[R-390] Antenna sweep

Sat Oct 27 19:11:05 EDT 2007

Hi Bob,

It's a 100 foot longwire sloping from the top of my chimney about 30 feet up 
down to the fence on the back of the property. There is a #8 ground wire 
running about 20 feet up the chimney to the connector block where the 
antenna wire and the ground tie to the coax. The coax runs about 70feet 
across the roof, down the other side of the house to my room in the 
basement. I tossed it together in about 90 minutes one Saturday. The ground 
wire actually goes up a couple more feet to my scanner antenna mast. The 
scanner antenna has been gone for years. I also have a big loop but it needs 
to TLC to get it going again. The tree service people cut the feedline by 
accident about a month ago.

Tony

----- Original Message ----- 
From: "Bob Camp" <ham at cq.nu>
To: "Tony Casorso" <canthony15 at msn.com>
Cc: <r-390 at mailman.qth.net>
Sent: Saturday, October 27, 2007 4:57 PM
Subject: Re: [R-390] Antenna sweep

> Hi
>
> What does your antenna look like?
>
> The only thing I can think of that would be 220 ohms at 3.75 MHz and  22 
> ohms at 1.65 MHz is some kind of loop ...
>
> Bob
>
>
> On Oct 27, 2007, at 4:55 PM, Tony Casorso wrote:
>
>> This is a sweep of my antenna from 1MHz to 5MHz. I made it bigger so 
>> that the details can be seen.
>>
>> The underside of the curve (the cutout) is the antenna response. The 
>> flat(ish) top is the output of the sweep generator. This is put  through 
>> a 2200 Ohm resistor to the antenna. The antenna resonse is  with the 
>> probe on the antenna side of the 2200Ohm resistor, and the  flat top is 
>> on the generator side of the resistor. The horizontal  scale is 500KHz 
>> per division with 0KHz on the left edge of the  screen and 5MHz on the 
>> right edge of the screen. The vertical scale  is 10db per division.
>>
>> The antenna response peaks at about 3.75 MHz with another peak at  2MHz. 
>> The peak is 20db down from the generator output. This means  the antenna 
>> looks like about 220 ohms at 3.75MHz. There are valleys  at about 1.4MHz 
>> and 2.5MHz that are about 40db down from the  generator output which 
>> means the antenna impedance is about 22 Ohms  there.You can see a lone 
>> peak sticking above the generator output at  about 1.65 MHz. Thats my 
>> friendly problem station.
>>
>> http://i25.photobucket.com/albums/c90/tonysradios/IMG_0828.jpg
>>
>> Tony
>>
>> ----- Original Message ----- From: "Tony Casorso" <canthony15 at msn.com>
>> To: "Bob Camp" <ham at cq.nu>
>> Cc: <r-390 at mailman.qth.net>
>> Sent: Saturday, October 27, 2007 11:10 AM
>> Subject: Re: [R-390] Re: Spurious Resonances
>>
>>
>>> Hi Bob,
>>>
>>> OK. I get this. But I was not trying to show any distortion in the 
>>> pictures.
>>>
>>> All I was trying to show is that the Q of the preselector degrades  when 
>>> the source impedance is low.
>>> Thats it.
>>>
>>> If it's no surprise then so be it. The consequence of this is that, 
>>> with the receiver tuned to 3 MHz, a 1.5Mhz signal at the antenna 
>>> terminals is going to be 10 to 15db stronger at the grid of the RF 
>>> stage if the antenna impedance is low . This stronger signal is  more 
>>> likely to cause overload and harmonic generation in the RF  stage. The 
>>> downstream filtering in the plate of the RF stage and  the plate of the 
>>> mixer stage will kill the 1.5MHz signal so the AGC  does not respond to 
>>> it. So the RF stage has a strong signal at it's  grid (1.5MHz) and no 
>>> AGC to compensate for it. So it distorts and  produces harmonics in the 
>>> plate circuit which is tuned to 3MHz. The  harmonics are amplified and 
>>> fed through the mixers and onward right  through the receiver.
>>>
>>> I don't think the loading of a 10Meg probe is going to kill the Q  that 
>>> much at 3MHz (my "sharp" picture is made with the probe  connected after 
>>> all). The capacitance will shift the resonant peak  slightly at 3MHz. 
>>> Even if I did reduce the Q with my scope probe by  some amount, the low 
>>> impedance source reduces it by a much greater  amount. If I had a 100x 
>>> probe I might see a 40db attenuation at  1.5MHz relative to the peak. 
>>> But I would still see the 15 db  attenuation with the low impedance 
>>> source.
>>>
>>> I found an antenna impedance calculation program on the web for 
