|
Sangean ATS-909 external antenna impedance??
Lostgallifreyan wrote in
: He wrote that. I didn't. Sorry amdx, potential for confusion there... I mean the guy who wrote what you linked to.. |
Sangean ATS-909 external antenna impedance??
On Sat, 02 Jan 2010 17:20:24 -0600, Lostgallifreyan
wrote: I haven't a clue about intermod, yet. One thing at a time. The term Intermod is probably mis-direction if you research it. Basically, if an nearby AM/FM/TV transmitter (and nearby can be on the scale of several miles) happens to excite your antenna; then its developed voltage will overload the frontend (Intermod follows, but the products are not what I am emphasizing here). This overload can be many, many kHz, or MHz from the intended and tuned signal; and yet this frequency remote signal will develop an AGC that drives down gain on your intended signal. This characteristic is VERY common for untuned frontends in modern receivers. It is not often noted for poor antennas (those whips, when they are used for SW), but when a real antenna is attached *BINGO* sensitivity goes down the toilet. By providing a tuned input, the side-signal that would otherwise silently drive AGC is attenuated, and AGC is developed only by the in-band signals. 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. A reasonable posture. 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 don't negate its use, I say that it is NOT RF ground. If you tie this ground rod to the service ground, then that wire will probably act more in your behalf than either "ground." There is a world of difference between safety grounds (what those rod-thingies are) and RF grounds (which often don't go into ground at all). Ground is a long and rich story that has been celebrated in this group for years. It deserves respect and attention well beyond these few words. 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. To your specific arrangement - quite true. However, many who have claimed to have made every precaution then connect their receiver to an amplifier, computer, what-you-might-call-it and a new path to ground winds its way through interesting environments that are RF rich. 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 urge against mixing grounds. Such things arrive by the most benign and seemingly inconsequential actions. 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. Attention to one detail at a time helps, but a lot of this arrived through responding to the query for antenna port Z. Those adjuncts that massage input/output Z also fold in the discussion of ground. Convention has it that you start a new thread for each side-topic that drives you into conniptions. Asking about the facts and foibles of ground would be a good start on a new thread - especially when Art's wet-dreams descend into discussion of particle duality self annihilation driving all participation away from antenna design. For instance "Why are ground rods considered insufficient for RF application?" I am content to respond to either discussion. 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
On Sat, 02 Jan 2010 17:33:03 -0600, Lostgallifreyan
wrote: To save time: "http://www.kongsfjord.no/dl/Antennas/The%20Best%20Small%20Antennas%20For%20M W,%20LW,%20And%20SW%20rev%202.pdf An example of invention driving the discussion rather than the need being satisfied. Simply put, there is absolutely no reason to use a "balanced" line. It is window dressing for the circuit which IS balanced (and balanced for no apparent reason for this unbalanced source). Metaphorically, it is like adding a clutch to an automatic shift. Yes, you can do it. It might appear to be elegant. It will certainly work. But why? Try asking why the trappings of this novel design don't bring some solution in a new thread. You might stumble at offering the problem it pretends to solve. (I will anticipate it has something to do with noise, THIS will certainly raise a lot of catcalls.) 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
"Lostgallifreyan" wrote in message . .. Lostgallifreyan wrote in : He wrote that. I didn't. Sorry amdx, potential for confusion there... I mean the guy who wrote what you linked to... The Sangean ATS-909 along with similar radios are designed to resolve signals from the whip antenna or in built ferrite antenna. Attaching 8 to 10 feet of wire to the whip will bring in more stations but depending on location may well pick up so much extra signal as to cause intermodulation and AGC limiting preventing reception of the weak signals you want to receive. As stated earlier, the front end of these receivers is wide open and the front end is exposed to the complete spectrum of transmissions received by the antenna. There is nothing inherently wrong with the receiving system you have decided upon but it will undoubtably overload your receiver with signals and you will be puzzled as to why the reception seems poorer with more noise pickup rather than less. As Richard has stated you need some form of preselection to filter out the unwanted signals before they get into your radio. Basically this is a tuneable filter which only allows through a single band of frequencies at a time. The following site explains the essentials. http://www.dxing.com/tnotes/tnote07.pdf You can buy commercial preselectors but they will probably cost as much as your radio. As they are generally passive devices built from a set of switched coils and a variable capacitor they last forever and old ones do come up from time to time at junk sales and the like. It is possible to make a simple filter to cover just one or two bands that interest you. By all means, try the external antenna system but be prepared to buy a 'better' receiver with front end band pass filters or a preselector. You can have too much of a good thing when it comes to receiving antennas. A bigger receiving antenna won't bring in signals from further away. If they are there, the receiver is probably sufficiently sensitive to pick them up already. What the bigger antenna will do is raise the level of all the signals it is picking up and feeding into the receiver and that includes noise, and other unwanted stations. That is why you need additional filtering to cut down the unwanted signals and allow your receiver a fair chance of demodulating what you actually want to hear. Regards Mike G0ULI |
Sangean ATS-909 external antenna impedance??
