Difference between revisions of "How to Make a Dipole Antenna"

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:This DIY FM antenna project is inexpensive and takes roughly an hour to assemble. The resulting antenna is very efficient and puts out a strong, clean signal. It can also be mounted either indoor or outdoor -- it's waterproof, too! A PDF version of this how-to is available here: [[Media:Dipole_antenna.pdf dipole_antenna.pdf]]
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:This DIY FM antenna project is inexpensive and takes roughly an hour to assemble. The resulting antenna is very efficient and puts out a strong, clean signal. It can also be mounted either indoor or outdoor. A PDF version of this how-to is available here: '''[[Media:Dipole_antenna.pdf]]'''
  
 
'''Materials'''
 
'''Materials'''
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[[File:Ant-1.png | center]]
 
[[File:Ant-1.png | center]]
  
:3. Measure and cut the wire exactly in half so you have two identical lengths.
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:3. Measure and cut the wire '''exactly''' in half so you have two identical lengths.
  
 
:4. Decide on the frequency of your FM station. Then use the following formula to determine the length of each of the half pieces in inches: 2803/frequency in mhz. Example: suppose your station will be transmitting on 87.9mhz: 2803/87.9 = 31.888 inches (31-7/8” is close enough).
 
:4. Decide on the frequency of your FM station. Then use the following formula to determine the length of each of the half pieces in inches: 2803/frequency in mhz. Example: suppose your station will be transmitting on 87.9mhz: 2803/87.9 = 31.888 inches (31-7/8” is close enough).
  
:5. Don’t cut, but mark this length on each half using a Sharpie measuring from the loop end. This is the ideal radiating element length for your chosen frequency. Make a 90 degree bend in both wires at exactly that point.
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:5. Don’t cut, but mark this length on each half using a Sharpie measuring from the loop end. This is the ideal radiating element length for your chosen frequency. Make a 90 degree bend in both wires at '''exactly''' that point.
  
 
:6. On a small piece of perf board, plastic or other strong, non-electrically conductive material that’s narrow enough to fit through the PVC pipe, drill a row of four small holes just large enough for the wire to fit through, and place them close together – no more than ¼” apart.
 
:6. On a small piece of perf board, plastic or other strong, non-electrically conductive material that’s narrow enough to fit through the PVC pipe, drill a row of four small holes just large enough for the wire to fit through, and place them close together – no more than ¼” apart.
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:9. Clip off one of the end connectors from the TV coax cable, strip down the insulation and separate the center wire from the outer “ground shield” wire. Make sure the shield wire does not touch the center wire.  
 
:9. Clip off one of the end connectors from the TV coax cable, strip down the insulation and separate the center wire from the outer “ground shield” wire. Make sure the shield wire does not touch the center wire.  
  
:10. Solder the center coax wire to one of the wires and the ground “shield” wire to the other. It doesn’t matter which is which, although the side that connects to the center wire will be the “top” of the antenna if the antenna is mounted vertically (preferred!). Note: to prevent against accidental shorts, you may want to use shrink-tubing to insulate the center wire from the shield wire.
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:10. Solder the center coax wire to one of the wires and the ground “shield” wire to the other. It doesn’t matter which is which, although the side that connects to the center wire will be the “top” of the antenna if the antenna is mounted vertically (preferred!). Note: to prevent against accidental shorts, you may want to use shrink-tubing or electrical tape to insulate the center wire from the shield wire.
 
[[File:Ant-4.png | center]]
 
[[File:Ant-4.png | center]]
  
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::[[File:Ant-6.png | center]]
 
::[[File:Ant-6.png | center]]
  
:15. Loop the zip tie through the hole in the washer, down into the pipe, through the loop in the cable and back out through the washer. Then loosely tighten the zip tie so there’s some play. Do the same with the other end. (Note: the washer isn’t a necessity and you could certainly drill holes in the PVC end caps instead, although this may allow rainwater to seep in and create a problem for an antenna that’s mounted outdoors.  
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:15. Loop the zip tie through the hole in the washer, down into the pipe, through the loop in the cable and back out through the washer. Then loosely tighten the zip tie so there’s some play. Do the same with the other end. (Note: the washer isn’t a necessity and you could certainly drill holes in the PVC end caps instead, although this may allow rainwater to seep in and create a problem for an antenna that’s mounted outdoors.)
 
