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#1
December 6th 06, 09:10 PM
posted to rec.radio.shortwave
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Loop antenna question
Time to liven things up in here!
My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). Steve |
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#2
December 6th 06, 10:09 PM
posted to rec.radio.shortwave
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Loop antenna question
"Steve" wrote in message oups.com... Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). Steve Hey Steve, How's that ANC-4 been working with your Wellbrook? -Brian |
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#3
December 6th 06, 10:39 PM
posted to rec.radio.shortwave
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Loop antenna question
Brian wrote: "Steve" wrote in message oups.com... Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). Steve Hey Steve, How's that ANC-4 been working with your Wellbrook? -Brian Thanks for asking. It's been working really well. I'm using it right now, in fact. For the past couple of weeks I've also been playing around with an RF Systems MTA antenna. Phasing it with the Wellbrook is very effective. Steve |
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#4
December 7th 06, 03:37 AM
posted to rec.radio.shortwave
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Loop antenna question
In article .com,
"Steve" wrote: Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). How did you come to that intuitive conclusion? Generally an electrically smaller loop will be less sensitive to electric fields. When you make a larger loop so you get enough unamplified signal and it becomes electrically larger then it becomes somewhat sensitive to electric fields. Electrically large loops can be equally sensitive to electric and magnetic fields. Besides size are both loops in the same location? How did you shield your larger loop? How do you know that the Wellbrook is not shielded? I would have to either ask the maker or buy one and take it apart to find out. -- Telamon Ventura, California |
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#5
December 7th 06, 04:01 AM
posted to rec.radio.shortwave
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Loop antenna question
Telamon wrote: In article .com, "Steve" wrote: Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). How did you come to that intuitive conclusion? Generally an electrically smaller loop will be less sensitive to electric fields. When you make a larger loop so you get enough unamplified signal and it becomes electrically larger then it becomes somewhat sensitive to electric fields. Electrically large loops can be equally sensitive to electric and magnetic fields. That makes sense. Besides size are both loops in the same location? How did you shield your larger loop? Not exactly the same location. Separated by about 20 ft. How do you know that the Wellbrook is not shielded? I would have to either ask the maker or buy one and take it apart to find out. -- Telamon Ventura, California I thought someone on here did see one taken apart, but maybe my memory is playing tricks on me. Steve |
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#6
December 7th 06, 04:26 AM
posted to rec.radio.shortwave
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Loop antenna question
I remember that Train I was rideing on from boot camp at Fort
Gordon,Georgia,the Train from Augusta,Georgia to Belleville,Illinois.When the Train pulled into Belleville,in side the Train Station (I was in the U.S.Army,on me way to Scott Air Force Base,Illinois,January 1963,Nuclear Nike Missiles) the sound system inside of the Belleville Train Station (it was about midnight at the time) was playing,Here We Go Loop The Loop. cuhulin |
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#7
December 7th 06, 04:48 AM
posted to rec.radio.shortwave
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Loop antenna question
Steve wrote: Telamon wrote: In article .com, "Steve" wrote: Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). How did you come to that intuitive conclusion? Generally an electrically smaller loop will be less sensitive to electric fields. When you make a larger loop so you get enough unamplified signal and it becomes electrically larger then it becomes somewhat sensitive to electric fields. Electrically large loops can be equally sensitive to electric and magnetic fields. That makes sense. Besides size are both loops in the same location? How did you shield your larger loop? Not exactly the same location. Separated by about 20 ft. How do you know that the Wellbrook is not shielded? I would have to either ask the maker or buy one and take it apart to find out. -- Telamon Ventura, California I thought someone on here did see one taken apart, but maybe my memory is playing tricks on me. Steve The Wellbrook isn't shielded. You can email them to verify. Out of curiousity, what kind of matching transformer did you use? |
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#8
December 7th 06, 04:56 AM
posted to rec.radio.shortwave
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Loop antenna question
Here we go loop the loop,,, here we go loop the lyyyy,,,,,,,,
I can'ts reckymember all of the lyrics/words of that damn god auld song. cuhulin |
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#9
December 7th 06, 05:06 AM
posted to rec.radio.shortwave
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Loop antenna question
Ut Ohhhh,,, Cocoon movie has started on Radio tv now.DAT eeese,,,,
Troops,,, I will be in the area for a while. cuhulin |
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#10
December 8th 06, 02:43 AM
posted to rec.radio.shortwave
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Loop antenna question
In article .com,
"Steve" wrote: Telamon wrote: In article .com, "Steve" wrote: Time to liven things up in here! My intuition is that a modest sized, untuned, unamplified loop, fed with a matching transformer, should be quieter and yield a better S/N ratio than an amplified loop--even when the amplifier is itself very 'clean'. However, my attempts to build an unamplifed loop that is quieter than--or even as quiet as--my Wellbrook suggest otherwise. Why is this? Why doesn't an unamplified loop beat an amplified loop every time when it comes to S/N ratio, assuming of course that it's large enough to gather a healthy amount of signal to begin with? I'm especially puzzled by this in light of the fact that the Wellbrook appears not to be shielded in any way (or at any rate, that's what I gather from a previous thread on that topic). How did you come to that intuitive conclusion? Generally an electrically smaller loop will be less sensitive to electric fields. When you make a larger loop so you get enough unamplified signal and it becomes electrically larger then it becomes somewhat sensitive to electric fields. Electrically large loops can be equally sensitive to electric and magnetic fields. That makes sense. That's one of my goals. Besides size are both loops in the same location? How did you shield your larger loop? Not exactly the same location. Separated by about 20 ft. Close enough. How do you know that the Wellbrook is not shielded? I would have to either ask the maker or buy one and take it apart to find out. I thought someone on here did see one taken apart, but maybe my memory is playing tricks on me. I recall that conversation went along the lines of "it's plastic on the outside so it is not shielded" but that does not mean that it is not shielded on the inside. Someone will have to disassemble one to find out. -- Telamon Ventura, California |
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