Richard Clark wrote in
: On Sat, 02 Jan 2010 17:20:24 -0600, Lostgallifreyan wrote: I haven't a clue about intermod, yet. One thing at a time. The term Intermod is probably mis-direction if you research it. Basically, if an nearby AM/FM/TV transmitter (and nearby can be on the scale of several miles) happens to excite your antenna; then its developed voltage will overload the frontend (Intermod follows, but the products are not what I am emphasizing here). This overload can be many, many kHz, or MHz from the intended and tuned signal; and yet this frequency remote signal will develop an AGC that drives down gain on your intended signal. This characteristic is VERY common for untuned frontends in modern receivers. It is not often noted for poor antennas (those whips, when they are used for SW), but when a real antenna is attached *BINGO* sensitivity goes down the toilet. By providing a tuned input, the side-signal that would otherwise silently drive AGC is attenuated, and AGC is developed only by the in-band signals. Ok, this is cool, I understand that, and I also see that it doesn't really concern intermodulation products as the initial problem is a bigger one if it occurs. Can't help wondering why a receiver doesn't do some tuning before the AGC for exactly this reason, but never mind... 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. A reasonable posture. 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 don't negate its use, I say that it is NOT RF ground. If you tie this ground rod to the service ground, then that wire will probably act more in your behalf than either "ground." There is a world of difference between safety grounds (what those rod-thingies are) and RF grounds (which often don't go into ground at all). Ground is a long and rich story that has been celebrated in this group for years. It deserves respect and attention well beyond these few words. True, I don't doubt that for an instant, but it's also a question of what is practical, and what is recomended by most people I've read words from at times during the last 30 years or more. While I know that CB'ers would just stick a magmount on their car's steel rooftop as often as not, and have read of other schemes that place some small horizontal plate below the antenna, there's a lot of scope between that and a rod driven into salty ocean shoreline. Most people I ever came across asserted the importance of a ground rod local to the antenna to couple with the local water table which is as close as most ever get to the ocean unless they really like getting their feet wet while they sit around at home. The proximity is as close to the point where they want to pick up RF as they're going to get, and means less noise from buildings full of electrical stuff picked up on metal between antenna and whatever other ground might be provided elsewhere. This has been the ONE common factor in pretty much everything I've seen on land-based AM reception. Anything that directly appears to negate that advice makes it hard to know what to trust, and certainly needs to be clearly explained. 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. To your specific arrangement - quite true. However, many who have claimed to have made every precaution then connect their receiver to an amplifier, computer, what-you-might-call-it and a new path to ground winds its way through interesting environments that are RF rich. I agree. The moment I try to connect to a system that includes a computer, mixer, multiple supply grounds, as mine does, I'll be using a local service ground and improving it the same as I would for audio, though it's currently ok for that, at least. It already uses a star grounding system where possible, as recommended by audio studio designers and others. There's actually a supply ground rod outside the front door too, which presumably helps more than the original wiring 15 years ago which didn't have that. (But note below, where I mention isolation). 