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Icom PCR1000 antenna
For some irrational reason, that probably defies logical
justification, I've decided to setup my PCR1000 receiver as an internet accessible receiver. There are about 7 programs available to do this, so I don't expect software to be a problem. The receiver will eventually be moved to a mountain top repeater site, which unfortunately does not have much room for an antenna. The receiver will tune from 0.1 to 1300Mhz. I don't wanna deal with an antenna tuners or switches. Is there an antenna or combination of antennas that are suitable for such a wide tuning range and that is small enough to fit in a limited rooftop area? I was thinking of a monstrous vertical biconical dipole for HF, a diplexer, and a discone for VHF/UHF/etc. For Field Day, I once made a biconical out of two trash can lids, with holes for the wires around the perimeter. It worked amazingly well but I never bothered to make measurements. http://en.wikipedia.org/wiki/Biconical_antenna Can anyone suggest something better, smaller, less ugly, or more practical? -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Icom PCR1000 antenna
On 4/21/2012 5:23 PM, Jeff Liebermann wrote:
For some irrational reason, that probably defies logical justification, I've decided to setup my PCR1000 receiver as an internet accessible receiver. There are about 7 programs available to do this, so I don't expect software to be a problem. The receiver will eventually be moved to a mountain top repeater site, which unfortunately does not have much room for an antenna. The receiver will tune from 0.1 to 1300Mhz. I don't wanna deal with an antenna tuners or switches. Is there an antenna or combination of antennas that are suitable for such a wide tuning range and that is small enough to fit in a limited rooftop area? One thing not to forget is there are relatively inexpensive duplexers/triplexers/etc. from the likes of Comet and others. Or roll your own. I know that doesn't help much on the low end of things but means a couple discones on the mid and upper will do well. And yes there will be some small to medium gaps because of the device. tom K0TAR |
Icom PCR1000 antenna
"Jeff Liebermann" wrote in message ... For some irrational reason, that probably defies logical justification, I've decided to setup my PCR1000 receiver as an internet accessible receiver. There are about 7 programs available to do this, so I don't expect software to be a problem. The receiver will eventually be moved to a mountain top repeater site, which unfortunately does not have much room for an antenna. The receiver will tune from 0.1 to 1300Mhz. I don't wanna deal with an antenna tuners or switches. Is there an antenna or combination of antennas that are suitable for such a wide tuning range and that is small enough to fit in a limited rooftop area? I was thinking of a monstrous vertical biconical dipole for HF, a diplexer, and a discone for VHF/UHF/etc. For Field Day, I once made a biconical out of two trash can lids, with holes for the wires around the perimeter. It worked amazingly well but I never bothered to make measurements. http://en.wikipedia.org/wiki/Biconical_antenna Can anyone suggest something better, smaller, less ugly, or more practical? -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 If it's always receiving and you can make an amplifier with high input impedance throughout the frequency range, then you could use a short dipole 'doublet' - drawing insignificant current from the antenna would make its very low radiation resistance less of a concern. Its directivity gain would be almost constant because its radiation pattern comes from its (fixed) axial symmetry, but a wavelength^2 factor would apply to its effective aperture area. It probably wouldn't be easy to design a single high-input-Z amplifier over that frequency range, but there might be scope for dividing the range and combining the _outputs_ of several amplifiers, each fed by their own doublet. Would you need any kind of 'monstrous' antenna if the requirement was always receiving? I could see that you might want something large to get the radiation resistance up if you were transmitting from it, but for receiving a high-Z amplifier becomes easier at lower frequencies. I vaguely recall that some of the companies that have offered professional 'radiomonitoring' (i.e. evesdropping) equipment, such as R&S, have used combinations of different types of element for different parts of the wide frequency band, but never anything monstrous. Chris |
Icom PCR1000 antenna
On Sat, 21 Apr 2012 17:33:54 -0500, tom wrote:
