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<P><FONT size=4></FONT><FONT color=#666666 size=5><FONT size=-1><FONT
color=#000080><STRONG><SPAN style="FONT-SIZE: 24px">VE3SQB ANTENNA DESIGN
PROGRAMS<BR></SPAN><SPAN style="FONT-SIZE: 14px">BY AL
LEGARY</SPAN></STRONG><BR></FONT></FONT><SPAN style="FONT-SIZE: 14px"><FONT
color=#000000><SPAN style="FONT-SIZE: 14px"><STRONG><FONT color=#ff0000><FONT
face=Arial><FONT size=4><FONT color=#800000>Notice! Due to high demand for these
programs, long download times may be encountered on the links below. If you
experience delays.....<BR>just</FONT> </FONT></FONT></FONT></STRONG></SPAN><A
href="http://www.ve3sqb.com/"><FONT face=Arial color=#0000ff size=4><SPAN
style="FONT-SIZE: 14px"><STRONG>click here to go direct to Al's new
website!</STRONG></SPAN></FONT></A><BR><BR><BR><SPAN
style="FONT-SIZE: 14px"><FONT color=#000000><STRONG><FONT face=Arial><SPAN
style="FONT-SIZE: 18px">With surface mount technology and microcircuitry, most
hams no longer build their own equipment. One area that is still open to
amateurs is in </SPAN><FONT color=#ff0000><SPAN style="FONT-SIZE: 18px">antenna
building!</SPAN></FONT><SPAN style="FONT-SIZE: 18px"> For a hundred years the
amateurs have made more breakthroughs in antenna design than the professionals.
We do not know the rules so we go ahead and build the antennas anyways, Some
work, some don't. We are still looking for that PERFECT antenna that is small,
easy to build and is super efficient. You may be that designer. If not, you will
still have the satisfaction of working that DX with a homebrew antenna.
</SPAN><I><SPAN style="FONT-SIZE: 18px">I believe there is not a commercial
antenna that you can't make better and for a quarter of the price!
</SPAN></I></FONT></STRONG><SPAN style="FONT-SIZE: 18px"><BR><BR><STRONG><FONT
face=Arial>To get you started, I have made up programs that cover the most
common types of antennas and a few experimental designs.
</FONT></STRONG></SPAN><FONT face=Arial color=#ff0000><SPAN
style="FONT-SIZE: 18px"><STRONG>Click on the icons to
download.</STRONG></SPAN></FONT><SPAN style="FONT-SIZE: 18px"><STRONG><FONT
face=Arial> The programs do not write to the Windows registry so just delete the
files when you no longer wish to keep them. <BR><FONT color=#0000ff>They do
require that the dll files are up to date, so if you are unsure or the programs
do not run, download the full install version of HFQuad2002 first, then all will
run..</FONT> <BR>Most programs have inch and metric
calculations.</FONT></STRONG><BR><BR><BR></SPAN></FONT></SPAN></FONT></SPAN></FONT></P>
<P><FONT color=#666666 size=5><SPAN style="FONT-SIZE: 14px"><FONT face=Arial
color=#000000 size=4><A href="http://www.qsl.net/ve3sqb/squad.exe"><IMG
height=69 alt="" hspace=0 src="http://www.hamuniverse.com/Squad11.gif" width=67
border=0></A> <A href="http://www.qsl.net/ve3sqb/quad2002.zip"><IMG
height=68 alt="" hspace=0 src="http://www.hamuniverse.com/Quad11.gif" width=70
border=0></A> <A href="http://www.qsl.net/ve3sqb/quadv3.exe"><IMG height=68
alt="" hspace=0 src="http://www.hamuniverse.com/Vquads1.gif" width=68
border=0></A></FONT></SPAN></FONT><FONT color=#666666 size=5><SPAN
style="FONT-SIZE: 14px"><FONT face=Arial color=#000000 size=4><SPAN
style="FONT-SIZE: 24px"><STRONG><FONT face="Times New Roman"
color=#0000ff><BR>Quads are my specialty.</FONT></STRONG></SPAN><FONT
size=+2><SPAN style="FONT-SIZE: 24px"><BR></SPAN></FONT><STRONG><SPAN
style="FONT-SIZE: 18px">The Standard quad is designed from the textbook
equations and is compliments of Roger Clement </SPAN><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px">KC5LCA</SPAN></FONT></STRONG><STRONG><SPAN
style="FONT-SIZE: 18px">. It is designed for 50 ohms and is the tried and true
method.<BR>The HF version is my program taken from research done by </SPAN><FONT
color=#ff0000><SPAN style="FONT-SIZE: 18px">W3GNR</SPAN></FONT></STRONG><SPAN
style="FONT-SIZE: 18px"><STRONG> who must have spent many hours of field
research to develop his formulae. He discovered that odd number of elements
perform better than even and developed the wire size scaling. No other quad
program uses this information. I find this best for HF or VHF with few elements.