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 urge against mixing grounds. Such things arrive by the most benign and seemingly inconsequential actions. Hence the star network I mentioned, advised for audio setups.. It's kind of why I wonder about what many suggest, grounding a coax at both ends, and even in the middle if you want, and certainly to bury it. More importantly it's why the Dallas Lankford design appeals to me. Isolation baluns that transfer energy rather than use direct contact coupling look like a good way to avoid the ground problems while also avoiding local noise pickup because the twin cable will have good common mode rejection as it passes into the electrically noisy bulding. (Though I can't help wondering if Dallas Lankford also tried balanced microphone cable with a screen grounded at one end, just to see what happened) Such methods have long been used in audio; is RF below 30 MHz really so different in this case? So long as that line doesn't have dire resonances of it's own, isn't attenuation the only big risk? Dallas Lankford certainly thinks it works after working with it for at least 2 years. He says that if you do it as described it will be low noise. (As opposed to 'reducing'). I don't think he's claiming any means of reduction, just saying it's lower relative to inherently noisier systems, if wired as decribed. Based on what I know, the claim seems good. 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. Attention to one detail at a time helps, but a lot of this arrived through responding to the query for antenna port Z. Those adjuncts that massage input/output Z also fold in the discussion of ground. Agreed. But this is why instead of asking more questions whose answers I am probably not prepared for, I described the simplest and apparently best scheme I'd learned of so people see it whole and work from there... Convention has it that you start a new thread for each side-topic that drives you into conniptions. Ah. :) Well, I thought that's exactly what would annoy people most. If something directly arises from discussion in a thread, most people tend to keep it there. I already do start a new one if I'm certain the issue is different, and if I'm originating it. Asking about the facts and foibles of ground would be a good start on a new thread - especially when Art's wet-dreams descend into discussion of particle duality self annihilation driving all participation away from antenna design. For instance "Why are ground rods considered insufficient for RF application?" I am content to respond to either discussion. 73's Richard Clark, KB7QHC Well, sure, if I am asking a direct technical or practical question. But while I'm still slightly reeling from what appears to be a dissention with what otherwise appears to be good advice, I like to keep the discussion in one place, otherwise confusion reigns and spreads to many threads. Trust me, that might annoy people. :) At least in this thread it might be useful to anyone who has that radio. |
Sangean ATS-909 external antenna impedance??
"Mike Kaliski" wrote in
: There is nothing inherently wrong with the receiving system you have decided upon but it will undoubtably overload your receiver with signals and you will be puzzled as to why the reception seems poorer with more noise pickup rather than less. One reason I chose it is that it isn't trying that hard for extreme signal capture. It appeared to be small, easy to use where I have limited space, and include a transformer that I have read in numerous places partially solves one of the main reasons for strongly differing signal strength with frequency. As Richard has stated you need some form of preselection to filter out the unwanted signals before they get into your radio. Basically this is a tuneable filter which only allows through a single band of frequencies at a time. The following site explains the essentials. http://www.dxing.com/tnotes/tnote07.pdf Looks good, I'm not keen on lots of widgets as it happens, fewer and better widgets that co-operate well works better for me. You can buy commercial preselectors but they will probably cost as much as your radio. As they are generally passive devices built from a set of switched coils and a variable capacitor they last forever and old ones do come up from time to time at junk sales and the like. It is possible to make a simple filter to cover just one or two bands that interest you. By all means, try the external antenna system but be prepared to buy a 'better' receiver with front end band pass filters or a preselector. The pre-selection thing isn't a problem, I can see why that helps, and did so much earlier than now. The point that disconcerts me strongly is what appears to be significant difference of opinion between experts, especially when it applies to things as well established as ground rods. Again, this is why I won;t just ask questions. Context is clearly everything, so instead I describe the whole scheme I'm considering. Ultimately it's quicker that way. |
Sangean ATS-909 external antenna impedance??
