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Sangean ATS-909 external antenna impedance??
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Sangean ATS-909 external antenna impedance??
On Dec 19, 10:14*am, Lostgallifreyan wrote:
Does anyone know what the Sangean ATS-909's external antenna input impedance is? I searched for days for documentation on that radio and found plenty, mods, schematics, service manuals, reviews, but no straight word on the impedance of that input! (Not even in the service manual specs). The only reference I found was a from a guy on a 7-page set of ham reviews, and all he said was that it was a mystery! Maybe the only way to know is to start from the schematic but I don't know how, but here's the best schematic I could find:http://eric.horsemensociety.info/TEC...chematic_A.gif (Antenna input is near top right). (Link appears to be dead, 403, forbidden. I'm sure it worked last week..) What I really want to know is whether the ATS-909 will work ok with a long(ish) wire outside feeding a 50 ohm coax via a 9:1 transformer, or if that would cause more bother than connecting a wire directly to it and putting up with local noise picked up from nearby buildings. Ive measured the input impedance of a few SW receivers and found them to be in the 1Kohm ballpark for the most part. I did this by applying a voltage through a series resistor to the frontend of the radio and adjusting the value of the resistor until the voltage dropped by 50%. If you have a schematic an analysis of the front end circuit might give you and idea. Jimmie |
Sangean ATS-909 external antenna impedance??
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Sangean ATS-909 external antenna impedance??
On Dec 19, 3:14*pm, Lostgallifreyan wrote:
What I really want to know is whether the ATS-909 will work ok with a long(ish) wire outside feeding a 50 ohm coax via a 9:1 transformer, or if that would cause more bother than connecting a wire directly to it and putting up with local noise picked up from nearby buildings. lets go back to the beginning... this is what i would do. 1. hook up whatever coax you have to the radio and run it as far outside away from the house as it will go. 2. hook up a wire directly to it as long as you can go in whatever random direction you may be able to go 3. enjoy. if in the future there are signals that just aren't strong enough, but still above the local noise, then start playing around with either a matching network or a preamp. but until you know how well the receiver by itself works with the plain wire/coax you are wasting time over designing something you probably won't need. |
Sangean ATS-909 external antenna impedance??
On Dec 24, 5:15*pm, Dave wrote:
On Dec 19, 3:14*pm, Lostgallifreyan wrote: What I really want to know is whether the ATS-909 will work ok with a long(ish) wire outside feeding a 50 ohm coax via a 9:1 transformer, or if that would cause more bother than connecting a wire directly to it and putting up with local noise picked up from nearby buildings. lets go back to the beginning... this is what i would do. 1. hook up whatever coax you have to the radio and run it as far outside away from the house as it will go. 2. hook up a wire directly to it as long as you can go in whatever random direction you may be able to go 3. enjoy. if in the future there are signals that just aren't strong enough, but still above the local noise, then start playing around with either a matching network or a preamp. *but until you know how well the receiver by itself works with the plain wire/coax you are wasting time over designing something you probably won't need. You may find that a good RF ground more benificial than any particular antenna. I discovered this while in the military and had a chance to hook my little cheap portable Setico rx to an antenna made of 20ft of emt conduit and the ground system on an abandoned comm unit. Lots of good info arounf on RF grounds on the web and this group. Jimmie Jimmie |
Sangean ATS-909 external antenna impedance??