[[File:Ant-7.png | center]]
 
[[File:Ant-7.png | center]]
  
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[[File:Ant-11.png | center]]
 
[[File:Ant-11.png | center]]
  
:20. You may be able to increase the efficiency of your dipole antenna by affixing a choke core balun around the coax cable. You should place it as close as possible to the center junction and it will fit quite nicely inside the short PVC pipe that comes out of the “T” connector.
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:20. You may be able to increase the efficiency of your dipole antenna by affixing a choke core balun around the coax cable. You should place it as close as possible to the center junction and it will fit quite nicely inside the short PVC pipe that comes out of the “T” connector. The radiation pattern of a dipole antenna mounted vertically is horizontally omni-directional, much like the shape of a donut.
  
:21. After you test your antenna, if you plan to put the antenna outdoors, you may wish to use PVC cement to make joints permanent. Alternately, you may use just a small bit of silicone glue around the joints to make the antenna truly waterproof yet still easy to dismantle.
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:21. After you test your antenna, if you plan to put the antenna outdoors, you may wish to use PVC cement to make joints permanent. Alternately, you may use just a small bit of silicone glue around the joints to make the antenna truly waterproof yet still easy to dismantle. Note: transmitting antennas always work better when mounted outdoors!
  
:22. REMINDER: your transmitter is always sending out a signal when it’s powered up. Be sure to power it off BEFORE you disconnect the antenna or you may damage the transmitter’s final amplifier circuit.
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:22. '''REMINDER: your transmitter is always sending out a signal when it’s powered up. Be sure to power it off BEFORE you disconnect the antenna or you may damage the transmitter’s final amplifier circuit.'''

Latest revision as of 06:21, 24 July 2020

This DIY FM antenna project is inexpensive and takes roughly an hour to assemble. The resulting antenna is very efficient and puts out a strong, clean signal. It can also be mounted either indoor or outdoor. A PDF version of this how-to is available here: Media:Dipole_antenna.pdf

Materials

• 1 - 6’ length steel cable. (Romex® cable or other stiff copper wire also works fine)
• 1 - 8’ length 1” PVC pipe
• 1 - PVC 1” T- connector
• 2 - PVC 1” end caps
• 1 - PVC 1” 90-degree corner connector
• 2 - 8” or longer zip ties
• 1 - 2”section of perf board or other piece of plastic or non-electrically conductive material
• 2 - 1” diameter washers (same diameter as PVC pipe. The hole in the washer must be smaller than the locking end of a zip tie yet large enough for the flat zip tie to fit through.
• TV coax extension cable (with connectors) in the length you’ll need from your transmitter to the antenna.
• Optional: 2-3” of shrink tubing (or electrical tape)
• Optional: 2 pipe clamps (to fit around the PVC pipe for wall mounting)
• Optional: choke core balun to fit the coax cable
• Optional: PVC cement or silicone glue

