Difference between revisions of "Tonsoffun"
From The RadioReference Wiki
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This Log Periodic beam is very easy to build yourself with the available material at your local hardware store. The design is from a Haruteq Scanner Book I had and decided to give it a try. It works great on all scanner bands when you need to pin point and maximize your signal. The design shown is uni-directional and suitable for mounting on a tower or mast with a rotor to change it's listening area whenever you like. | This Log Periodic beam is very easy to build yourself with the available material at your local hardware store. The design is from a Haruteq Scanner Book I had and decided to give it a try. It works great on all scanner bands when you need to pin point and maximize your signal. The design shown is uni-directional and suitable for mounting on a tower or mast with a rotor to change it's listening area whenever you like. | ||
| − | The specifications shown for the LP has an overall gain of about 8 to 10dB from about 130 Mhz to 900 Mhz, and has a 50 Ohm impedance. Below 130 Mhz it actually performs quite well on local signals and strong skip, although no miracles can be expected. | + | The specifications shown for the LP in the book has an overall gain of about 8 to 10dB from about 130 Mhz to 900 Mhz, and has a 50 Ohm impedance. Below 130 Mhz it actually performs quite well on local signals and strong skip, although no miracles can be expected. |
Parts you need to make this antenna: | Parts you need to make this antenna: | ||
| + | |||
* Two lenghts of aluminum (#1 on drawing below)to make the boom (preferably square or even angle) 1 meter long (3' and a bit)and diameter about 1/2" to 3/4". | * Two lenghts of aluminum (#1 on drawing below)to make the boom (preferably square or even angle) 1 meter long (3' and a bit)and diameter about 1/2" to 3/4". | ||
* Antenna elements should be about 3 to 4mm (about 1/8") Strong enough that the wind can not bend it. The elements that I put on were 1/4" aluminum to make it really beefy. All together you are going to need about 6 m (20')of the element material. | * Antenna elements should be about 3 to 4mm (about 1/8") Strong enough that the wind can not bend it. The elements that I put on were 1/4" aluminum to make it really beefy. All together you are going to need about 6 m (20')of the element material. | ||
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* Pieces of wood or plexi glass to keep the booms seperated | * Pieces of wood or plexi glass to keep the booms seperated | ||
* Small wire to jumper the back of the LP | * Small wire to jumper the back of the LP | ||
| − | * Some very good coax to hook up to your scanner | + | * Some very good coax to hook up to your scanner. On the drawing it shows rg-8m but I used LMR-400 |
| + | |||
| + | The 17 elements on both sides of the beam (34 all together should be spaced along the boom in such a way that the shorter ones are a little closer together than the longer ones and the ends should almost form a straight line. Mount the elements on the boom by drilling holes into the aluminum tubing or angle. Get as snug a fit as possible for proper contact. If they are loose after inserting them into the holes you drilled, tightly wind some copper wire around the connections making sure the wires makes contact with both the element and the boom. You can cover it with some epoxy to keep it in place if needed. | ||
| + | |||
| + | For my antenna I actually threaded the ends of all the 1/4" elements about 1/2" to 3/4" of thread on the end of the aluminum rods so I can put them through the angle boom (or tubing) and bolt the elements in place. One nut above, then the nut on the bottom with some Loc Tight on both nuts. | ||
| + | |||
http://i21.photobucket.com/albums/b287/tonsoffun26/LogPerodic.jpg | http://i21.photobucket.com/albums/b287/tonsoffun26/LogPerodic.jpg | ||
Revision as of 19:54, 21 February 2008
This Log Periodic beam is very easy to build yourself with the available material at your local hardware store. The design is from a Haruteq Scanner Book I had and decided to give it a try. It works great on all scanner bands when you need to pin point and maximize your signal. The design shown is uni-directional and suitable for mounting on a tower or mast with a rotor to change it's listening area whenever you like.
The specifications shown for the LP in the book has an overall gain of about 8 to 10dB from about 130 Mhz to 900 Mhz, and has a 50 Ohm impedance. Below 130 Mhz it actually performs quite well on local signals and strong skip, although no miracles can be expected.
Parts you need to make this antenna:
- Two lenghts of aluminum (#1 on drawing below)to make the boom (preferably square or even angle) 1 meter long (3' and a bit)and diameter about 1/2" to 3/4".
- Antenna elements should be about 3 to 4mm (about 1/8") Strong enough that the wind can not bend it. The elements that I put on were 1/4" aluminum to make it really beefy. All together you are going to need about 6 m (20')of the element material.
- U-clamp (#3 on the drawing)
- Pieces of wood or plexi glass to keep the booms seperated
- Small wire to jumper the back of the LP
- Some very good coax to hook up to your scanner. On the drawing it shows rg-8m but I used LMR-400
The 17 elements on both sides of the beam (34 all together should be spaced along the boom in such a way that the shorter ones are a little closer together than the longer ones and the ends should almost form a straight line. Mount the elements on the boom by drilling holes into the aluminum tubing or angle. Get as snug a fit as possible for proper contact. If they are loose after inserting them into the holes you drilled, tightly wind some copper wire around the connections making sure the wires makes contact with both the element and the boom. You can cover it with some epoxy to keep it in place if needed.
For my antenna I actually threaded the ends of all the 1/4" elements about 1/2" to 3/4" of thread on the end of the aluminum rods so I can put them through the angle boom (or tubing) and bolt the elements in place. One nut above, then the nut on the bottom with some Loc Tight on both nuts.