<BR>My version 3 was developed from the original HF version but was optimized
using two different computer modelling programs. This allowed me to tweak the
original formulae for maximum gain. I also developed 50, 75 and 125 ohm feeding.
If you want a multiband quad, drop me an e-mail with the specs and I will tweak
it with the modelling program to cancel out interactions. See WHY QUADS
(</STRONG></SPAN><A href="http://www.qsl.net/ve3sqb/whyquads.html"><SPAN
style="FONT-SIZE: 18px"><STRONG>click here to link to the page on Al's
site</STRONG></SPAN></A><STRONG><SPAN style="FONT-SIZE: 18px">)for information
on feeding and choice of a quad then </SPAN><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px">come back here</SPAN></FONT></STRONG><SPAN
style="FONT-SIZE: 18px"><FONT face="Times New Roman"><STRONG><FONT
face=Arial>. I just replaced my original version quad with a new V3
version that is 30% smaller and almost as much gain. Gain is roughly 9.4 db for
a 3 element and .9 more for each element. The gain per element reduces with
large numbers. The gain is always less than a yagi with equivalent numbers but
other factors still make it the better choice in my
opinion..</FONT></STRONG><BR></FONT><BR><BR><A
href="http://www.qsl.net/ve3sqb/coaxdpl.exe"><IMG height=71 alt="" hspace=0
src="http://www.hamuniverse.com/Coaxdipole1.gif" width=73 border=0></A> <A
href="http://www.qsl.net/ve3sqb/lodip.zip"><IMG height=71 alt="" hspace=0
src="http://www.hamuniverse.com/loaded.jpg" width=71 border=0></A> <A
href="http://www.qsl.net/ve3sqb/yagi.exe"><IMG height=71 alt="" hspace=0
src="http://www.hamuniverse.com/Yagiico1.gif" width=71 border=0></A><BR><SPAN
style="FONT-SIZE: 18px"><FONT color=#ff0000><STRONG>The coaxial dipole or
bazooka is the best keep secret.</STRONG></FONT></SPAN><STRONG><SPAN
style="FONT-SIZE: 18px"> Made out of coax, it matches closely to 50 ohms and can
be set up horizontally or in an inverted V. It is very broadband for a dipole
and makes a great field day antenna.<BR>The </SPAN><FONT color=#0000cc><SPAN
style="FONT-SIZE: 18px">loaded dipole</SPAN></FONT><SPAN
style="FONT-SIZE: 18px"> is not as good as a full size antenna but it can be
used in </SPAN><FONT color=#0000cc><SPAN style="FONT-SIZE: 18px">limited
spaces</SPAN></FONT></STRONG><FONT face="Times New Roman"><SPAN><STRONG><FONT
face=Arial> and even indoors.<BR>The quagi-uda antenna is the most recognized
antenna.</FONT></STRONG></SPAN><SPAN style="FONT-SIZE: 18px"><FONT
face=Arial><STRONG> It produces maximum gain but requires tweaking for the
number of elements. This program uses different formulae for 2, 3 or
multi-element designs and includes element
tapering.</STRONG><BR></FONT><BR></SPAN></FONT><BR></SPAN></P>
<P><A href="http://www.qsl.net/ve3sqb/vert.zip"><IMG height=77 alt="" hspace=0
src="http://www.hamuniverse.com/Verti1.gif" width=73 border=0></A> <A
href="http://www.qsl.net/ve3sqb/quagi.exe"><IMG height=76 alt="" hspace=0
src="http://www.hamuniverse.com/Quagiico1.gif" width=76 border=0></A> <A
href="http://www.qsl.net/ve3sqb/discone2002.exe"><IMG height=75 alt="" hspace=0
src="http://www.hamuniverse.com/Discone11.gif" width=75 border=0></A><BR><SPAN
style="FONT-SIZE: 18px"><STRONG><FONT
color=#0000cc>Verticals</FONT></STRONG></SPAN><SPAN style="FONT-SIZE: 18px">
<STRONG>covers all the common types with a coil calculator built in for the
antennas that require them.<BR></STRONG></SPAN><FONT color=#0000cc><SPAN
style="FONT-SIZE: 18px"><STRONG>The quagi</STRONG></SPAN></FONT><STRONG><SPAN>
may be the best of two worlds. It has the yagis gain and the quads direct feed
and signal capture. I could not find any published formula for them but only
sample antennas. From these samples, and computer modelling, I developed the
program. I have only built a 440mhz version which works very well but would like
to hear about your results.<BR></SPAN><FONT color=#0000cc><SPAN
style="FONT-SIZE: 18px">The discone</SPAN></FONT></STRONG><SPAN><STRONG> is most
seen as a receive antenna but is under-rated. It can cover multiple bands and
has more gain than verticals. This also is true of transmitting. It does have a
