Eddy, If you haven't already, you might want to take a look at Rudy Severns' site (http://www.antennasbyn6lf.com/). A bit of reading will answer some or most of your questions. It's been a few years since I studied his material--the 160m inverted-L I build then embodied many of his findings and suggestions. As I remember, he found very little difference in the performance of radials an inch off of the ground and radials 10 feet in the air.
As for the appropriate number, you can use two if you won't mind having a less than circular pattern. The problem with having two, four, or even eight is that it's more difficult to distribute current among them. I use four radials elevated ten feet above ground. I've never measured current in each of them, but I have noticed that the antenna does better in some directions than others. As for the optimum height... I've built elevated radial antennas with the radials 15 feet above ground. My minimun height would be 10 feet, which is high enough to avoid garroting my XYL when she mows the field with our tractor. The one inch height that Rudy mentions resolves a technical issue, but it's impractical from the point of view of the guy who has to maintain them. I don't connect the ground rod to the base of the antenna, because I understand that an earth ground at this point would affect the pattern and make it change behavior seasonally. The antenna's fed with a 2.23:1 balun, which provides a near 1:1 match to 50 Ohm coax and a DC connection from the vertical element to the coax shield. The ground rod wire comes up the post on which it's mounted and extends to within 1/16th of an inch of the 4-gauge wire ring to which the radials are connected. The coax is connected to the antenna switch about 200 ft away and attached to the ground system there. (The entire run of coax is buried in PVC conduit.) Just a few thoughts.... Brad KV5V On Fri, Mar 1, 2013 at 8:51 AM, Eddy Swynar <[email protected]> wrote: > Hi Guys, > > Forgive me, please, if I'm re-hashing a bit of the "...same-old, same-old" > here, but I am really curious as to any "real world" experiences that might > be out there in the matter of elevated radials, vs. those that are simply > laid atop the ground... > > My arthritic knees here are making the chore of rolling, & unrolling, my > seasonal 24-radials-per-"L"-element radials (I have THREE of them here!) just > that, i.e. a VERY painful chore...and barring the possibility of there being > a new "bionic" knee replacement(s) in my future, pray tell me: > > (A) Is it true that a couple of elevated radials are just as effective as the > "optimum" amount of buried ones...? > > (B) What is the "ideal" number of elevated radials that one should use...? > > (C) How many elevated radials are "just enough"...? > > (D) How high should these radials be...? > > (E) Would it be a requirement that I raise the feedpoints of my "L's" to the > same height as the elevated radials, or can I simply leave the bases where > they are now (at ground level) & simply slant the radials upward with no > effect upon performance...? > > (F) Is it OK to bend the elevated radials to fit property allotments...? > > (G) What is the desirable length of an elevated radial...? > > (H) Should any existing connections to real earth at the base of the "L's" > (i.e. a ground pipe) be completed severed with a system of elevated > radials...? > > This morning I happened to work a NJ station with elevated radials that > almost pegged the S-meter on my 751A---the short distance between us > notwithstanding, obviously something was working very well for him there! > > Thanks in advance & my vy > > ~73!~ de Eddy VE3CUI - VE3XZ > > > _________________ > Topband Reflector _________________ Topband Reflector