>>> inverted Ls where you can specify the length of the horizontal part  and 
>>> the vertical part as well as the length and gauge of the ground  lead 
>>> and the gauge of the antenna wire. I tried it for my antenna  dimensions 
>>> using zero for the length of the vertical segment. Not  that I believe 
>>> it, but it came out 18 ohms at 1.65MHz.
>>>
>>> I wonder if I could sweep it with the antenna connected?? Probably  too 
>>> much BCB stuff to see what is going on down there.
>>>
>>> Tony
>>>
>>> ----- Original Message ----- From: "Bob Camp" <ham at cq.nu>
>>> To: "Tony Casorso" <canthony15 at msn.com>
>>> Cc: <r-390 at mailman.qth.net>
>>> Sent: Saturday, October 27, 2007 10:36 AM
>>> Subject: Re: [R-390] Re: Spurious Resonances
>>>
>>>
>>>> Hi
>>>>
>>>> Any filter is going to respond to it's termination impedances.  Both 
>>>> the input and output impedance are significant.
>>>>
>>>> The grid of the RF stage looks like > 100 meg ohms resistive at  RF. 
>>>> It's got a bit of capacitance, but not a whole lot.
>>>>
>>>> If you look at the preselector like a single tuned circuit, it's  going 
>>>> to have Q. The Q is going to be determined by:
>>>>
>>>> 1) The resistive portion of the source resistance driving the 
>>>> preselector, relative to the reactances.
>>>> 2) The Q of the coils themselves
>>>> 3) The resistive portion of the load resistance, relative to the 
>>>> reactances.
>>>>
>>>> The "relative to the reactances" part gets a bit crazy because you 
>>>> normally have part of the resistances in series form and the  other 
>>>> part of the resistances in parallel form. There is a great  thing 
>>>> called the "Q formula" that lets you convert them all back  and forth. 
>>>> It was a staple in EE texts up through about 1954.
>>>>
>>>> Vacuum tubes have really low Gm compared to just about anything  else. 
>>>> To get a stage to have gain, you need very high impedances.  The normal 
>>>> way to make stuff work was to run impedances way  higher than we do 
>>>> today. You can easily fake yourself out going  from solid state to 
>>>> tube. Loading is a much bigger deal when  checking tube circuits.
>>>>
>>>> A measurement you can make on a solid state amp with very little 
>>>> interaction, is much more difficult to make on a tube circuit. An  easy 
>>>> way to see this is using a DVM on an R390. The numbers don't  come out 
>>>> right. The input impedance of the DVM is not as high as  that of a 
>>>> VTVM. The DVM is fine on solid state, it's not up to  the task with 
>>>> tubes.
>>>>
>>>> By going to the plate for your measurement, the load resistance is  no 
>>>> longer interacting with the preselector at all. The source  resistance 
>>>> is still there, but the antenna has source resistance  as well. Once 
>>>> you have the load impedance out of the way you can  be reasonably sure 
>>>> that what you are measuring is "real".
>>>>
>>>> Since you are after second order distortion, every db you knock  down 
>>>> the input counts as two db at the output. If you were  talking about 
>>>> third order (intermod) distortion, each db of  attenuation would count 
>>>> three db. A 30 db selectivity in the  preselector will take second 
>>>> order distortion down 60 db and  third order down 90 db. At low levels, 
>>>> a tube amp should have  second order distortion down > 30 db with no 
>>>> preselection at all.
>>>>
>>>> If the response you see is at exactly twice the input frequency,  it's 
>>>> second order distortion. The conversion scheme in a 390 does  not 
>>>> produce other spurs that follow a 2:1 ratio like that. You  can write a 
>>>> book about all the possible spurs that can occur (and  people have). 
>>>> The math is pretty simple. It's been mentioned  before in this thread. 
>>>> Take the two sine waves, add them or  subtract them. Take that and 
>>>> raise it to an integer power. Powers  of 0,1,2,3,4, and 5 are commonly 
>>>> used. If you have a mixer you  have three signals rather than just two. 
>>>> The same "raise it to a  power" is used. You can include am, fm, and pm 
>>>> in the signal  equations. AM, and FM modulation transfer differently 
>>>> through  each spur generating process. AM is transfered by all of them 
>>>> to  the extent that the amplitude of the output will follow he 