variance across its range that can't be easily predicted so if the match is not
what you want, just increase or decrease the starting range to shift the
"nulls". HF versions have been built that cover many
bands.</STRONG><BR><BR></SPAN><SPAN style="FONT-SIZE: 18px"><A
href="http://www.qsl.net/ve3sqb/sky2002.exe"><IMG height=80 alt="" hspace=0
src="http://www.hamuniverse.com/Sky11.gif" width=78 border=0></A> <A
href="http://www.qsl.net/ve3sqb/para.zip"><IMG height=80 alt="" hspace=0
src="http://www.hamuniverse.com/para.jpg" width=80 border=0></A></SPAN><SPAN
style="FONT-SIZE: 18px"><BR><STRONG><SPAN style="FONT-SIZE: 18px"><FONT
color=#0000cc>The Skyhopper</FONT></SPAN><SPAN style="FONT-SIZE: 18px"> was
named after the first one was compared to a grasshopper . The antenna is
basically a quad opened up on the bottom. This up and over, over and down design
had been used in HF wire antennas. The antenna acts like a stacked pair on the
vertical and a standard yagi on horizontal. The prototype for 2 meters made its
first contact of over 200 miles while lying upside down on a picnic table. This
lead to the discovery that it can be used very low to the gound by inverting it.
This method can also be used when there is match problems due to nearby objects.
A 440 version with suction cups allowed an apartment dweller to have a beam
antenna stuck to his ceiling. The antenna is very forgiving of dimensions. The
prototype had screws in the end of the elements for adjusting but at 2 meters,
1/4 inch changes did not affect performance.</SPAN><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px"> I highly recommend this for new
builders</SPAN></FONT><SPAN style="FONT-SIZE: 18px">. The only problem is that
it fires off to the corner opposite the feed. Over the years I have seen the
design renamed and modified by others, and posted on other web sites.
</SPAN><FONT color=#0000cc><SPAN style="FONT-SIZE: 18px">This is the
original.</SPAN></FONT></STRONG><SPAN
style="FONT-SIZE: 18px"><BR></SPAN><BR><STRONG><SPAN
style="FONT-SIZE: 18px"><FONT color=#0000cc>Parabolic
antennas</FONT></SPAN><SPAN> are the most directional of all antennas and have
the </SPAN><FONT color=#ff0000><SPAN style="FONT-SIZE: 18px">most
gain</SPAN></FONT></STRONG><SPAN style="FONT-SIZE: 18px"><STRONG>. Because of
their size, they are usually used for UHF and up. They are much easier to built
than you think. Any long bar will bend to a parabolic arc when stressed on the
end. If you mount 1 X 1 inch wood strips solidly to a center hub, a wire can be
strung through loops on the outer ends. When the wire is drawn tight, the ends
will curl up forming the dish.</STRONG><BR></SPAN><BR></SPAN><SPAN
style="FONT-SIZE: 18px"><STRONG><FONT color=#ff0000>FOR THE
EXPERIMENTER</FONT></STRONG></SPAN><BR><A
href="http://www.qsl.net/ve3sqb/captor.exe"><IMG height=74 alt="" hspace=0
src="http://www.hamuniverse.com/Caps1.gif" width=89 border=0></A> <A
href="http://www.qsl.net/ve3sqb/gamma2002.exe"><IMG height=74 alt="" hspace=0
src="http://www.hamuniverse.com/Gamma1.gif" width=89 border=0></A> <A
href="http://www.qsl.net/ve3sqb/feedline.exe"><IMG height=73 alt="" hspace=0
src="http://www.hamuniverse.com/Hard1.gif" width=84 border=0></A><BR><SPAN
style="FONT-SIZE: 18px"><FONT color=#0000cc><STRONG>Homebrew capacitors, gamma
match and homebrew feedline</STRONG></FONT></SPAN><SPAN
style="FONT-SIZE: 18px"><BR></SPAN><SPAN style="FONT-SIZE: 18px"><STRONG>If you
don't have the means for measuring reactance, resistance and capactance on your
antenna, the gamma program will give you a starting point for for designing the
gamma match.<BR><BR>Single line next to the tower, twin ladder line, 4 wire line
and even HOMEBREW HARD LINE can be designed with the Feedline
program.<BR><BR></STRONG><BR><A href="http://www.qsl.net/ve3sqb/pdl.exe"><IMG
height=77 alt="" hspace=0 src="http://www.hamuniverse.com/pdl.jpg" width=77
border=0></A><BR><STRONG>Back in the days when CB was at its height, with CBers
in the millions, the antenna companies strived to build the best. Two
interesting designs emerged. Avanti Antennas produced a little quad called the
