ATU and Bandpass Filter

A question about the K2. Taking it to the club for FD and I have a
bandpass filter (CF-20) which says "Never use radio's internal tuner
with filter."

I have the internal ATU installed. Is there a way to bypass that? Or
should I just use the "main antenna" jack (manual says never use if
ATU installed) on the bottom left, instead of the two midway in the
middle?
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The problem is that the filter is designed to work with a 50 ohm characteristic impedance (ie. with a 1:1 VSWR). This means you need to put ATU *after* the filter, not before, otherwise the filter will not work properly.

73 de Matt VK2RQ
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What Matt said is true.  However, if your antennas are close to
resonance, go ahead and use the ATU to "touch up" the tuning.

If you are trying to use a multiband antenna such as a G5RV and such,
you might as well forget the advantage of the bandpass filter.

Our local club discovered that multiband antennas were a major problem
at multi-transmitter Field Day sites.  We now use single band dipoles,
and yes we use a bandpass filter for each of the FD bands.

73,
Don W3FPR

On 6/23/2017 4:35 AM, Matt Maguire wrote:
> The problem is that the filter is designed to work with a 50 ohm characteristic impedance (ie. with a 1:1 VSWR). This means you need to put ATU *after* the filter, not before, otherwise the filter will not work properly.
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I think I'm missing something here. I'm not sure I understand putting
the ATU after the filter since the ATU is internal. How does one put
it after the external BP filter?

On Fri, Jun 23, 2017 at 7:03 PM, Don Wilhelm <[hidden email]> wrote: ______________________________________________________________
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Lane,

Yes, you cannot do that.
We are only discussing the need for the filter to have a 50 ohm
non-reactive load.
So if you are using a bandpass filter designed for a 50 ohm load (most
are), then you need to use resonant antennas.

What I was saying is that slight variations from a 50 ohm load may be OK
("fine tuning" the load), but many so called multiband antennas do not
meet that criteria.

Try measuring the feedpoint impedance of a G5RV antenna on various
bands, and you will see that it varies considerably.

73,
Don W3FPR

On 6/23/2017 9:37 PM, Lane wrote:
> I think I'm missing something here. I'm not sure I understand putting
> the ATU after the filter since the ATU is internal. How does one put
> it after the external BP filter?
>
>

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Hi Don,


The technique you use with monoband horizontal dipoles and
bandpass filters is exactly what we do at the W3AO Field Day
site, except we use monoband Yagis rather than dipoles on 40,
20, 15 and 10 meters. (we also use dipoles on 40M).


The recent recommendation in the Elecraft Newsletter about using
two perpendicular horizontal dipoles isn't very effective, and the
concept was incompletely presented. In order to achieve excellent
isolation between two perpendicular dipoles, two conditions must
be met:


- the second dipole needs to be almost exactly perpendicular
to the first dipole, even a five degree error significantly reduces
the isolation.


- most importantly, the second dipole must be perpendicular
to the center of the first dipole. An offset of just a few feet
left or right of center significantly reduces the isolation.


The advantage of this technique is that two horizontal dipoles can
be installed in a physically small space with very high isolation,
but the big disadvantages are that the perpendicular dipoles must
be precisely positioned a nd inevitably at least one of the dipoles
is likely to be oriented to an non-optimum azimuth,


We're fortunate at W3AO to have a 1000 x 200 foot open grass
field for our Field Days, The technique we use with excellent
results is to place our antennas for the same band end-to-end with
300 feet of separation between adjacent antennas. While the
isolation is significantly less than two precisely positioned
perpendicular horizontal dipoles, it has the big advantage of having
both antennas oriented to the same azimuth.


With four 20 meter Yagis sited end-to-end with 300 foot separation
between adjacent antennas we routinely operate four transmitters
(CW SSB RTTY and GOTA) on 20 meters with no trace on interference.


73
Frank
W3LPL




----- Original Message -----

From: "Don Wilhelm" <[hidden email]>
To: [hidden email]
Sent: Saturday, June 24, 2017 12:03:29 AM
Subject: Re: [Elecraft] ATU and Bandpass Filter

What Matt said is true. However, if your antennas are close to
resonance, go ahead and use the ATU to "touch up" the tuning.

If you are trying to use a multiband antenna such as a G5RV and such,
you might as well forget the advantage of the bandpass filter.

Our local club discovered that multiband antennas were a major problem
at multi-transmitter Field Day sites. We now use single band dipoles,
and yes we use a bandpass filter for each of the FD bands.

73,
Don W3FPR

On 6/23/2017 4:35 AM, Matt Maguire wrote:
> The problem is that the filter is designed to work with a 50 ohm characteristic impedance (ie. with a 1:1 VSWR). This means you need to put ATU *after* the filter, not before, otherwise the filter will not work properly.
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If one chooses to use band pass filters then one should anticipate using
an external antenna tuner as well.   This of course depends largely on
the antenna and the impedance of the antenna at a given frequency.    If
one is using resonant antennas with a reasonably close 50 ohm impedance
then all is well.  If one is using a multiband antenna the impedance is
likely to vary widely and be far from 50 ohms.   As to a beam, if it is
correctly adjusted, it should provide a reasonably close impedance to 50
ohms on all band for which it is designed.