On Sat, 19 Dec 2009 09:14:46 -0600, Lostgallifreyan
wrote: What I really want to know is whether the ATS-909 will work ok with a long(ish) wire outside feeding a 50 ohm coax via a 9:1 transformer, or if that would cause more bother than connecting a wire directly to it and putting up with local noise picked up from nearby buildings. Hello Dr, Well, I've been on the East Coast for several weeks and am just catching up with your particular problem (which is not too uncommon for SWL'ers who post here). Many suggestions have been useful, but some contra-indicate others, while some merely rely on lore and superstition. One of the last suggestions, from JIMMIE, is probably the single greatest boon for signal strength: Ground. Ground is always the least appreciated component, and is always the single most important one. Ground for RF is not always the same as the ground for safety. Worse yet is that mixing them can sometimes introduce grief (AKA ground loops). ALL grounds should eventually find their way to the service ground. This advice serves both safety and engineering. More can be said - but we move on. One antenna does not always work for all bands (not without a lot of work and the ability to change its polarization). As such, two or more antennas are necessary for SWL'ing. They don't need to be isolated to one band, but if any antenna is resonant for one, it will probably be difficult on another band that is twice or half that frequency. Thus you add another antenna that is half or twice the first's dimension. The benefit here is that they can be wired to the same feed point with little interaction between them. More can be said here too. Matching with a one-size-fits-all doohickey is pabulum for the masses. When it is tossed into the mix, it usually forces the user to add the components already described above that are responsible for most of the benefit attributed to the doohickey. Hosanna's are misplaced. More can be said here, to not good outcome. Matching with an antenna tuner (yes, I am aware of the irony in its name) satisfies all issues (except for the transmission line loss - if it matters) of matching. The tuner's responsibility is to see to it that an unknown source is matched to an unknown load (that is why it has so many adjustments). You can use any Ham grade tuner, get one without a meter to save the big bucks. Whatever product that is designed for the ham bands is satisfactory for the SWL bands. Of course, you could build your own (what a concept!). Matching with a preselector takes the antenna tuner one step further, and protects your receiver from the scourge of these "modern" designs: intermod. The SWL-monkeys who demand the ability to "quickly" tune up different bands/frequencies usually whine and squeel about the difficulty of tuners and preselectors (and in the same breath praise the doohickey's font of blessings). I let them indulge in their illusions and say no more. INTERMOD is the silent killer (as they used to say about high blood pressure). A strong station (a nearby AM transmitter in town) can easily close down your 31M listening experience by simply driving the AGC into overload without you being aware of it. Preselectors and Tuners will drive down that off-band signal, peak the selected frequency, and give you what you tuned for in that band. Beware of imitations that suggest they do the same without tuning (what a crock). As for that antenna impedance. Others have suggested a myriad of possibilities. The first active component's shunt reactance (often the base-emitter capacitance) is the limiting factor even when humongous resistance bridges those same points. Resistance is for bias folks. More can be said, but enough has been said here. Feel free to ask for more to be said. 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
Richard Clark wrote in
: On Sat, 19 Dec 2009 09:14:46 -0600, Lostgallifreyan wrote: What I really want to know is whether the ATS-909 will work ok with a long(ish) wire outside feeding a 50 ohm coax via a 9:1 transformer, or if that would cause more bother than connecting a wire directly to it and putting up with local noise picked up from nearby buildings. Hello Dr, Well, I've been on the East Coast for several weeks and am just catching up with your particular problem (which is not too uncommon for SWL'ers who post here). Many suggestions have been useful, but some contra-indicate others, while some merely rely on lore and superstition. One of the last suggestions, from JIMMIE, is probably the single greatest boon for signal strength: Ground. Ground is always the least appreciated component, and is always the single most important one. Ground for RF is not always the same as the ground for safety. Worse yet is that mixing them can sometimes introduce grief (AKA ground loops). ALL grounds should eventually find their way to the service ground. This advice serves both safety and engineering. More can be said - but we move on. One antenna does not always work for all bands (not without a lot of work and the ability to change its polarization). As such, two or more antennas are necessary for SWL'ing. They don't need to be isolated to one band, but if any antenna is resonant for one, it will probably be difficult on another band that is twice or half that frequency. Thus you add another antenna that is half or twice the first's dimension. The benefit here is that they can be wired to the same feed point with little interaction between them. More can be said here too. Matching with a one-size-fits-all doohickey is pabulum for the masses. When it is tossed into the mix, it usually forces the user to add the components already described above that are responsible for most of the benefit attributed to the doohickey. Hosanna's are misplaced. More can be said here, to not good outcome. Matching with an antenna tuner (yes, I am aware of the irony in its name) satisfies all issues (except for the transmission line loss - if it matters) of matching. The tuner's responsibility is to see to it that an unknown source is matched to an unknown load (that is why it has so many adjustments). You can use any Ham grade tuner, get one without a meter to save the big bucks. Whatever product that is designed for the ham bands is satisfactory for the SWL bands. Of course, you could build your own (what a concept!). Matching with a preselector takes the antenna tuner one step further, and