I found these formulas somewhere on the net:
492/fo MHz = The length (feet) of a half wavelength dipole in free space.
The specifications call for multiplying the above result by a correction factor read from a graph which is based on the ratio of the length of the half-wavelength to the diameter of the radiating element.
All the correction factors appear to be less than 1.0 which would shorten the overall length of the radiating elements.
The result would further be shortened by the planned space between the 2 radiating elements (.25 inches) and then divided by 2 to the the length of each element.
Does this sound correct?
Does it matter if the radiating elements are solid copper or hollow pipes?
Half-Wave Antenna Questions...
Moderators: Sir Nigel, Nina, pcs, 5r, phpBB2 - Administrators
Double edged Sword question
r u posting a lecture or are you really sincere in acquireing knowledge?
Well allow me to include one important factor that seems to be a variable..It is called 'SKIN' effect of Radio Frequency Currents flowing thru a Conductor of various Diameters versus the Frequency of the waves
Well allow me to include one important factor that seems to be a variable..It is called 'SKIN' effect of Radio Frequency Currents flowing thru a Conductor of various Diameters versus the Frequency of the waves
Re: Double edged Sword question
Rest assured that I'm in it for the knowledge. I don't have the time nor the inclination to lecture the dwellers of this board on things I know very little about.Storminorm wrote: r u posting a lecture or are you really sincere in acquireing knowledge?
Well allow me to include one important factor that seems to be a variable..It is called 'SKIN' effect of Radio Frequency Currents flowing thru a Conductor of various Diameters versus the Frequency of the waves
This "skin" effect sounds interesting. Where can I go to read about it?
Re: Double edged Sword question
I found a couple of articles on the net about it.Fission7x wrote:This "skin" effect sounds interesting. Where can I go to read about it?
Seems like a hollow radiaiting element is actually better than solid one! Thanks for help!
THE K- FACTOR
Determining Your Proper Length for the Open Half-Wave Dipole Antenna
This webpage uses 2 formulas designed for half wavelength antennas (which includes the open half-wave dipole) resonating above 30 MHz.
If you take your time, follow the steps, and go back through certain steps that you do not understand...I am sure you will make out fine. So, without further ado, let's begin...
FORMULA I
492/MHz = The length of a half wavelength (feet) in free space
FORMULA II
K = The length of a half wavelength (in feet) in free space to the diameter of the radiating element(s) (conductor) used for the antenna.
Formula I states how long the half wavelength is to be, for your particular transmitting (resonating) frequency. Formula II accounts for the diameter of the conducting rod, used in making the antenna. With both Formulas taken into account, the final lengths will be a very close approximation of having the antenna resonate at the designated frequency.
Iusing the two formulas will give one example on how to derive the final answer, in stated aboveshould have no trouble in . Once you have understand the example, you finding the lengths of each of your rods for the dipole antenna.
The following example will will determine your rod length in decimal form. Once that is achieved, we will then change the decimal form into a fractional form. This way, it will then be easier to use a typical measuring tape; because typical measuring tapes are sectioned off in fractions of an inch.
Let's say that you wanted to transmit on 87.7 MHz, using a rod that has a diameter of 1/2 (.5") inch.
Step 1 CLICK ON THE LINK BELOW FOR MORE INFO
http://braincambre500.freeservers.com/O ... lation.htm
-
- Compulsive poster:)
- Posts: 111
- Joined: Mon Mar 15, 2004 12:21 pm
- Location: Entering The Flags...but simply an arm wielding a sword signifying power
SKIN EFFECT "TEORY"
f we feed exactly equal and opposite current into the coax, currents have no choice but to flow INSIDE the cable shield! The outermost conductor can be treated as a single wire, since everything else is "hidden inside". There will be no "extra" current to flow over the outside of the shield. Because of this rule, we do not need to ground the shield to prevent radiation. The trick here is we need to have equal and opposite currents. When the shield has potential difference along the length we can greatly reduce outside currents by making the outside of the coax have a high impedance. (BALUN CONCEPT) We can do this by selecting a proper cable length, by adding sleeves of soft-iron magnetic materials or winding the cable in a coil with or without a core to form a choke. Skin depth prevents the inside of the cable from "seeing" what is done on the outside.
http://www.w8ji.com/coaxial%20currents/ ... _wires.htm
http://www.w8ji.com/coaxial%20currents/ ... _wires.htm