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Max2000 cap in center section

rumblefish

rumblefish

KD2NDZ
Nov 26, 2011
54
4
18
61
Point Pleasant NJ
I recently checked the continuity of the center section of this antenna and it read infinite resistance.
That leads me to believe it's a capacitor and not something to keep the wire inside from banging around.
I have the "Max" 2000. I pretty sure its no different than the "Imax" 2000. If that is the case, then the schematic floating around on the internet is false. I'm not to savvy with the antenna modeling, but I wonder if it is possible
to generate a plot with the capacitor in the radiator. Maybe somebody knows the precise location of the capacitor
in the center section.
 

rumblefish said:
I recently checked the continuity of the center section of this antenna and it read infinite resistance.
That leads me to believe it's a capacitor and not something to keep the wire inside from banging around.
I have the "Max" 2000. I pretty sure its no different than the "Imax" 2000. If that is the case, then the schematic floating around on the internet is false. I'm not to savvy with the antenna modeling, but I wonder if it is possible
to generate a plot with the capacitor in the radiator. Maybe somebody knows the precise location of the capacitor
in the center section.
Click to expand...

Sure, can model a capacitor in a radiator. I've done it with a Gain master model and a few other models. In that location (as opposed to a capacity hat setup) a capacitor would have the opposite effect on overall antenna length as a loading coil, or you would need to make the antennas physicaly longer to compensate.

I would need the capacitance of the capacitor to model it however...


The DB
 
The DB said:
Sure, can model a capacitor in a radiator. I've done it with a Gain master model and a few other models. In that location (as opposed to a capacity hat setup) a capacitor would have the opposite effect on overall antenna length as a loading coil, or you would need to make the antennas physicaly longer to compensate.

I would need the capacitance of the capacitor to model it however...


The DB
Click to expand...
I don't have the means to check the value, but there is a chance its a 4 pf. It's 23 ft. to the base of the antenna. I also have the ground plane kit on it with the 6 ft. radials at 30 degrees to the horizon. The soil conductivity here is poor. DB that would be great if you would generate a plot we could look at. I seem to remember an advertisement for the imax 2000 when it first came out. something about extending the current in the center section. thx.
 
rumblefish said:
I don't have the means to check the value, but there is a chance its a 4 pf. It's 23 ft. to the base of the antenna. I also have the ground plane kit on it with the 6 ft. radials at 30 degrees to the horizon. The soil conductivity here is poor. DB that would be great if you would generate a plot we could look at. I seem to remember an advertisement for the imax 2000 when it first came out. something about extending the current in the center section. thx.
Click to expand...

RF, I think the ad claim you noted was for us mortals, and simply describes the 5/8 wave height advantage over a 1/4 wave and a 1/2 wave mounted at the same feed point height ...like noted in the attached image below.

I think the only capacitor in this antenna is the 2.5" x 3/4" brass tube connecting the matching network to the base of the wire radiator in the schematic you noted.

Just my opinion.
 

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Marconi said:
RF, I think the ad claim you noted was for us mortals, and simply describes the 5/8 wave height advantage over a 1/4 wave and a 1/2 wave mounted at the same feed point height ...like noted in the attached image below.

I think the only capacitor in this antenna is the 2.5" x 3/4" brass tube connecting the matching network to the base of the wire radiator in the schematic you noted.

Just my opinion.
Click to expand...
the center section did not show continuity from one end to the other. if it was just a straight piece of wire it would have shown continuity.
 
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rumblefish said:
the center section did not show continuity from one end to the other. if it was just a straight piece of wire it would have shown continuity.
Click to expand...

If the antenna is as you suggest and good, then the object could be as you say.

I have a Solarcon version. I will check the middle section of my Imax.
 
Marconi said:
If the antenna is as you suggest and good, then the object could be as you say.

I have a Solarcon version. I will check the middle section of my Imax.
Click to expand...
If you have the same result that I did, we may have to take another look at this antenna.
I've noticed you have done your fair share of antenna modeling. I'm curious as to how this capacitor affects the radiation pattern. I always assumed the center section was just a straight piece of copper. I was very surprised when a continuity check showed there wasn't any. At first I thought maybe I broke it taking it down. I crossed my fingers and put it back up on the mast. It's performing very well. Thank you for your input on this marconi.
 
Marconi said:
If the antenna is as you suggest and good, then the object could be as you say.

I have a Solarcon version. I will check the middle section of my Imax.
Click to expand...
I have a friend who had an Imax fall and break the center portion. He confirmed there was a capacitor in the center of the 8' of wire and I presume it's more for high voltage isolation than performance, - but I could be wrong about that.

I expect the value to be so large that it shouldn't have much effect at all on the correct length of a 5/8 wave wire.

OH! I just found this: IMAX
I've read it before but so long ago I forgot.
 
Needle Bender said:
I have a friend who had an Imax fall and break the center portion. He confirmed there was a capacitor in the center of the 8' of wire and I presume it's more for high voltage isolation than performance, - but I could be wrong about that.

I expect the value to be so large that it shouldn't have much effect at all on the correct length of a 5/8 wave wire.

OH! I just found this: IMAX
I've read it before but so long ago I forgot.
Click to expand...
I'm thinking they put the coupling capacitor in there to raise the current higher on the antenna. That should in theory put more of the radiated signal on the horizon. I've scoured the internet looking for this antenna properly modeled with the coupling capacitor. All I can find is it modeled as a simple 5/8 wave. The downloadable enzec software online won't allow me to do this. I was just hoping someone on this forum could help me model this particular antenna. 73
 
rumblefish said:
I'm thinking they put the coupling capacitor in there to raise the current higher on the antenna. That should in theory put more of the radiated signal on the horizon. I've scoured the internet looking for this antenna properly modeled with the coupling capacitor. All I can find is it modeled as a simple 5/8 wave. The downloadable enzec software online won't allow me to do this. I was just hoping someone on this forum could help me model this particular antenna. 73
Click to expand...

The current distribution of a 4 pF capacitor put in the middle of a .64 wavelength vertical ground plane antenna. Someone above suggested the 4 pF size, I used that as no one had the data the I asked for above.

model.jpg



The DB
 
Thank you DB. I appreciate your time. I'm not sure what to make of it though. It doesn't look good. I can't imagine how bad the radiation pattern is. I must be miles off on the cap value.:oops:
 
When it comes to inductors and capacitors in an antenna (assuming series connection of said devices), the devices are opposite in more ways than many people realize. One of those ways is how they provide a low impedance (or effectively AC resistance) to an RF signal. With inductors, low impedances come with low inductance values. Capacitors are the opposite of this, high values present lower impedances, the higher the better.

To give you an example of how high of a value we are talking about to get a lower impedance, I did the same model above with 1000 pF (indead of the 4 pF used in the image above), while gain went up slightly, the pattern is about the same, and the current distribution is near as makes no difference to the the image above. To get significantly less signal attenuation at this frequency range through the capacitor, you need one that is so prohibitively large in the real world that it isn't worth the effort.

Another thing that few people take into consideration is how sensitive an antenna is to a given amount of inductance and capacitance changes with frequency. Higher frequencies are more sensitive to capacitance, while lower frequencies are more sensitive to inductance. The CB band is low enough in frequency that it is far more sensitive to changes in inductance in an antenna than it is capacitance.


The DB
 
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