protects your receiver from the scourge of these "modern" designs: intermod. The SWL-monkeys who demand the ability to "quickly" tune up different bands/frequencies usually whine and squeel about the difficulty of tuners and preselectors (and in the same breath praise the doohickey's font of blessings). I let them indulge in their illusions and say no more. INTERMOD is the silent killer (as they used to say about high blood pressure). A strong station (a nearby AM transmitter in town) can easily close down your 31M listening experience by simply driving the AGC into overload without you being aware of it. Preselectors and Tuners will drive down that off-band signal, peak the selected frequency, and give you what you tuned for in that band. Beware of imitations that suggest they do the same without tuning (what a crock). As for that antenna impedance. Others have suggested a myriad of possibilities. The first active component's shunt reactance (often the base-emitter capacitance) is the limiting factor even when humongous resistance bridges those same points. Resistance is for bias folks. More can be said, but enough has been said here. Feel free to ask for more to be said. 73's Richard Clark, KB7QHC Thanks. :) Well, my plan is to use a ground at the antenna end, right underneath it. My neighbourhood problems recently were solved when a guy on the first floor ****ed off someone enough that said someone blew their flat door in with a shotgun! So the whole problem ended with a neat flameout a few days ago. I couldn't go out there rigging antennae while paranoid criminals were still active, it's seriously asking for BAD trouble. Right now I have the lesser problems of dental and other bills imminent, but I'll get a good 4' ground rod and rig up an 18' vertical whip as I learned of in details I posted about earlier. I understand that good reception depends on a good compromise between selectivity and sensitivity, and no doubt the antenna 'tuner' helps with that, though I'll mainly be concerned with good ground and local common mode noise rejection. My first attempt at the line between antenna and receiver will be a balanced line with a toroid at each end for current isolation and possibly the suggested Norton preamp on the receiver input, but I'll try without it first as I suspect I'll get enough signal strength to satisfy me for a while. If I have to use coax I will but I'll try the easier options first. This basic plan does involve a 10:1 ratio in windings on the far end toroid which should help smooth out peaks of resonance as described by John Doty and others as mentioned before, and if nothing else, drives a stronger current in the balanced line part of the system. I'm no longer much concerned about matching impedances, but I will be watching for results of changing antenna length if resonance seems to be an issue. My interest in the 'doohickey' or any other widget was mainly in what appeared to be a means of reducing the difference in signal strength extremes due to resonance. I understand that if I subsequently have to select the weaker of two close stations I'll either have to add some 'trap' for a specific offender, such as a trimmed lengh of unterminated coax (though as far as I know, that trick is usually reserved for much higher frequencies), or use a manually tuned system which I'll explore if it becomes a dominant concern. |
Sangean ATS-909 external antenna impedance??
On Sat, 02 Jan 2010 13:21:03 -0600, Lostgallifreyan
wrote: Well, my plan is to use a ground at the antenna end, right underneath it. This bodes ill if you do not tie that ground directly to the service ground. Further, a "ground" as you describe it (incompletely) sounds suspiciously like a ground rod. This is NOT the same thing as RF ground - not even close unless you live within several meters of low tide along a major ocean shore. I'll get a good 4' ground rod and rig up an 18' vertical whip as I learned of in details I posted about earlier. Suspicions confirmed.... I understand that good reception depends on a good compromise between selectivity and sensitivity, and no doubt the antenna 'tuner' helps with that, though I'll mainly be concerned with good ground and local common mode noise rejection. This does not acknowledge the significance of INTERMOD problems. Experience may have to teach that (when you make all these improvements and have poor results for your effort). My first attempt at the line between antenna and receiver will be a balanced line with a toroid at each end for current isolation This is a very, very curious novelty. You do not describe a "balanced" system with a ground rod and vertical, so any effort at "balanced" lines is window dressing only. The reason for placing "balanced" within quotes is due to the inordinate care and skill required in obtaining a balanced design. It is more often achieved with coax. Too often, "balanced line" is approached with the mysticism of universal relief for whatever ails a listener. and possibly the suggested Norton preamp on the receiver input, I must have missed that posting. Sounds like another elaboration. but I'll try without it first as I suspect I'll get enough signal strength to satisfy me for a while. If I have to use coax I will but I'll try the easier options first. This basic plan does involve a 10:1 ratio in windings on the far end toroid which should help smooth out peaks of resonance as described by John Doty and others as mentioned before, and if nothing else, drives a stronger current in the balanced line part of the system. This is the doohickey I spoke of. It is basically the refuge accessory of the lowfers where the span of frequencies is, maybe, three to one and not like the ten to one of HF SWLing. I'm no longer much concerned about matching impedances, but I will be watching for results of changing antenna length if resonance seems to be an issue. This is at cross purposes. You don't have many realistic options of changing antenna length (height) as you do with a simple tuner when it comes to matching. My interest in the 'doohickey' or any other widget was mainly in what appeared to be a means of reducing the difference in signal strength extremes due to resonance. I understand that if I subsequently have to select the weaker of two close stations I'll either have to add some 'trap' for a specific offender, such as a trimmed lengh of unterminated coax (though as far as I know, that trick is usually reserved for much higher frequencies), or use a manually tuned system which I'll explore if it becomes a dominant concern. Traps don't work very well for adjacent AM/SSB stations, you need cascade XTAL ladders to do that. Tuners, also, can only operate within the combination of number of reactive elements and Q. Please respond to your perception of the problem of INTERMOD as it is, as I said, the silent killer of reception. 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