On 4/21/2012 5:23 PM, Jeff Liebermann wrote: For some irrational reason, that probably defies logical justification, I've decided to setup my PCR1000 receiver as an internet accessible receiver. There are about 7 programs available to do this, so I don't expect software to be a problem. The receiver will eventually be moved to a mountain top repeater site, which unfortunately does not have much room for an antenna. The receiver will tune from 0.1 to 1300Mhz. I don't wanna deal with an antenna tuners or switches. Is there an antenna or combination of antennas that are suitable for such a wide tuning range and that is small enough to fit in a limited rooftop area? One thing not to forget is there are relatively inexpensive duplexers/triplexers/etc. from the likes of Comet and others. Or roll your own. I like to make my own diplexer/triplexer boxes. In this case, only a diplexer is needed. The Radio Shack discone antenna will (allegedly) work from 30-1300MHz. http://www.radioshack.com/graphics/uc/rsk/Support/ProductManuals/2000043_PM_EN.pdf Below 30MHz is the real problem. Also, none of the commercial diplexers I could find had a 30MHz cutoff frequency. Looks like I get to build something. I know that doesn't help much on the low end of things but means a couple discones on the mid and upper will do well. I've compared the performance of discones and biconical antennas. Biconicals are better because the radiation pattern is towards the horizon, instead of towards the sky. It also has about 1-2dB more gain. However, I'm not in the mood for building yet another mechanical marvel, and will probably use the discone. And yes there will be some small to medium gaps because of the device. I can probably ignore the TV bands (54 to 700MHz) but I want most everything else. Thanks much. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Icom PCR1000 antenna
On Sun, 22 Apr 2012 01:09:26 +0100, "christofire"
wrote: If it's always receiving and you can make an amplifier with high input impedance throughout the frequency range, Good idea. I've done that before with a long wire (about 200ft) feeding a 3:1 turns ratio torrid xformer. It was a bit lossy at low frequencies, but that doesn't matter because the atmospheric noise level is so high, that everything is buried under the noise anyway. then you could use a short dipole 'doublet' - drawing insignificant current from the antenna would make its very low radiation resistance less of a concern. A doublet may not work at a commercial mountain top site. Doublets require twinlead or ladder line down to the radio. The feed line will need to either go through about 3 meters of pipe, or through a coax bulkhead feedthrough. I could probably install the balun before it enters the pipe or building, but that might not be practical. Its directivity gain would be almost constant because its radiation pattern comes from its (fixed) axial symmetry, but a wavelength^2 factor would apply to its effective aperture area. I don't have much in the way of expectations in the way of antenna gain. If it receives anything, I'm happy. It probably wouldn't be easy to design a single high-input-Z amplifier over that frequency range, but there might be scope for dividing the range and combining the _outputs_ of several amplifiers, each fed by their own doublet. Do I really need an amplifier just to do an impedance downconversion? I would think a 3:1 xformer would be adequate. Actually, it's quite easy to build a high input impedance RF amplifier. I've done it many times. A source follower will do the trick. So will a grounded gate amplifier. Better yet, a dual gate MOSFET amplifier or some kind of cascode amplifier derangement. All of them can be configured for a high input impedance and 50 ohms output. However, performance may not be so wonderful. It's a tradeoff between gain, noise figure, and bandwidth. There's no easy way to make an amplifier that is ideal for all three. Pick any two. Actually, it's worse because blocking, overload, and dynamic range are also a factor. Putting a broadband amplifier on a mountain top full of broadcast stations and commercial radios is not a great idea. I'll probably end up with a transformer followed by an attenuator. Would you need any kind of 'monstrous' antenna if the requirement was always receiving? Well, no... but bigger does tend to be better. I could probably use a base loaded whip, tolerate the mismatch losses, and live with the general loss of gain at the low end of HF. The site has an 80ft tower, where I think (not sure) I can install two outriggers, egg insulators, and build some kind of vertical wire antenna. Various configurations are possible, but the monstrosity I was considering is an HF biconical. http://www.google.com/patents?id=LJ9pAAAAEBAJ What I like about it is that it's 75 ohms over at least one octave of bandwidth. However, as each element approaches 1/2 wave at some frequencies, the impedance goes sky high. The trick is to put those frequencies in areas where I don't care to listen. I could also fit a "fan" type dipole antenna or a wire simulation of a "bow-tie" antenna. However, what I was hoping for was some manner of fairly short antenna (about 3-6 meters), with a fixed LC network that yields a fair approximation of 50 ohms. 2-30MHz, without tuning. I've been playing with such a matching network in 4NEC2, but getting nowhere. Surely, such a thing exists. I could see that you might want something large to get the radiation resistance up if you were transmitting from it, but for receiving a high-Z amplifier becomes easier at lower frequencies. True, but for there reasons I previously mumbled, I don't think an RF amp on an RF polluted mountain top is a great idea. Besides, additional RF gain at the low end of the HF spectrum is useless because of the high atmospheric noise levels. All the gain does is lower the receiver dynamic range. I vaguely recall that some of the companies that have offered professional 'radiomonitoring' (i.e. evesdropping) equipment, such as R&S, have used combinations of different types of element for different parts of the wide frequency band, but never anything monstrous. Yes, but I suspect they also used antenna tuners to deal with the mismatch. I could do the same thing, but don't have an easy way to control the antenna tuner, especially since the receiver doesn't have the concept of "bands". Thanks much. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Icom PCR1000 antenna
