>
To: <[email protected]>
Sent: Sunday, January 09, 2005 4:37 PM
Subject: LF: Antenna plans de J.
Alex, Jim, Markus, and LF,
The reason for setting my calculations in front of all, is that I am new
to
LF and want the station to have early success, rather than being a set of
mistakes and recoveries. You might be surprised, but although I am a 4th
dan black belt and head of TaeKwon-Do Yukon, I am not a fighter, and have
a
tendency to give up on things which I have made a solid attempt at and
find
repeated failures.
The reason for using the complicated antenna structure as I describe it is
that it is already standing... It is a large HF/MF V-beam with ~120 meter
legs up ~20 meters, with ~55 degree included angle. The antenna is fed
with 75 Ohm hard line which was in with a number of damaged tower sections
which I earned by cleaning up a commercial broadcasting station
construction
site. The towers had been taken down by persons unknown who cut the guy
lines and let the towers fall! I use this antenna on 160-2 meters and it
functions quite well with an antenna tuner. It is the receive antenna
which
I am now using on LF and although it is a sort of "short dipole"on LF, it
works very well.
The area of the antenna for several KM in all directions is poor sandy
soil.
I have on site approximately 20 km of ~#10 copper-clad high-tensile steel
wire, which was used for overhead telephone wires for many years. This
can
be buried for radials or more wires run up high to increase top
capacitance.
How big does the elevated counterpoise need to be at LF to be effective?
With the wire I have available, I could make a fairly large one in terms
of
feet, but it would still be small in terms of wavelength.
It may be easier to put a loading inductor out at the tower end of each
insulator, and add LF to the antenna use, than to build a new antenna
system.
As to the typo.. It is not critical now that I know about it and can make
allowance for it... When the loading coils are in and measurements can be
take of the LF antenna as a system, I will again send calculations to the
LF
reflector to make sure that I am not running more power than I should be.
I
prefer to have someone look at my work. These are my limitations:
Technical Operation Data:
-A transmitter will be used between the frequencies of 135.7 and 137.8kHz,
in the 2200 metre band.
-Emissions outside of this frequency range will be suppressed by a minimum
of 30db from the fundamental signal.
-Bandwidth of the transmitted signal will be limited to 100Hz or less.
-Radiated power will not exceed 1 watt ERP.
-The transmitter will be operated with care not to interfere with
authorized
users. Authorization for experimental transmissions will be on a secondary
user basis. I am aware of Canadian military operations in this frequency
range and will avoid transmitting on their frequencies. Any requests from
primary users to cease transmission or to change frequency will be
immediately complied with.
I did not think to set 1W ERP relative to anything... I do not know what
Industry Canada normally measures it to, and will need advice from
experienced Canadian LF ops like Steve or Scott on the normal comparison
for
ERP.
Alex, Thank you for your continuing help. I am retired and live on a
fixed, small income. Litz (sp?) wire in not being considered. I have
friends at the local power company who are watching for a "pole pig" or
other transformer with a burned primary winding and good secondary, which
I
can acquire at the value of the scrap copper within it. I plan to
disassemble it for the flat secondary copper strap winding, which is
usually
well insulated with a material that looks like varnish. I have been given
three pieces of 13 inch X 36 inch long PVC pipe, which I was going to use
for loading coil forms (formers), but have been told that they are lossy
and
I should use something else. At this point I am still planning to
disassemble the transformer, but I do not know whether to use the PVC and
accept the loss from it or to use another type of coil form.
I have about 20 pieces of 5/16 inch X 60 inch fiberglass rods which I can
use to make a form if needed.
I can move the V wire insulators out from the tower by a couple meters if
it
will help.
I have found this LF group to be friendly and supportive, and believe that
my chances of success are very likely to be a reflection of your
direction.
I appreciate the humor of the group as well.
J.
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