|
|
"3 out of 4 people surveyed, belong to 75% of the population." "Steveo" wrote in message ... Keith Hosman KC8TCQ wrote: Steveo wrote: Frank Gilliland wrote: In , Steveo wrote: Telescopic!! Why didn't I think of that!? It would be multi-banded since you could just extend it more the lower you went in frequency. It's gonna take quite an off-set under the body panel to hold it all. :-) How about a really long door-spring with tubing in the center that is connected to a pump, so the antenna can be softened or stiffened as needed? Just give the pump a few strokes and it rises to it's proper operating length..... How about an auto tune option that would self pump..mo money! sounds like the 11m screwdriver antenna Did it work for you? I have never tried one, hell I don't even have an operable CB right now, I have several old Johnson radios I am restoring, and President Lincoln that I picked up at a flea market that is a 10m rig that was moded for 11m that I am building a transverter for 6m to go along with it. I might pick up an older Unident Grant or an older 148 GTL. -- -- KC8TCQ remove "nospam" from email to reply |
"Frank Gilliland" wrote in message ... It gives a good idea of the field pattern where it matters. How many aeronautical CBers do you talk to in any given year I've been out of town for the past few days and was unable to respond right away. Anyhow the takeoff angle is of great interest for DX work.Its the pattern for the main lobes in the antenna pattern that is of interest. Too high, or too low, and the skip distance is not optimum. Doing field strength measurements as you outline is fine if all you're interested in is local contacts. For DX work you have to have a better idea of the over all antenna radiation pattern, i.e. a 3D plot. That you can't get with your simple method. I also take issue with your posted link dealing with antenna resistance values. You can't calculate so simply. The reason being is the antenna current is a "standing wave" on the antenna element(s), thus the current is not evenly distributed. The areas were you have the most lost is where the current is highest. Going through the math I come up with around 4.655 ohms compared to your 9.31 ohms. It is still high, but not as bad as the number you came up with. Other current distributions, from loading coils etc, will result in other values. The comments about a 1/4 wave whip being the "best" antenna I'm not so sure about. I would tend to say that some of the CBer's may have a point when they claim otherwise. There are two items to consider. One is total over all antenna efficiency. Second is signal strength at the RX station location. While the 1/4 wave whip may be an efficient antenna, radiating just about every watt fed in to it, but if it does so at high angles relative to horizontal then its nothing but an efficient cloud warmer. Now if you have an antenna much less efficient than the 1/4 wave whip, but just about every watt radiated is done so at a very low angle relative to the horizontal the signal strength at the RX station location is maximized. It there for becomes conceivable that an antenna design that is not "efficient" as a 1/4 wave whip yet in the area of interest, signal strength at the RX location because the take off angle is much better, could be a better antenna. I know a while back this point came up and some of the CBers had some interesting measurements that tend to confirm such a thing can happen. -- Leland C. Scott KC8LDO Wireless Network Mobile computing on the go brought to you by Micro$oft |
| All times are GMT +1. The time now is 08:09 AM. |
Powered by vBulletin® Copyright ©2000 - 2025, Jelsoft Enterprises Ltd.
RadioBanter.com