LOOP & FRAME AERIALS

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LOOP AERIALS And ATUs

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LOOP & FRAME AERIALS
and ANTENNA TUNING UNITS

LOOPS

A Loop or Frame aerial is a wonderful tool to assist longwave and mediumwave reception and, indeed, is absolutely essential for serious long distance reception (DX-ing).  Fortunately a loop aerial is extremely easy and cheap to construct, you may even have most of the parts required in your junk box.  I offer a few pointers to the construction of loop aerials below. 

ATUs
For good Short Wave reception long 'random wire' aerial really is required to dig those distant stations out of the ether.  To effectively couple such an aerial to a radio a matching unit called an ATU (Antenna Tuning Unit) can be extremely helpful.  An ATU is relatively straightforward to construct and uses simple parts that are quite easy to obtain.  Go to the ATUs page for a few pointers.

LOOP AERIALS

A loop aerial is extremely helpful when trying to receive long distance stations, not only will it dramatically 'boost' the signal received compared to using a portable radio's internal ferrite rod aerial because a loop aerial is much bigger than a ferrite rod, but it also has two other very useful properties:  Directivity and Selectivity.  Directivity is very useful in that it can often be used to 'null out' an interfering station and selectivity is useful to overcome overloading of the radio's 'front end' as the loop will tune very sharply to the required frequency will rejecting all others.

A loop can be made for Medium Wave and Long Wave and can be of almost any size you wish, though it must be small enough to fit in your listening room.  The bigger the area of the loop the more signal it will collect, the portable loop described below is around 40 cm in diameter and is probably the smallest size worth considering to be effective and useful.