I find many hams are grossly over concerned with SWR values.  For
example; 100 ft of RG-8X operating with a 2:1 SWR at 14 MHz will have a
total loss of 1.5 dB.   Where as the same length of coax with a 1:1 SWR
will have a loss of 1.2 dB.  A difference of only 0.3 dB.  With the same
configuration at 28 MHz, the loss with a 2:1 SWR will be 2.1 dB and with
a 1:1 SWR the loss will be 1.8 dB a difference of 0.3 dB.

My point is..........hams are grossly over concerned about having a 1:1
match.  Factually, it isn't that dang important.   As you can see, there
is little difference in total loss.  Thus of 100 watts power fed into
the line at 14 MHz and a 2:1 SWR the power at the antenna will be 70
watts.  Where as 100 watts fed into the line at 14 MHz with a 1:1 SWR
the power at the antenna is 75.8 watts.  These are real numbers, thus a
difference of only ~5 watts.  The only thing affecting loss is the loss
in the transmission line which is present to some degree regardless of
the SWR match.

73

Bob, K4TAX



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* Band pass filters are likely to be specified for operation at any
impedance consistent with a certain maximum allowable swr. Mine (made by
LBS) tolerate swr up to 2:1. As long as the antenna meets that requirement,
there is no need for a tuner between filter and antenna.

* A good multiband antenna that offers a 2:1 match or better over multiple
frequency ranges of interest will work with filters just as well as a
monoband antenna with similar spec's.

* There are "multiband" antennas out there that do not by design meet the
2:1 requirement, particularly not on all the bands supposedly covered. The
G5RV would be one example. Such antennas owe their popularity to the fact
that they provide something resembling resonance on certain bands (but with
swr higher than 2:1), and many tuners can cover up the mismatch. For a given
multiband antenna it would be a good idea to measure swr across each band
before considering use of bandpass filters, and verify swr lower than 2:1.
Yes, a tuner could be placed between antenna and filter, but it may not be
very practical. The tuner would have to be tuned up on different frequencies
as needed, and the measurement should then be done at the radio side of the
tuner (not measuring through the filter).

* What happens if you use the bandpass filter with an antenna that is not
2:1 swr or better? Isolation is likely to suffer, but whether isolation is
good enough will depend on individual requirements. Power handling is a
major consideration. I have been advised to substantially oversize the power
rating of the filter when connecting to an antenna moderately worse than
2:1. That should be kept in mind when an antenna such as a G5RV is to be
used.

* A true multiband antenna (i.e. one that simultaneously provides low swr on
each band to be used) can be used with a multiplexer that provides separate
radio-side connectors for each band. Such a multiplexer is always used with
separate bandpass filters on each of the radio-side connectors. In this
situation, the multiplexer provides isolation that adds to that provided by
the bandpass filters. The radios using the different branches of this
arrangement are likely to see isolation much better than they would with
separate antennas and bandpass filters only. Multiple radios on different
bands can transmit simultaneously through the one shared multiband antenna.
The need to orient separate antennas carefully relative to each other is
thus eliminated. The cost of the multiplexer can be balanced against the
cost and effort for installing separate antennas. Of course, a multiband
antenna does not offer the freedom to adjust pointing direction
independently for the different bands. To qualify as a multiband antenna in
the multiplexed context, it must be simultaneously "resonant" for multiple
bands. An antenna that must be retuned when changing bands, such as with a
remote motor-driven adjustement, no matter how quick and automated, would
not work.

* The multiplexer is similar to the bandpass filters in requiring low swr
(such as 2:1 or better), so if modestly higher swr's will be encountered,
both the multiplexer and bandpass filters must be substantially oversized in
terms of power rating.

73,
Erik K7TV

-----Original Message-----
From: [hidden email]
[mailto:[hidden email]] On Behalf Of Bob McGraw K4TAX
Sent: Friday, June 23, 2017 7:47 PM
To: [hidden email]
Subject: Re: [Elecraft] ATU and Bandpass Filter

If one chooses to use band pass filters then one should anticipate using
an external antenna tuner as well.   This of course depends largely on
the antenna and the impedance of the antenna at a given frequency.    If
one is using resonant antennas with a reasonably close 50 ohm impedance then
all is well.  If one is using a multiband antenna the impedance is
likely to vary widely and be far from 50 ohms.   As to a beam, if it is
correctly adjusted, it should provide a reasonably close impedance to 50
ohms on all band for which it is designed.

I find many hams are grossly over concerned with SWR values.  For example;
100 ft of RG-8X operating with a 2:1 SWR at 14 MHz will have a
total loss of 1.5 dB.   Where as the same length of coax with a 1:1 SWR
will have a loss of 1.2 dB.  A difference of only 0.3 dB.  With the same
configuration at 28 MHz, the loss with a 2:1 SWR will be 2.1 dB and with a
1:1 SWR the loss will be 1.8 dB a difference of 0.3 dB.

My point is..........hams are grossly over concerned about having a 1:1
match.  Factually, it isn't that dang important.   As you can see, there
is little difference in total loss.  Thus of 100 watts power fed into the
line at 14 MHz and a 2:1 SWR the power at the antenna will be 70 watts.
Where as 100 watts fed into the line at 14 MHz with a 1:1 SWR the power at
the antenna is 75.8 watts.  These are real numbers, thus a difference of
only ~5 watts.  The only thing affecting loss is the loss in the
transmission line which is present to some degree regardless of the SWR
match.

73

Bob, K4TAX



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