>>>> amplitude of the input through the db/db ratio for that response.
>>>>
>>>> So much fun .....
>>>>
>>>> Bob
>>>>
>>>>
>>>>
>>>>
>>>>
>>>> On Oct 27, 2007, at 11:39 AM, Tony Casorso wrote:
>>>>
>>>>> Hi Bob,
>>>>>
>>>>> I'm not sure what you are getting at. I used a 10x scope probe 
>>>>> connected to the Grid of the RF stage. I want to measure the 
>>>>> response of the preselector. I do not want to swamp anything.  The 
>>>>> two pictures show a sharp response from the preselector in  one case, 
>>>>> and a not so sharp response in the other case. The  only difference 
>>>>> is the impedance of the signal source connected  to the antenna.
>>>>>
>>>>> Tony
>>>>> ----- Original Message ----- From: "Bob Camp" <ham at cq.nu>
>>>>> To: "Tony Casorso" <canthony15 at msn.com>
>>>>> Cc: <r-390 at mailman.qth.net>
>>>>> Sent: Saturday, October 27, 2007 9:04 AM
>>>>> Subject: Re: [R-390] Re: Spurious Resonances
>>>>>
>>>>>
>>>>>> Hi
>>>>>>
>>>>>> What are you picking off the output with?
>>>>>>
>>>>>> Picking off at the plate would be a *much* better idea if you  are 
>>>>>> trying to measure the input circuit. You will have far less  impact 
>>>>>> from the probe that way. If you want to suppress the  effect of the 
>>>>>> output tank, swamp it with a low probe impedance.
>>>>>>
>>>>>> Bob
>>>>>>
>>>>>>
>>>>>> On Oct 27, 2007, at 10:35 AM, Tony Casorso wrote:
>>>>>>
>>>>>>> How lucky can I get? I posted a set of images this morning  that 
>>>>>>> had a "spurious response" in it. It turns out it was  cause by  the 
>>>>>>> settings on my sweeper (DC Offset was cranked  over to one  side for 
>>>>>>> some reason). The mailer wus unable to  post it for some  reason so 
>>>>>>> I get to try again with good  pictures.
>>>>>>>
>>>>>>> Here are links to couple of pictures. I am sweeping the 
>>>>>>> preselector in my R-390a. The left edge of the sweep is  1.5MHz. 
>>>>>>> The right edge is 4.5MHz. The center is approximately  3MHz. The 
>>>>>>> receiver is tuned to 3.00MHz and the power is off. I  am measuring 
>>>>>>> the response at the grid of the RF stage.
>>>>>>>
>>>>>>> The broader response picture is with the 25 Ohm (gen with 50  Ohm 
>>>>>>> rterminator) sweep gen directly connected to the balanced  input. 
>>>>>>> The sharper response is with a 2.2K resistor in series  with one 
>>>>>>> side of the balanced input.
>>>>>>>
>>>>>>> It looks like I was right that low source impedance broadens  the 
>>>>>>> frontend response.
>>>>>>>
>>>>>>> http://i25.photobucket.com/albums/c90/tonysradios/IMG_0825.jpg
>>>>>>>
>>>>>>> http://i25.photobucket.com/albums/c90/tonysradios/IMG_0826.jpg
>>>>>>>
>>>>>>> Tony
>>>>>>>
>>>>>>> ----- Original Message ----- From: "Tony Casorso" 
>>>>>>> <canthony15 at msn.com
>>>>>>> >
>>>>>>> To: <r-390 at mailman.qth.net>
>>>>>>> Sent: Saturday, October 27, 2007 8:09 AM
>>>>>>> Subject: [R-390] Re: Spurious Resonances
>>>>>>>
>>>>>>>
>>>>>>> I should havethought about it for a few more minutes.
>>>>>>>
>>>>>>> Maybe the sweeper has a strong second harmonic that is visible 
>>>>>>> near 1.5.
>>>>>>>
>>>>>>> Tony
>>>>>>> _____________________________________________________________
>>>>>>> R-390 mailing list
>>>>>>> Home: http://mailman.qth.net/mailman/listinfo/r-390
>>>>>>> Help: http://mailman.qth.net/faq.htm
>>>>>>> Post: mailto:R-390 at mailman.qth.net
>>>>>>> Unsubscribe: http://mailman.qth.net/mailman/options/r-390
>>>>>>> _____________________________________________________________
>>>>>>> R-390 mailing list
>>>>>>> Home: http://mailman.qth.net/mailman/listinfo/r-390
>>>>>>> Help: http://mailman.qth.net/faq.htm
>>>>>>> Post: mailto:R-390 at mailman.qth.net
>>>>>>> Unsubscribe: http://mailman.qth.net/mailman/options/r-390
>>>>>>>
>>>>>
>>>>
>>>
>>> _____________________________________________________________
>>> R-390 mailing list
>>> Home: http://mailman.qth.net/mailman/listinfo/r-390
>>> Help: http://mailman.qth.net/faq.htm
>>> Post: mailto:R-390 at mailman.qth.net
>>> Unsubscribe: http://mailman.qth.net/mailman/options/r-390
>>
>> _____________________________________________________________
>> R-390 mailing list
>> Home: http://mailman.qth.net/mailman/listinfo/r-390
>> Help: http://mailman.qth.net/faq.htm
>> Post: mailto:R-390 at mailman.qth.net
>> Unsubscribe: http://mailman.qth.net/mailman/options/r-390
>>
> 