PDL-II. This quad , fed by 2 coax lines, was able to work both vertical and
horizontal. Its "co-inductive" secret was that it used a folded dipole to feed
the quad. This gave the antenna more gain than a simple quad. I modelled the
program to find out how it worked. The loops of folded antenna have been
replaced by V shaped elements without any changes and easier matching. This
antenna is worth experimenting with especially with its reduced size.
Co-inductive and PDL-II are trademarks and this antenna is most certainly
covered by patents. <FONT color=#ff0000><SPAN style="FONT-SIZE: 18px">You are
allowed to build a </SPAN></FONT><U><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px">not for monetary gain</SPAN></FONT></U></STRONG><FONT
color=#ff0000><SPAN style="FONT-SIZE: 18px"><STRONG>, experimental version for
yourself.<BR></STRONG><BR></SPAN></FONT><A
href="http://www.qsl.net/ve3sqb/scan.exe"><IMG height=80 alt="" hspace=0
src="http://www.hamuniverse.com/Scanner1.gif" width=80
border=0></A><BR><STRONG>The other antenna was made by Antenna Specialist who
are still in business and may still produce the Super Scanner. This antenna
beams into three quadrants without the use of a rotator. By using relays, a
single feed line could be switched to 1 of 3 elements or to all for an omni
position.The coax jumpers made the other 2 unactive elements appear to be longer
and act as reflectors. Later versions grounded the inactive elements through a
tuned capacitance/inductance circuit. I found that the jumpers work better at
times when made of 75 ohm coax. This antenna is recommended for advanced antenna
builders only as it is VERY sensitive to element length and spacing changes.
Some adjusting will probably be required. </STRONG><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px"><STRONG>This antenna and the name SuperScanner have
patents and trademark restrictions.<BR>No patent, trademark or any other type of
infringement is intended against the Antenna Specialist
Company!<BR></STRONG></SPAN></FONT><BR><A
href="http://www.qsl.net/ve3sqb/qha.exe"><IMG height=78 alt="" hspace=0
src="http://www.hamuniverse.com/qhaantenna.gif" width=78
border=0></A><BR>NEW<BR><SPAN style="FONT-SIZE: 14px"><STRONG><FONT size=4>As
soon as I saw QUAD in Quadrifilar Helicoildal Antenna, I had to investigate it.
Used for weather satellite reception, this omni directional antenna has
everything you want. It is small in size, has a very low angle of radiation and
up to twice the normal verticals gain. <BR><BR>The program has 6 variations of
the design, with different formulae for each. This is the most interesting
design I have ever researched. After 200 hours, the program is still in the
research stages but I have discovered many points about its operation and
decided to post what I have.<BR><BR> There is no construction or matching
details in the program yet, so check out qha sites on the net for this info. I
built a 2 meter desk top version out of foam disks and 20 awg wire. Wrapping the
coax around the 3/8 fiberglass pole about ten times was good enough to reduce
the match to 1.5 over a mhz. It measures at 5.1 db gain and I can work all the
local repeaters and about 15 miles simplex with the antenna sitting on the
BASEMENT floor. It also appears to work like a discone on receive. <BR>Receive
is good outside the band both above and below the 2 meters. <BR>It easily hears
from 137 to 174 mhz. The use of small wire instead of tubing did not affect the
bandwidth but it did shift the frequency down about 3/4 of a mhz. To correct
this, I found that shortening the large loop shifted the frequency much more
than changing the small loop. THIS IS VERSION 3 ...... All except the RCA
version are designed to be made out of 3/8 inch tubing which is easier to work
with. <BR>The dimensions are NOT designed for use with elbows or bent radius
corners. Cut the tubing 1 diameter longer than the required length , flatten the
ends in a vise and drill bolt holes at the correct dimensions. After assembly
you may still solder the joints. All are designed to be used 5 meters or more
above ground. Patterns and phasing are lost if you place them on the ground.