On Sun, 03 Jan 2010 05:26:32 -0600, Lostgallifreyan
wrote: Most people I ever came across asserted the importance of a ground rod local to the antenna to couple with the local water table which is as close as most ever get to the ocean unless they really like getting their feet wet while they sit around at home. In fact, this almost always NEVER happens. Skin effect defines the layer depth of RF in ground. An 8 foot rod is like a splinter when you are trying to harpoon a Blue Whale. Ground rod engineering has been discussed in this forum to great depth (pun intended, or not). The rods are as well understood as water witching forks. In the HF region, single or several rods have no practical RF use whatever. Above HF, absolutely no one gives them any thought. The proximity is as close to the point where they want to pick up RF as they're going to get, and means less noise from buildings full of electrical stuff picked up on metal between antenna and whatever other ground might be provided elsewhere. This has been the ONE common factor in pretty much everything I've seen on land-based AM reception. Anything that directly appears to negate that advice makes it hard to know what to trust, and certainly needs to be clearly explained. When you can't do anything else that is effective, a ground rod seems like more than enough. It is certainly a need for safety's sake, especially when your vertical could be a lightning magnet. Consider that same antenna: is it directly GROUNDED? Or is it floating? If ground is a panacea, I bet most of your advisors immediately isolate their antenna from it. One has to wonder about faith.... Either design works with equal efficiency. You simply need a coupling system to the grounded antenna design. One method is using a folded monopole. Other methods abound (which are often confined to yagi driven element discussion, but are eminently applicable here). The moment I try to connect to a system that includes a computer, mixer, multiple supply grounds, as mine does, I'll be using a local service ground and improving it the same as I would for audio, though it's currently ok for that, at least. It already uses a star grounding system where possible, as recommended by audio studio designers and others. There's actually a supply ground rod outside the front door too, which presumably helps more than the original wiring 15 years ago which didn't have that. (But note below, where I mention isolation). The Star system is great for exactly as you understand and describe it, but for antenna applications that remote ground could act as a suicide adapter if it does not have its own path to the service ground. Yes, this violates the star, but when path lengths include a lot of resistance and leakage current, voltages can become considerable when you supply a new avenue through your home. This is the story of the classic ground loop. Hence the star network I mentioned, advised for audio setups.. It's kind of why I wonder about what many suggest, grounding a coax at both ends, and even in the middle if you want, and certainly to bury it. More importantly it's why the Dallas Lankford design appeals to me. Isolation baluns that transfer energy rather than use direct contact coupling look like a good way to avoid the ground problems while also avoiding local noise pickup because the twin cable will have good common mode rejection as it passes into the electrically noisy bulding. (Though I can't help wondering if Dallas Lankford also tried balanced microphone cable with a screen grounded at one end, just to see what happened) Such methods have long been used in audio; is RF below 30 MHz really so different in this case? So long as that line doesn't have dire resonances of it's own, isn't attenuation the only big risk? Dallas Lankford certainly thinks it works after working with it for at least 2 years. He says that if you do it as described it will be low noise. (As opposed to 'reducing'). I don't think he's claiming any means of reduction, just saying it's lower relative to inherently noisier systems, if wired as decribed. Based on what I know, the claim seems good. I'm not familiar with Dallas Lankford, but isolation and shielding techniques are topics I have visited professionally throughout the years and they are not simple. Without a concommitant discussion of the noise source, one wrong ground selection can wipe out all pursued benefits. Let's revisit one of your statements above: balanced microphone cable with a screen grounded at one end Which end? Any choice stands an equal chance of being the wrong choice. 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
On Sun, 03 Jan 2010 08:52:46 -0800, Richard Clark
wrote: I'm not familiar with Dallas Lankford I have since visited your suggested page to casually view his works. Interesting set of circuits too (although, some of the phasing systems have been superceded with shift registers - I used to use bucket-brigade chips). I was especially touched to see wide coverage of the R390A. It was the subject of my first class that I taught in the Navy (along with the Collins URC-32). Cadillac equipment. I note in his discussion of stabilizing the BFO, he uses a Rubidium standard for comparison. I calibrated quite a few of those Rubidium standards too with my Cesium Beam whenever a Boomer came along side. An URQ-12 would have worked as easily, but this discussion no doubt exceeds the capacity of your wallet (the Navy provided such a candy store for my Metrology Lab). 73's Richard Clark, KB7QHC |
Sangean ATS-909 external antenna impedance??
