How to build a Milk Crate AM Broadcast Loop Antenna

Many thanks to SWLing Post contributor, James Townley, who shares the following guest post originally posted on his Shortwave/Medium Wave blog:


540 kHz to 1700 kHz Loop Antenna (Click to enlarge)

AM Broadcast Loop Antenna

by James Townley

Several years ago, I became interested in medium wave DXing. One of my limitations was the size of my yard, so I developed an interest in tuned loop antennas to compensate, because setting up a beverage antenna was out of the question. I experimented with different sizes of loops, and found that the bigger the aperture, the more gain the loop would have. The tuned loop antenna is also very directional, which allows you to reject, or null out interference from either noise or other stations. Loops are considered bi-directional in that they receive to the front and back, but not to the sides. The tuned loop antenna quickly became my weapon of choice for medium wave DXing.

Recently when the weather began allowing me to enjoy the outdoors, I decided to make another smaller loop antenna from a plastic milk crate I had lying around. I saw the idea on the internet when I observed that someone had used a milk crate for their loop. Click here to see a variety of tuned loop antennas that others have made. Whichever material you decide to make your loop antenna from, just make sure that it is not a conductive material. Wood, plastic, and cardboard seem to be popular materials for loop making. In the photo above, I am using my Sony ICF-2010 to listen to WCCO on 830 kHz. This station is nearly 200 miles south of me, but I am able to receive it with 9 LEDs lit on my signal strength meter while using the loop. There is no direct connection of the loop to the radio, it is inductively coupling with the radio’s own ferrite rod antenna.

If you are interested in making a loop antenna like mine, here are the materials you will need:
120 ft of 18ga insulated wire (I bought a 100 ft spool of cheap speaker wire and pulled the 2 conductors apart):

1 – Plastic milk crate
1 – 15 to 365 pF air variable capacitor (found in many old radios, or a google search to buy one from an internet store)
1 – Tuning knob. Any knob will do as long as it fits the shaft on the variable capacitor.
1 – Tape or wire ties. I used tape to secure the wire while winding, then hot glue when finished.

When you begin to wind your coil, use tape or a wire tie to secure the wire, and leave about a foot of wire. This extra foot of wire will later be soldered to the frame on the capacitor. As you wind your coil, pull the wire snugly and with each turn leave about a quarter inch spacing between each turn. The spacing isn’t critical as long as the spacing is consistent.  I wound 21 turns on my crate. This may differ for you, depending on the size of your crate, or the value of you capacitor. If you find that the bottom frequency isn’t low enough, you can add more wire to make a few more turns. This will lower the bottom frequency for you.

After winding the coil, you can solder each end of the coil to your capacitor. The beginning of the loop gets soldered to the frame of the capacitor, and the other end of the coil to the rotor solder lug on the side of the capacitor. If you do not have a soldering iron, you can use alligator clips to connect your loop coil to the capacitor as well. I secured my capacitor to the inside corner of the crate with hot glue. I put a generous amount of the hot glue onto the bottom of the capacitor frame, and held it to the crate until the glue cooled enough for the capacitor to stay on it’s own. I used enough to get the job done, but not so much that it interfered with the plates in my capacitor. The hot glue seemed to adhere very well. I then checked the spacing of my coil turns, and secured them with the hot glue as well.

I was very impressed with the results after spending some time with the loop. It’s small enough to maneuver around easily, but big enough to give it some gain, so I can listen to daytime DX. I may make another tuned loop using two crates to see how much more gain I get with the larger aperture.

Happy DXing,
James Townley


Many thanks, James, for sharing your project with us! This loop appears to be relatively simple and accessible even to those with little knowledge of soldering or homebrewing. I’m now wondering how a loop made of four milk crates might perform!

Click here to view James’ Shortwave/Medium Wave blog.

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17 thoughts on “How to build a Milk Crate AM Broadcast Loop Antenna

  1. Chris Bright

    I wish I had discovered resonant loop antennas when I was younger. I made one quickly and cheaply using a cardboard box as a frame for the coil, and the variable capacitor was made from two sheets of aluminum foil each fitting in an A4 sized plastic pocket used in paper filing systems.

    Putting one pocket on top of the other and sliding it over the other varied the capacitance. Alligator clips connected the sheets to the loop.