Using an A/D converter hooked up between the receiver and a computer plotted out
the receive pattern of the 1/2 turn .3 ratio Wxsat Qha mounted 20 feet up on the
rooftop. The pattern was almost identical to the modelling results shown on the
patterns page. The signal is solid from horizon to horizon , being out only
seconds from predicted passes.<BR> NEW Matching calculator for low
impedance QHA ...</FONT></STRONG></SPAN><A
href="http://www.qsl.net/ve3sqb/qhamatch.exe"><SPAN
style="FONT-SIZE: 14px"><STRONG><FONT
size=4>HERE</FONT></STRONG></SPAN></A><BR><BR></P>
<P align=left><A href="http://www.qsl.net/ve3sqb/cirpol.exe"><IMG height=72
alt="" hspace=0 src="http://www.hamuniverse.com/cirpolve3sqb.gif" width=72
border=0></A><SPAN style="FONT-SIZE: 14px"><STRONG><FONT color=#0000cc><FONT
size=4><FONT color=#000000>While researching the Qha, I wanted something easier
for checking out circular polarization. I discovered that 70% of all commercial
FM radio stations run circular polarization. Home receivers are usually
horizontal while mobiles are vertical. After looking up the types of antennas
they use, I came up with two designs. The first has as much gain as a QHA but is
much easier to build. I recommend this to new builders as small errors will not
greatly affect performance. The QHA can be rendered useless by errors of only a
few millimeters. The FM station antennas use a round horizontal element which is
difficult to scale and build. By changing the elements to square, the antenna
scales from 500 to 1 mhz and is easy to build.</FONT><BR><BR></P></FONT>
<P align=left><A href="http://www.qsl.net/ve3sqb/sqbomni.exe"><FONT size=4><IMG
height=73 alt="" hspace=0 src="http://www.hamuniverse.com/cirpol2ve3sqb.gif"
width=73 border=0></FONT></A><FONT size=4><FONT color=#000000>The second antenna
is even simpler, consisting of only two bowed elements. While not as good as the
first , it still shows promise and anybody could build it. Although originally
designed for 137.5 wefax reception, circular polarized antennas can make nice
standby omni antennas to monitor band openings, both horizontal base, vertical
mobile communications or even for a beacon
xmitter.<BR></P></FONT></FONT></FONT></STRONG></SPAN>
<P align=left><A href="http://www.qsl.net/ve3sqb/omniquad.exe"><IMG height=73
alt="" hspace=0 src="http://www.hamuniverse.com/ve3sqbomniqd.gif" width=73
border=0></A><STRONG>The omniquad is a very simple but excellent standby
vertical antenna. I've built many over the years but just got around to making
up a program. The main advantage is the extreme bandwidth. Make all the
dimensional errors you want, and it will still work. You can use wire or tubing.