Richard Clark wrote in
: On Sun, 03 Jan 2010 05:26:32 -0600, Lostgallifreyan wrote: Most people I ever came across asserted the importance of a ground rod local to the antenna to couple with the local water table which is as close as most ever get to the ocean unless they really like getting their feet wet while they sit around at home. In fact, this almost always NEVER happens. Skin effect defines the layer depth of RF in ground. An 8 foot rod is like a splinter when you are trying to harpoon a Blue Whale. Ground rod engineering has been discussed in this forum to great depth (pun intended, or not). The rods are as well understood as water witching forks. In the HF region, single or several rods have no practical RF use whatever. Above HF, absolutely no one gives them any thought. True. I'm interested in using a single antenna for all of LW up to around 30 MHz as a simple starting point though, so Dallas Lankford's scheme seems to fit the bill. The proximity is as close to the point where they want to pick up RF as they're going to get, and means less noise from buildings full of electrical stuff picked up on metal between antenna and whatever other ground might be provided elsewhere. This has been the ONE common factor in pretty much everything I've seen on land-based AM reception. Anything that directly appears to negate that advice makes it hard to know what to trust, and certainly needs to be clearly explained. When you can't do anything else that is effective, a ground rod seems like more than enough. It is certainly a need for safety's sake, especially when your vertical could be a lightning magnet. Consider that same antenna: is it directly GROUNDED? Or is it floating? If ground is a panacea, I bet most of your advisors immediately isolate their antenna from it. One has to wonder about faith.... Safety is important, even though lightning strike isn't that big a risk here. Actually it's risen because nearly all large trees have been removed in the last two years, and I'd be held reponsible for any damage caused that way. If you look at that PDF you'll see the 15' whip antenna is directly connected to ground through 80 turns of wire on a ferrite toroid. I might add a spark gap in parallel as that wire is not a high current path. So long as it is much more likely to go to ground rather than along the line in to the house, I'll have done what I'm supposed to do. The trouble would only exist (other than unpreventable natural excesses) if it were evident that I had not done this. Either design works with equal efficiency. You simply need a coupling system to the grounded antenna design. One method is using a folded monopole. Other methods abound (which are often confined to yagi driven element discussion, but are eminently applicable here). That PDF shows the coupling in this case. It's similar to other ideas recommended for similar small SW listening setups. Once I have all I need to try it I'm just as happy to try experimenting to see what happens as to try any plan. There are some limits though, the location is too built up to expect much from anything intended to be directional. I'm just intending to look around, not looking out there for something specific. The moment I try to connect to a system that includes a computer, mixer, multiple supply grounds, as mine does, I'll be using a local service ground and improving it the same as I would for audio, though it's currently ok for that, at least. It already uses a star grounding system where possible, as recommended by audio studio designers and others. There's actually a supply ground rod outside the front door too, which presumably helps more than the original wiring 15 years ago which didn't have that. (But note below, where I mention isolation). The Star system is great for exactly as you understand and describe it, but for antenna applications that remote ground could act as a suicide adapter if it does not have its own path to the service ground. Yes, this violates the star, but when path lengths include a lot of resistance and leakage current, voltages can become considerable when you supply a new avenue through your home. This is the story of the classic ground loop. Well, a ground rod isn't going to cost much, and making and breaking connections to it is one of the easiest and cheapest things I'll be able to do, so I'll test that empirically when I'm ready. I won't try to predict it now. Whenever I find some new ground noise problem in anything I do here, I usually manage to isolate it and solve