I'd personally love to have two or more towers for my QTH and not have so
much the coupled energy. There are others using the C31XR with individual
feed lines like myself. Then there are a number of guys using antenna
combiners and appropriate band pass filters with their single feed line
tribanders. In my own situation the 125w of back fed power has been knocked
down to a safe level for the K3 and I honestly don't hear a thing when I am
working either side of the 20/15m band combination. The other C31XR band
combinations are fine too except the expected 14/28mhz harmonic being a
spot that I need to work around. In my case crudely made / placed stubs
were enough to provide a finishing touch to the W3NQN BPFs.
My 40m TX to 20M RX combination is a different story. I need to further
work on providing attenuation on that band combination. The 12 foot spacing
of my two element shorty 40 and the 20m driver on the C31XR does not couple
as much power, but I have an annoying level of interference. I may add
another stub on 20M to see if that helps matters.
I have found that I have something foreign to my station that is rectifying
my 20M signal and creating enough 10M energy to raise my noise floor by
over 20dB. This is direction specific and no amount of filtering will help
me. I have to track down the offending source and fix it, assuming it is
something I have access to.
I have yet to learn if anyone in the United States is running high power
with a triplexor doing SO2R or Multi-Op? I know Ranko has appropriate
hardware on the market for this, but I suspect most guys just put up
multiple towers.
I take the coupled power risks involved with the single boom interlaced
monobander because I want to be competitive in domestic contests. The
backyard is only 30 feet deep and 75 feet wide. I only deal with high winds
out here, but they come in during contest season and for that I cannot
overload the tower beyond what I have now. So the only answer in my mind is
to participate in threads like this to continue learning from others and
possibly find better ways to maximize hardware performance.
73,
Tim /N6WIN
On Jul 5, 2012 6:21 AM, "Keith Dutson" <kdutson@sbcglobal.net> wrote:
> **
> Did not realize you were using a C31XR. I would not have guessed a
> situation like this where two rigs were connected to the same antenna.
> Personally, I find that an unreasonable risk.
>
> 73, Keith NM5G
>
> ------------------------------
> *From:* Timothy Coker [mailto:n6win73@gmail.com]
> *Sent:* Wednesday, July 04, 2012 10:31 AM
> *To:* Keith Dutson
> *Cc:* Tom W8JI; cq-contest@contesting.com
> *Subject:* Re: [CQ-Contest] Bandpass filter
>
> Let the flames begin, LOL.
>
> Sorry Keith, the measured isolation between 15m TX and 20m RX on the C31XR
> with physical separation of only 18" is legitimate. Now do consider that I
> am only an average ham using a Kenwood SW-2000 that specs to +/- 10%
> accuracy. You are right though... 135w was excessive, it was 125w +/- 10%.
> Natan from the old F12 even sent me a response about this issue in 2002
> stating that the back fed power would be over 100w depending on band
> combination. I found that Ice 419As with no stubs would not burn out under
> those conditions while running SO2R as a very novice contestor (A better
> SO2R operator would probably burn them up because they would transmit on
> both rigs more often than I was able to). Now that I am wiser I have
> invested in both stubs and higher overhead band pass filters.
>
> Now that I am not writing from my vehicle I have the benefit of my test
> measurements available to me. Let me give a more accurate accounting of my
> measurements:
>
> C31XR individual feed lines 15m 1500w TX and 20m RX:
>
> No filters: 125w back fed power (-10.8dB)
> W3NQN 20m RX: 1w back fed power (-63.52dB)
> 23' open stub 20m RX: 1w back fed power (-63.52 db) This level of
> attenuation I question and a more accurate test meter should have been used.
> 23' shorted stub 15m TX and W3NQN on 20m: 1w back fed power (-63.52dB) No
> additional isolation with the 15m TX stub.
>
> *23' open stub AND W3NQN on 20m RX: 0w back fed power (>-80dB)
>
> On the other band combinations I measured (without filtering) between
> -17.9dB to -28.8dB
>
> Based off the QST article a combiner with band pass filters would help
> those of us with driven elements spaced so closely on a single boom and
> that had the ability to switch to a single feedline (like the C31XR). From
> my own testing even the Inrad combiner will not always provide greater
> attenuation as compared to the closely spaced driven elements on an antenna
> like a C31XR. However on 15m TX and 20m RX the combiner would give me an
> additional 20.6dB of isolation and is something to consider for reducing
> the back fed power on that band combination.
>
> When I TX on 20m and RX on 15M I have measured isolation at -27dB. The
> Inrad combiner was measured by the ARRL at -26.9dB. Here is a band
> combination that would make me no better off.
>
> Those of us wanting to run high power and use a single feedline with
> combiner would need to invest in high power filters for their higher bands.
> 4O3A seems to be the only person offering such a combination.
>
> On 40m 1500w TX with an 80m RX, feed points spaced at ~15' distance, I
> find 2w back fed power (-28.8dB). Used was a XM240 at 68' and an 80m
> inverted-v @53' on the same tower. Antenna spacing is obviously king
> here... but guys like myself don't always have that luxury when it comes to
> wanting to fit six contest band monobanders on a residential lot.