Richard Clark wrote in
: On Sat, 02 Jan 2010 13:21:03 -0600, Lostgallifreyan wrote: Well, my plan is to use a ground at the antenna end, right underneath it. This bodes ill if you do not tie that ground directly to the service ground. Further, a "ground" as you describe it (incompletely) sounds suspiciously like a ground rod. This is NOT the same thing as RF ground - not even close unless you live within several meters of low tide along a major ocean shore. I'll get a good 4' ground rod and rig up an 18' vertical whip as I learned of in details I posted about earlier. Suspicions confirmed.... I understand that good reception depends on a good compromise between selectivity and sensitivity, and no doubt the antenna 'tuner' helps with that, though I'll mainly be concerned with good ground and local common mode noise rejection. This does not acknowledge the significance of INTERMOD problems. Experience may have to teach that (when you make all these improvements and have poor results for your effort). My first attempt at the line between antenna and receiver will be a balanced line with a toroid at each end for current isolation This is a very, very curious novelty. You do not describe a "balanced" system with a ground rod and vertical, so any effort at "balanced" lines is window dressing only. The reason for placing "balanced" within quotes is due to the inordinate care and skill required in obtaining a balanced design. It is more often achieved with coax. Too often, "balanced line" is approached with the mysticism of universal relief for whatever ails a listener. and possibly the suggested Norton preamp on the receiver input, I must have missed that posting. Sounds like another elaboration. but I'll try without it first as I suspect I'll get enough signal strength to satisfy me for a while. If I have to use coax I will but I'll try the easier options first. This basic plan does involve a 10:1 ratio in windings on the far end toroid which should help smooth out peaks of resonance as described by John Doty and others as mentioned before, and if nothing else, drives a stronger current in the balanced line part of the system. This is the doohickey I spoke of. It is basically the refuge accessory of the lowfers where the span of frequencies is, maybe, three to one and not like the ten to one of HF SWLing. I'm no longer much concerned about matching impedances, but I will be watching for results of changing antenna length if resonance seems to be an issue. This is at cross purposes. You don't have many realistic options of changing antenna length (height) as you do with a simple tuner when it comes to matching. My interest in the 'doohickey' or any other widget was mainly in what appeared to be a means of reducing the difference in signal strength extremes due to resonance. I understand that if I subsequently have to select the weaker of two close stations I'll either have to add some 'trap' for a specific offender, such as a trimmed lengh of unterminated coax (though as far as I know, that trick is usually reserved for much higher frequencies), or use a manually tuned system which I'll explore if it becomes a dominant concern. Traps don't work very well for adjacent AM/SSB stations, you need cascade XTAL ladders to do that. Tuners, also, can only operate within the combination of number of reactive elements and Q. Please respond to your perception of the problem of INTERMOD as it is, as I said, the silent killer of reception. 73's Richard Clark, KB7QHC I haven't a clue about intermod, yet. One thing at a time. Right now I see at least three contradictions (re ground rods, transformers, and feedlines) with advice from several people, one of which (the guy who wrote the description of the antenna and balanced line I mentioned) is part of a group of hams who is turned to for advice by the others. No guarantee of correctness, perhaps, but if I keep on being told I'm wrong when my stuff is coming as directly as I can get it from others with experience, then as far as I'm concerned I'll do what I think best and get out of the crossfire. Specifically, many times I've seen advice that service grounds are not adequate because of common mode noise and local currents, hence the ground rod you vehemently negate. I can ground to service ground at near end but if the receiver is on batteries, not connected to anything except a transformer coupling RF from the antenna, then the ground only needs to be at the antenna end, according to advice I've seen in several places. Even if I do ground to a water pipe or other local ground, all advice I see until now insists on having a ground rod as close to the antenna as possible, no matter what else I do, yet now you urge against this. I will stop asking for advice if all I see is vigorous contradiction between people who claim knowledge I do not have. Diverting that disagreement to one with me doesn't alter this, I did not originate the info behind the choices I am considering. Even if all the various contributors come here and duke it out between them it appears I'll be none the wiser. |
Sangean ATS-909 external antenna impedance??
Lostgallifreyan wrote in
: ...several people, one of which (the guy who wrote the description of the antenna and balanced line I mentioned) is part of a group of hams who is turned to for advice by the others. To save time: "http://www.kongsfjord.no/dl/Antennas/The%20Best%20Small%20Antennas%20For%20M W,%20LW,%20And%20SW%20rev%202.pdf The start page for that link is here; http://www.kongsfjord.no/dl/dl.htm" (Copied from a post by 'amdx' earlier in this thread). The line IS balanced, as it carries only its own internal current, driven by an isolated coupling with the antenna circuit. Anyway, if he's wrong, there's not much point in taking it up with me, for obvious reasons. He wrote that. I didn't. |
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