Step-by-step directions

1. If you’re using steel cable, skip to step #2. If using Romex® cable cut a piece of 3-conductor Romex® cable about 6’ long. Romex® cable is the kind of wire used by home builders when installing the electrical wiring in a home. Any gauge is fine. Strip the bare ground wire out – it’s the only wire you need.
2. Make a small loop in each end, about ½” across. Either solder the loop wires together or tightly twist the wire so it will not come apart.
Ant-1.png
3. Measure and cut the wire exactly in half so you have two identical lengths.
4. Decide on the frequency of your FM station. Then use the following formula to determine the length of each of the half pieces in inches: 2803/frequency in mhz. Example: suppose your station will be transmitting on 87.9mhz: 2803/87.9 = 31.888 inches (31-7/8” is close enough).
5. Don’t cut, but mark this length on each half using a Sharpie measuring from the loop end. This is the ideal radiating element length for your chosen frequency. Make a 90 degree bend in both wires at exactly that point.
6. On a small piece of perf board, plastic or other strong, non-electrically conductive material that’s narrow enough to fit through the PVC pipe, drill a row of four small holes just large enough for the wire to fit through, and place them close together – no more than ¼” apart.
Ant-2.png
7. Insert the bent wires into the inside holes and bend them back out through the outer holes on each side.
8. Solder the wires together where the ends come out and cross; clip off the excess wire.
Ant-3.png
9. Clip off one of the end connectors from the TV coax cable, strip down the insulation and separate the center wire from the outer “ground shield” wire. Make sure the shield wire does not touch the center wire.
10. Solder the center coax wire to one of the wires and the ground “shield” wire to the other. It doesn’t matter which is which, although the side that connects to the center wire will be the “top” of the antenna if the antenna is mounted vertically (preferred!). Note: to prevent against accidental shorts, you may want to use shrink-tubing or electrical tape to insulate the center wire from the shield wire.
Ant-4.png
11. Extend the wires from the center junction and adjust them so they’re straight. Just eyeball it – no need to make them exact. At this point, you actually have a working antenna, but you’ll want to finish it off.
12. Insert the coax cable through an end of the PVC “T” connector and then out through the middle opening. Then push one end of the antenna wire all the way through the “T” connector and out the other side. Carefully pull the coax cable out the middle until the center junction fits into the center of the “T” connector so that antenna wires come out each end and the coax cable comes out the middle. Your result may not look exactly like this example, but it should give you a good idea of what the end result should be like. It’s perfectly okay if the center connector sticks out a bit from the “T” connector.
Ant-5.png
13. Mark the outside of the “T” connector with a pen or tape to tell which is the “TOP” end.
14. Measure a length of PVC pipe so that after being inserted over one of the looped antenna ends and into the “T” connector, it’s about 1” to 2” longer than the end of the wire. Do the same with the other end.
Ant-6.png
15. Loop the zip tie through the hole in the washer, down into the pipe, through the loop in the cable and back out through the washer. Then loosely tighten the zip tie so there’s some play. Do the same with the other end. (Note: the washer isn’t a necessity and you could certainly drill holes in the PVC end caps instead, although this may allow rainwater to seep in and create a problem for an antenna that’s mounted outdoors.)
Ant-7.png
16. You should have something that looks like the picture below. Now tighten each zip tie so that the center junction remains inside the “T” connector. When you’re done, the inside antenna wire should be taut -- not touching anything -- and held securely at each end with the washers flush against the ends of the PVC pipe. 
Ant-8.png
17. Slip a PVC end cap onto each end of the pipe. This will cover the washers and make the antenna virtually waterproof. Your antenna will look something like this:
Ant-9.png
18. With the remaining PVC pipe, cut two lengths about 6” long and push each into an end of the 90-degree PVC corner piece. This will become the antenna mounting post. Then slip the coax wire through it and push it into the open middle of the “T” connector. When done, your antenna will look similar to this picture:
Ant-10.png


19. Note the marking you placed on the “T” connector for the “TOP” and how the “post” points downward in the picture to the right. You can mount the two pipe clamps onto a wall in your garage or side of the house and slide the mount down into them. A dipole antenna works best when the antenna is mounted vertically, with the “top” upward and the “ground” side pointed toward the ground. Try to keep about 6” or more space between the vertical section and any walls for best performance.
Ant-11.png
20. You may be able to increase the efficiency of your dipole antenna by affixing a choke core balun around the coax cable. You should place it as close as possible to the center junction and it will fit quite nicely inside the short PVC pipe that comes out of the “T” connector. The radiation pattern of a dipole antenna mounted vertically is horizontally omni-directional, much like the shape of a donut.
21. After you test your antenna, if you plan to put the antenna outdoors, you may wish to use PVC cement to make joints permanent. Alternately, you may use just a small bit of silicone glue around the joints to make the antenna truly waterproof yet still easy to dismantle. Note: transmitting antennas always work better when mounted outdoors!
22. REMINDER: your transmitter is always sending out a signal when it’s powered up. Be sure to power it off BEFORE you disconnect the antenna or you may damage the transmitter’s final amplifier circuit.