>
> Let me remind the flamers that I never sent a flame at Tom. I made mention
> that I know he is a damned smart guy. I simply read his numbers without
> full understanding. I have since come to learn new information from him.
> Notice how right Tom was about the 15m TX stub doing nothing and how wrong
> I was going off memory while posting half correct information away from my
> findings spreadsheet. But my findings about the back fed power does indeed
> not take a rocket scientist to figure out... only an average ham with
> sub-par measuring equipment.
>
> 73,
>
> Tim / N6WIN.
>
> On Wed, Jul 4, 2012 at 7:52 AM, Keith Dutson <kdutson@sbcglobal.net>wrote:
>
>> Does not take rocket science to question your measurement of 135 watts
>> feedback power. About the only way this could happen is if the two
>> antennas
>> were physically attached together. And that is even questionable based on
>> different bands being measured. I think there is a flaw or
>> misrepresentation in your measurement.
>>
>> Keith NM5G
>>
>> -----Original Message-----
>> From: cq-contest-bounces@contesting.com
>> [mailto:cq-contest-bounces@contesting.com] On Behalf Of Timothy Coker
>> Sent: Tuesday, July 03, 2012 5:07 PM
>> To: Tom W8JI
>> Cc: cq-contest@contesting.com
>> Subject: Re: [CQ-Contest] Bandpass filter
>>
>> I recently measured the power coming back down my 20m line while
>> transmitting on 15m. It's over 135 watts of power when using my K3 and
>> Acom
>> 2000 at 1500w forward output. Not milliwatts...
>>
>> A W3NQN BPF on the 20m coax, placed before the wattmeter and dummy load
>> was
>> able to knock the measured power down to 1w of back fed power. A TX stub
>> then placed on my 15m TX line then resulted in less than 1W being back fed
>> on the 20m line.
>>
>> I know you're a smart guy Tom, but not sure where your numbers come from.
>> My station QTH has room for one tower and my 20-10m antenna is a C31XR
>> with
>> individual feedlines. I cannot go without good filters and expect my K3
>> front ends to survive.
>>
>> 73,
>>
>> Tim /N6WIN
>> On Jul 3, 2012 8:02 AM, "Tom W8JI" <w8ji@w8ji.com> wrote:
>>
>> > > My understanding is that the main function of my 40m BPF (when
>> > > thinking
>> > of
>> > > my second radio on 20m) is to reduce the second harmonic on 20m
>> > > produced by my 40m TX.
>> >
>> > Nearly all modern radios have excellent harmonic suppression, while
>> > external power amplifiers do not.
>> >
>> > If we have a second harmonic issue, a critically located stub or
>> > stubs, or a trap, is far more effective and less costly than a high
>> > power BPF.
>> >
>> > The distance from the source and load, and the characteristics of the
>> > suppression device, source, and load, usually greatly affect the null
>> > depth of any suppression. For example optimum stub placement from a
>> > pi-L network is quite different than optimum placement from a pi network
>> or T network.
>> > It's different for every antenna, too.
>> >
>> > The tradeoff is always cost and work, and immunity to system
>> > characteristics. A great big expensive filter can work well no matter
>> > where it is placed in the line. A cheap system, like a stub, might not.
>> >
>> >
>> > >So if I am on 7.025 running, I will create a very strong second
>> > >harmonic signal on 14.050. Depending on my TX power, antenna
>> > >proximity, and antenna polarization, that signal might be enough to
>> > >couple enough power on my 20m line to fry my second radio front
>> > >end.
>> >
>> > I doubt that would happen. Most amps are -46dBc or more. With 1500
>> > watts, that's about 40 milliwatts. 40 milliwatts will never fry a
>> > receiver. Added to that suppression, we have coupling losses between
>> > the antennas that are likely 20 dB or more.
>> >
>> > The only reason to add a filter or stub is if something is out of
>> > spec, or someone closeby wants to operate right on top of the second
>> > harmonic. For example, I can hear, and be bothered by, harmonics that
>> > are only 100 microwatts from hundreds of miles away, **IF** I happen
>> > to operate on that harmonic.
>> >
>> > Of course that level is thousands of times less than a level that
>> > could be damaging to another local receiver.
>> >
>> > The real function of a bandpass on transmitting is mitigating problems
>> > from someone, local or distant, operating near the harmonic.
>> >
>> > If there are issues with TX noise bothering our receivers on an
>> > adjacent band except near the harmonic, it is worth looking closely at
>> the
>> gear.
>> > Something is wrong, beyond lacking an extra filter.
>> >
>> > At even 30-40 dB of external TX antenna filtering, cabinet and line
>> > cord leakage will usually dominate harmonic and spurious radiation
>> > into the RX antennas.
>> >
>> > 73 Tom
>> >
>> > _______________________________________________
>> > CQ-Contest mailing list
>> > CQ-Contest@contesting.com
>> > http://lists.contesting.com/mailman/listinfo/cq-contest
>> >
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>>
>
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