The following is Ted Hart's response to me:
----- Original Message -----
From: Ted
To: Walter Maxwell
Cc: Bill Ronay
Sent: Tuesday, January 13, 2004 5:50 PM
Subject: EH Antenna
Hi Walter,
Every one is entitled to their opinion - but accurate test data is irrefutable.
Comments to your comments are in your text below- - - -
Ted
----- Original Message -----
From: Walter Maxwell
To: Ted
Sent: Tuesday, January 13, 2004 3:20 PM
Subject: EH Antenna
Hello Ted,
Thank you for your response to my note to Bill.
Ted, I'm sorry to have rained on your parade, but I have not seen any proof that
your antenna outperforms any Hertzian antenna as you claim. As I read in the
'Article' appearing on your web site, you are claiming that when your 'EH' is at
1/4 wl above ground it has a 2.25 dB gain over a standard 1/4 wl vertical.
Ted: TRUE
I have reviewed very carefully the engineering document prepared by the
broadcast consulting firm of Graham Brock, Inc., who performed extensive field
strength measurements on your EH antenna at experimental WK4XVQ in Eatonton, GA,
operating on 1520 KHz. To summarize very briefly, their report first shows an
average of approximately 1.1 dB
Ted: (0.84) dB
less power radiated than the reference standard antenna. Second, it is noted
that the test antenna was atop a 90-foot tower.
Ted: The tower was 90 feet, the EH Antenna was below that.
The EH Antenna was at was coupled to the standard WKVQ tower during the
measurements, which is very likely the reason the azimuthal plot of your EH
antenna is scalloped rather than circular.
Ted: Pattern distortion was due to a power line
I'm sure you're aware that nearby objects that are resonant at the measurement
frequency will distort the readings and thus distort the resulting data. What
was done at the feedpoint of the WKVQ antenna to eliminate the possibility of
its becoming a part of the antenna system? Were the input terminals shorted?
Left open?
Ted: Open
Were any measurements made under both of these conditions to determine whether
the the WKVQ antenna was performing as a parasitic radiator?
From the measurements performed by the Graham Brock engineers the resulting data
shows evidence that rather than achieving gain over a standard antenna, the EH
antenna performs less well than the standard antenna.
Ted: Read the rest of the story - the center of the EH Antenna was at 0.1
wavelengths above gound - if it were raised to 1/4 wavlength then it would be
what I claim, 2.25 dB gain over a standard 1/4 wl vertical.
At this point I'd like to repeat what I stated earlier concerning the concept of
your EH antenna's performance resulting from changing the time relationship
between the E and H fields to increase the radiation. What I stated earlier is
that the development of the continuous alternating E and H fields cannot be
changed in any way--not by changing the phase of the source current, or by any
other means. The laws set forth by electromagnetic theory are immutable. And I
also repeat--the antenna you believe to be prforming in a new manner is simply a
shortened, inductively loaded Hertzian antenna performing in its conventional
manner.
Ted: You are wrong. If you were correct, the effective radiation resistance
would be a fraction of an ohm, not a much much higher resistance as indicated by
the measured bandwidth.
I believe you should consider the following academic treatment that should help
convince you that you cannot get additional power for nothing.
Assume a 1/4 wl vertical antenna with zero ohmic resistance working over perfect
ground. In this condition the only resistance in the system is radiation
resistance, and ALL power delivered to the antenna is radiated. Consider now an
imaginary hemisphere surrounding the antenna. When power P is delivered to the
antenna and all of the power radiated is then integrated over the entire
hemisphere, the integrated power will equal power P exactly. Now, because all of
the power delivered to the antenna is radiated, any increase in radiated power
due to some change in the configuration of the antenna is impossible. Therefore,
this constitutes proof that your claim of gain with the EH configuration is
invalid.
Ted: Again, you do not present a valid argument. What you say is true, but not
germain to the issue. Consider antenna pattern gain, not total radiated power -
- - The purpose of an AM Broadcast station is to provide maximum signal to the
listener on the ground and reduce skywave as much as possible.
You say you have three patents on the EH. In so doing you have accomplished what
many before you have accomplished--outwitting the patent examiner who lacked
sufficient knowledge of the subject to recognize an invalid concept in the
patent application, and granted the patent. You may not have been aware that
hundreds of patents have been declared invalid for this specific reason.
Ted: But one criteria is proof of performance - and I presented that to the
examiner.
I have no doubt that you honestly believe that your EH concept is correct and
valid, and that your antenna is performing within that concept. However, now
that you are made aware of the invalidity of the concept, and if you continue to
manufacture and sell your antenna as advertised to perform as you say it does,
then you must also come to believe you would be misleading the public. In this
litigious society don't be surprised if someday an attorney hands you a paper
claiming fraud. I would not like to see that happen.
Ted: No one can claim fraud if the antenna does what I say it does.
Finally, if you still choose to believe my comments are incorrect, then I would
suggest you consult with other RF engineers to obtain their expert opinion, many
of whom have far greater intellect on this subject than I.
Ted: I agree that you do not have a complete understanding of antennas.
You can find some eminently qualified engineers in the news group rraa
(rec.radio.amateur.antenna) by simply going to 'find' and inserting 'EH'.
Cordially,
Walt, W2DU
Ted: Please learn to read before you criticize - every thing I say about the EH
Antenna is valid.
Ted: Please do not respond - there is nothing you say that is valid and I do not
wish to waste my time trying to teach you something because you have such a
closed mind.
Ted
Walt here now:
It's past midnight now, but I'll have a short response to Ted's above comments
tomorrow.
Walt, W2DU
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