it acceptably within an hour or less, so I'll trust my chances. Usually the purpose hasn't been for RF, but quite often the sources did involve RF too so my instincts might help me more than my knowledge. Hence the star network I mentioned, advised for audio setups.. It's kind of why I wonder about what many suggest, grounding a coax at both ends, and even in the middle if you want, and certainly to bury it. More importantly it's why the Dallas Lankford design appeals to me. Isolation baluns that transfer energy rather than use direct contact coupling look like a good way to avoid the ground problems while also avoiding local noise pickup because the twin cable will have good common mode rejection as it passes into the electrically noisy bulding. (Though I can't help wondering if Dallas Lankford also tried balanced microphone cable with a screen grounded at one end, just to see what happened) Such methods have long been used in audio; is RF below 30 MHz really so different in this case? So long as that line doesn't have dire resonances of it's own, isn't attenuation the only big risk? Dallas Lankford certainly thinks it works after working with it for at least 2 years. He says that if you do it as described it will be low noise. (As opposed to 'reducing'). I don't think he's claiming any means of reduction, just saying it's lower relative to inherently noisier systems, if wired as decribed. Based on what I know, the claim seems good. I'm not familiar with Dallas Lankford, but isolation and shielding techniques are topics I have visited professionally throughout the years and they are not simple. Without a concommitant discussion of the noise source, one wrong ground selection can wipe out all pursued benefits. Let's revisit one of your statements above: balanced microphone cable with a screen grounded at one end Which end? Any choice stands an equal chance of being the wrong choice. Well, I did think of that. :) And I didn't state it because I didn't know for sure. As I imagine that local RF couplings from various digital devices might place small currents on the local ground, I imagine that grounding a shield at the remote ground makes sense. Doesn't matter to me though. It's far easier and faster to experiment than to try to predict because there are only two ways to try. Dallas Lankford directly states that no shield is even required, and I doubt he'd have said that if he couldn't demonstrate it, and as that line is a two-wire loop that has no direct contact with anything, it should reject any common mode noise that hits it. Even in audio this matters because the same method is used to reject RF pickup on audio lines. I think some people persist in baluns instead of op-amp common mode rejection specs for this reason, despite the chances of modest distortion in audio bands from the transformers used. Not entirely relevant but it illustrates how people can find themselves choosing between two less-than-ideal circumstances for best effect. I understand that noise context matters for a real attempt to plan for it, but that's far more difficult that presenting the basic antenna scheme. |
Sangean ATS-909 external antenna impedance??
Richard Clark wrote in
: On Sun, 03 Jan 2010 08:52:46 -0800, Richard Clark wrote: I'm not familiar with Dallas Lankford I have since visited your suggested page to casually view his works. Interesting set of circuits too (although, some of the phasing systems have been superceded with shift registers - I used to use bucket-brigade chips). I was especially touched to see wide coverage of the R390A. It was the subject of my first class that I taught in the Navy (along with the Collins URC-32). Cadillac equipment. I note in his discussion of stabilizing the BFO, he uses a Rubidium standard for comparison. I calibrated quite a few of those Rubidium standards too with my Cesium Beam whenever a Boomer came along side. An URQ-12 would have worked as easily, but this discussion no doubt exceeds the capacity of your wallet (the Navy provided such a candy store for my Metrology Lab). 73's Richard Clark, KB7QHC Not just my wallet. :) This is cool though, I have encountered both bucket brigade IC's and shift registers. Offtopic question: Did the bucket brigade lead directly to the switched capacitor filter? I ask because they seem related, and the BB seems to have become obsolete, but the SCF, anything but. |
| All times are GMT +1. The time now is 03:50 AM. |
Powered by vBulletin® Copyright ©2000 - 2025, Jelsoft Enterprises Ltd.
RadioBanter.com