On 4/21/2012 10:23 PM, Jeff Liebermann wrote:
I like to make my own diplexer/triplexer boxes. In this case, only a diplexer is needed. The Radio Shack discone antenna will (allegedly) work from 30-1300MHz. http://www.radioshack.com/graphics/uc/rsk/Support/ProductManuals/2000043_PM_EN.pdf Below 30MHz is the real problem. Also, none of the commercial diplexers I could find had a 30MHz cutoff frequency. Looks like I get to build something. I have one and have never bothered to check it because I've never actually used it. It's one of my backup backup antennas. Time to test it. tom K0TAR |
Icom PCR1000 antenna
On 4/21/2012 7:09 PM, christofire wrote:
"Jeff wrote in message ... For some irrational reason, that probably defies logical justification, I've decided to setup my PCR1000 receiver as an internet accessible receiver. There are about 7 programs available to do this, so I don't expect software to be a problem. The receiver will eventually be moved to a mountain top repeater site, which unfortunately does not have much room for an antenna. The receiver will tune from 0.1 to 1300Mhz. I don't wanna deal with an antenna tuners or switches. Is there an antenna or combination of antennas that are suitable for such a wide tuning range and that is small enough to fit in a limited rooftop area? I was thinking of a monstrous vertical biconical dipole for HF, a diplexer, and a discone for VHF/UHF/etc. For Field Day, I once made a biconical out of two trash can lids, with holes for the wires around the perimeter. It worked amazingly well but I never bothered to make measurements. http://en.wikipedia.org/wiki/Biconical_antenna Can anyone suggest something better, smaller, less ugly, or more practical? -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 If it's always receiving and you can make an amplifier with high input impedance throughout the frequency range, then you could use a short dipole 'doublet' - drawing insignificant current from the antenna would make its very low radiation resistance less of a concern. Its directivity gain would be almost constant because its radiation pattern comes from its (fixed) axial symmetry, but a wavelength^2 factor would apply to its effective aperture area. It probably wouldn't be easy to design a single high-input-Z amplifier over that frequency range, but there might be scope for dividing the range and combining the _outputs_ of several amplifiers, each fed by their own doublet. Would you need any kind of 'monstrous' antenna if the requirement was always receiving? I could see that you might want something large to get the radiation resistance up if you were transmitting from it, but for receiving a high-Z amplifier becomes easier at lower frequencies. I vaguely recall that some of the companies that have offered professional 'radiomonitoring' (i.e. evesdropping) equipment, such as R&S, have used combinations of different types of element for different parts of the wide frequency band, but never anything monstrous. Chris The only comment I would have is capture area. tom K0TAR |
Icom PCR1000 antenna
"Jeff Liebermann" wrote in message ... snippage http://en.wikipedia.org/wiki/Biconical_antenna Can anyone suggest something better, smaller, less ugly, or more practical? -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 Nothing small is going to be broadbanded. Roy, W7EL, a contributor here, offered his wisdom on antennas and it's been echoed by others, I'm sure. Small Broadband Pick any two. Efficient Words to live by. "Sal" |
Icom PCR1000 antenna
On Sat, 21 Apr 2012 22:59:10 -0700, "Sal" wrote:
Nothing small is going to be broadbanded. Roy, W7EL, a contributor here, offered his wisdom on antennas and it's been echoed by others, I'm sure. Small Broadband Pick any two. Efficient Words to live by. "Sal" Thats a good rule of thumb. However, this is a receive only antenna, which does not need to be perfectly matched and can be fairly inefficient and low gain. Even so, I don't think the radiation efficiency is going to be that horrible. They're mostly due to conduction losses (at HF) and dielectric loss (at UHF). For the high currents required for transmitting, these losses are fairly large for a short broadband antenna. However, in a high impedance receive only antenna, the conductivity loses are a much smaller part of the antenna impedance than in the transmit antenna. It's much the same in the discone. The antenna VSWR averages about 3:1 over about 6 octaves of frequency. With such a high VSWR, it's not a suitable transmit antenna. However, for receive, it works tolerably well. -- Jeff Liebermann 150 Felker St #D http://www.LearnByDestroying.com Santa Cruz CA 95060 http://802.11junk.com Skype: JeffLiebermann AE6KS 831-336-2558 |
Icom PCR1000 antenna
On Sat, 21 Apr 2012 20:23:04 -0700, Jeff Liebermann
wrote: gain. However, I'm not in the mood for building yet another mechanical marvel, and will probably use the discone. discones are fine, but like to pick up static. w. |
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