    The loop is a 16 turn coil wound on a cardboard box 0.4 m square. The coil was made from odd lengths of wire connected together with terminal blocks to give a coil tapped at 2, 5, and 11 turns.

    I connected a 4 turn loop of wire into the coil to inductively-couple a radio to the loop.

    Excellent results! With the loop, Radio Caroline, 648 kHz over 130 miles away from my QTH in England, was heard clearly using the loop. Without the loop the station is barely audible.

    Spirit Radio from the Irish Republic broadcasting on 549 kHz over 200 miles away was heard clearly using the loop. Without the loop the station is barely audible.

    The station replied to my QSL and were interested and impressed with use of foil in plastic pockets for the variable capacitor.

    Chris

    Reply
  2. Andy

    All references to tuned loop antennas talk about no real connection to the AM radio, but merely inductive coupling. However, I made a very elementary crystal radio which has no ferrite core or antenna. I want this loop to be my primary (only) antenna, so I need to feed it directly to my tuning circuit. So I don’t know if I should take a wire from any particular part of the loop, with another wire to ground… and if these 2 wires should be in parallel or series with the tuning elements of the loop antenna. Thanks!

    Reply
  3. Frank

    Hi James,
    Yes, I have two as well by now, the “limited” one (no Air and, worse, no frequencies beyond 26100, but in top shape) and one “international” one, which is the one I carry around, it´s a little scratched but in good technical shape as well again. Tomorrow I´ll be at my old place where some old radio parts are still all kept from my younger years, I´ll take along the Sony and do the crate loop experiment tomorrow because there I have the parts such as a capacitor and speaker wires just like in your photos. One meter is quite large but my neighbors I know they have an old hoola hoop in their garage and I won´t be too scared to ask for it 😉
    Best DX!

    Reply
  4. Frank

    Thanks for this picture report repost, James 🙂
    Last night these photos have already and at last motivated me to refurbish my “international” 2010, a little, it had that “Energy 3 problem”, which a white eraser, slight contact bending by 1 mm and good screws-tightening has finally fixed. A good hour of (slow) work.
    I am now determined to build such a crate loop myself, for the 1600 khz pirates and the 160 m amateur band if possible.

    Reply
    1. James Townley

      Frank, That’s great to hear. I love the ICF-2010. I just acquired another 2010 to have as a back-up and for travel. They just don’t make them like that anymore.

      I have also used a 1 meter box loop with great success. I fed it directly to my receiver with a one-turn coupling loop to a twisted pair to the receiver. It’s so much fun to experiment.

      Happy DX,
      James Townley

      Reply
      1. Alex Hagerty

        James,

        I appreciate your post about the milk crate loop antenna. I’d like to build one, but could you elaborate for a beginning antenna builder your hook up to the set “with a one-turn coupling loop to a twisted pair to the receiver”?

        Thanks,
        Alex

        Reply
  5. Charles Hargrove - N2NOV

    To double the diameter of the milk crate loop, you would need 4 milk crates. First connect them firmly to each other using long/wide nylon tie wraps. Then you can hot glue along the seams, if you want, before starting the winding process.

    Reply
  6. Gary Donnelly

    You mention that you can add a few turns of the wire to tweak the LF response. How sensitive is the number of turns when dealing with LF ?

    Gary KC8IQZ

    Reply
    1. James Townley

      Hi Gary,
      There are formulas available to calculate the inductance needed, but I just experiment with the number of turns. I have found that depending on the upper and lower values of my variable capacitor, if I go with too many turns, I lose the upper end of the band.

      Reply
  7. Ron Ellwood

    This is a very old concept that has come back to life, With every man and his dog building loops these days, it is a real pleasure to see this method reinvented again and I hope it catches on with new SWLs as well as us ‘Crinklies’ Thank you.
    Ron GW1HIN Wales UK

    Reply
    1. Michael Black

      Yes, I’ve seen it before, except using a cardboard box. Not so good if using outside and it starts to rain.

      On the other hand, seeing the comment below about a larger loop, if you get a new large appliance there’s the box for a bigger loop. And you can sit inside the box with the radio, immersed in the stronger signals from the loop, and shade from the sun. Or if in Alaska, some level of shelter from the wind.

      Michael

      Reply

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