A broom handle ,some 1/4 dowels and under 10 feet of wire will make a 2 meter
antenna. There is very little gain or pattern difference between the 3 and 4
sided versions but the 4 sided version does give a better match. It can even be
used as a desk top antenna.</STRONG><BR><BR><A
href="http://www.qsl.net/ve3sqb/lpda.zip"><IMG height=72 alt="" hspace=0
src="http://www.hamuniverse.com/ve3sqblpda.gif" width=72
border=0></A><STRONG><FONT color=#0000cc size=3><FONT color=#000000 size=4>The
log periodic antenna is the ultimate broadband beam. It can provide high gain on
a single band or moderate gain on multiple bands. On vhf you can easily design a
single feed 2 and 6 meter antenna. On hf the size and element diameters are
usually a drawback .Wire versions are usually the answer. Although 4 bands is
usually stretching it, don't be afraid to try more. I had an inverted 'T' loaded
13 element designed for 160 to 6 meters and it worked. It covered an acre ,was
120 feet wide ( 40 meters), 350 feet long (105 meters) and was suspended from 3
towers. The 1/2 mile of wire looked like a suspension bridge. <BR>The neighbours
are still cautious to talk to me and the XYL doesn't want to discuss
it.<BR></FONT><BR></FONT></STRONG><BR></SPAN><SPAN
style="FONT-SIZE: 14px"><STRONG><FONT color=#800000
size=4>FREE</FONT></STRONG></SPAN><SPAN
style="FONT-SIZE: 14px"><BR><STRONG><FONT size=4>ICOM BAND SCOPE SOFTWARE</FONT>
<BR></STRONG><FONT size=4><SPAN>There are some good programs on the net for
controlling Icom radios but I just wanted something to monitor a band for
openings. My 746Pro does have a scope function but you have to keep an eye on
it. The solution was to make a program that would reduce itself in size after
setup to an "always on top" program that would allow me to continue working on
other things on the computer. The picture below shows the "actual size" with the
option of a Scope or Bar graph display. <BR><BR><STRONG>The Scope display only
is shown below</STRONG>.<BR><IMG height=73 alt="" hspace=0
src="http://www.hamuniverse.com/scope.jpg" width=309 border=0><BR><BR>The
program is designed for a homebrew interface requiring the RTS to be on to
supply power.<BR>Icom Civ owners can request a version with the RTS turned off.
<BR>The program may be obtained free from <STRONG>Degen Antenna
Designs</STRONG></SPAN><SPAN style="FONT-SIZE: 14px"> </SPAN></FONT><A
href="http://www.degendesigns.com/"><SPAN style="FONT-SIZE: 14px"><STRONG><FONT
size=4>HERE </FONT></STRONG></SPAN></A><SPAN><FONT size=4><STRONG>in their
download section.<BR></STRONG>This should work on most Icom radios but has only
been tested on a 746Pro.<BR></FONT></SPAN><STRONG><FONT color=#0000ff
size=4><SPAN style="FONT-SIZE: 14px"><FONT size=4>Please inform me of your
results and any bugs.....VE3SQB...AL</FONT><BR><BR></SPAN></FONT><SPAN
style="FONT-SIZE: 14px"><FONT size=4>Antenna Design Programs and info on this
page courtesy of, and written by<BR><FONT color=#800000>Al Legary,
VE3SQB</FONT><BR>Many Thanks Al!</SPAN></FONT></B><B><SPAN
style="FONT-SIZE: 14px"><BR><FONT size=4>PLEASE DROP HIM A LINE OF THANKS FOR
THESE GREAT PROGRAMS VIA EMAIL<BR></FONT></SPAN></B><B><SPAN
style="FONT-SIZE: 18px">Al responds to all antenna related
questions.</SPAN></B><B><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px"><BR></SPAN></FONT></B><B><SPAN
style="FONT-SIZE: 18px">Make certain you use the</SPAN></B><B><FONT
color=#ff0000><SPAN style="FONT-SIZE: 18px"> </SPAN></FONT></B><B><SPAN
style="FONT-SIZE: 18px">word </SPAN></B><B><FONT color=#ff0000><SPAN
style="FONT-SIZE: 18px"> ANTENNA </SPAN></FONT></B><B><SPAN
style="FONT-SIZE: 18px">in your subject line</SPAN></B><B><FONT
color=#ff0000><SPAN style="FONT-SIZE: 14px"><BR></SPAN></FONT></B><B><SPAN
style="FONT-SIZE: 14px"><FONT size=4>EMAIL Al </FONT></SPAN></B><A
href="mailto:ve3sqb@qsl.net"><B><SPAN style="FONT-SIZE: 14px"><FONT
size=4>HERE</FONT></SPAN></B></A><BR><BR><SPAN style="FONT-SIZE: 18px">GIVE AL,
VE3SQB YOUR INPUT!<BR></SPAN><B><SPAN style="FONT-SIZE: 14px"><FONT size=4>WHAT
ANTENNA DESIGN PROGRAMS WOULD YOU LIKE TO SEE?</FONT></SPAN></B><A
href="mailto:n4ujw@hamuniverse.com"><B><SPAN
style="FONT-SIZE: 14px"><BR></SPAN></B></A><FONT size=4><B><SPAN
style="FONT-SIZE: 14px"><FONT color=#800000><FONT size=4>Please be advised that
Al,<BR>is very busy designing these programs.<BR>All of your suggestions for
antenna design programs are considered and only the best are
chosen.</FONT></FONT></SPAN></B></FONT></STRONG></SPAN></P></FONT></SPAN></FONT></BODY></HTML>