Portable MW Loop

The portable loop in use, the portable radio is simply placed into the centre of the loop and the signals collected are inductively coupled to the internal ferrite rod antenna of the radio	Traditionally loop aerials have been made on large frames about 1 meter square for use with communications receivers, however the loop shown to the left is much smaller at 40cm (17") and designed for use with a portable radio.  The radio is simply placed in the middle of the loop and the signals collected are transferred to the radio via its internal ferrite rod aerial. The circuit for a loop aerial could not be simpler, being a spiral loop consitsting of 10 turns* of 7/0.2mm 'hook-up' wire wound on the 40cm former, and a tuning capacitor to resonate the loop aerial at different frequencies.  (*about 40 to 50 turns for Long Wave). If it is required to connect the loop to a radio via its aerial input terminal then a second winding of just 1 turn of wire is wound over the main 10 turn winding.  This secondary winding acts as a coupling coil that is connected to a suitable socket so that a cable can be run from the loop aerial to the radio receiver.
The circuit diagram of the loop showing the 10 turn main winding (100uH) and the tuning capacitor, together with a second capacitor that can be switched into circuit to provide tuning of the lower frequencies of the medium wave band.  The second 1 turn coupling winding allows direct connection to the aerial terminals of a receiver. For Long Wave reception about 40 to 50 turns may be required.	The circuit diagram on the left shows the main loop winding of ten turns (100uH) and the variable capacitor which tunes the loop aerial to the required frequency.  Ideally the tuning capacitor should have a value of 700pF to cover the whole of the medium wave band. However standard 500pF tuning capacitors seem to be more widely available and will generally tune the medium wave band from around 700 kHz to 1600 kHz with a 10 turn winding.  To Tune the lower portion of the band a second capacitor can be switched into the circuit to provide the increased capacity required.  The second capacitor can be in the form of a variable trimmer that can be pre-set to the required value, usually around 200pF.  The second capacitor could be another tuning capacitor (as shown in the diagram), but that could be rather expensive.  Alternatively a fixed capacitor could be used, the best value determined after a little experimentation.  The second coupling winding is of one turn and allows the aerial to be direcly connected to any radio with antenna terminals or and aerial socket.
Scanned in below are my notes for the construction of the portable loop.  The former of the loop was made out of 'Trent' plastic edge strip that was available from my local DIY store.  This edging is about 20mm wide with a 6mm channel, though any similar edging or plastic product such as curtain track, perhaps, could be used.  The strip is bent into a circle of 40 cm in diameter with the channel on the outerside and fastened to a wooden block with some large head screws.  The 10 turns of 7/0.2mm hook up wire are carefully wound side by side around the former and connected to the tuning capacitor.  I used red strip and blue wire to be colourful.  The single turn coupling winding is wound next to the main winding and connected to the output socket.  I simply used a 3.5mm jack socket as this is the same as on a Sony portable radio, though any coaxial socket could be used such as Belling Lee or PL259 etc. The loop and wooden block are fixed into a suitable plastic box of about 150mm x 100mm x 60mm, the wooden block and heavy tuning capacitor adding weight to aid stability.  A suitable box would be BOX034 from Bowood Electronics.
Drawing showing the external appearance of the Portable Loop Aerial
Drawing showing how the loop is fixed to a wooden block and secured into the enclosure
Internal photo of loop aerial showing air-spaced Tuning Capacitor (bottom left), Range Switch (top left), Output Socket (top), Wooden Block to which the loop former is attached (centre). [Note the 3.5mm jack socket on the back panel (top right), this is for a crystal earphone as this loop is also a portable crystal set - see below]
A suitable box with cut-outs to accommodate the entry of the loop into the box and holes for tuning capacitor, switch and output socket.
A solid Dielectric Jackson type tuning capacitor can simply be mounted through the front of the box and held in place with the brass nut.	A traditional air-spaced tuning capacitor can be glued to a wooden block using Araldite which is then screwed to the bottom of the box.
Connecting a loop to a radio receiver or Hi-Fi tuner
Crystal Set Loop! The circuit diagram above is an interesting modification to the loop aerial, and can be made to any loop aerial.  With the addition of a germanium diode (not silicon)such as an OA81, OA91 or OA47, a 47k ohm resistor and a crystal earphone, the loop aerial becomes a portable crystal set which is quite effective given sufficient signal strength at your locality.
The Portable Loop in use!	The photo on the left shows the finished loop in use, in this case merely placing the radio inside the loop will obtain much improved reception! The loop is tuned to the required frequency with the tuning knob which will really peak up the reception.  Rotating  the loop will maximise the signal strength &/or minimise co-channel or adjacent channel interference for clearer reception. Using this loop I can hear distant local stations that would otherwise be completely impossible to receive and it helps improve reception on all other weak stations.  It's a nice little project that produces a really useful listening aid. Once you've built this little beauty you may want to try something a bit bigger. Traditional loop aerials were built on a large wooden frame, about 1 meter across, and it is quite easy to make one, especially if you are handy with a few simple woodworking tools.  The information below gives a few tips.  Essentially a big loop is just the same as this portable loop but bigger, so make sure you have room - and permission!

MW and LW Frame Aerial

Constructional details	The illustration opposite was taken from a very old listening guide and shows the basic method of constructing a large frame for a bigger loop aerial.  It is 40 inches (100cm) square and made of wood with the loop windings wound over the four plywood 'paddles.  I have tried this method and it works very well. Certainly the increased surface area really improves signal pick-up and is ideally suited to 'communications' receivers. I have also experimented with different shapes, since 40 inches (100cm) can be a bit too wide for some small rooms.  My favourite is taller than it is long and is hexagonal in shape being 150cm tall and 70cm wide. For Medium Wave reception 9 turns are required for the main winding.  A swiched capacitor to extend the tuning range could also be included if the tuning range is found to be too small. Long Wave reception about 30 turns are needed.  The coupling winding is 1 single turn.
A Long Wave Loop Aerial	The photo on the left shows a Long Wave loop aerial.  The windings are wound over the 'paddles' described above and consist of 31 turns plus the one coupling turn. The frame is made from broom handles which are joined together using halving joints and a screw.  The base is used for this aerial and a Medium Wave loop aerial and is made from an offcut of kitchen worktop which is dense and heavy.  A block is screwed to the base with a hole bored in it to suit the diameter of the 'broom handle' frames. The tuning capacitor, switch and sockets are neatly housed in a plasic encloseure of the same type as the one used for the portable loop described above. This Long Wave loop is only 55cm wide and is easily accommodated in a small 'box room'.
A close up photo showing the 'control box' and the joint of the broom handles that for the frame.  The loop windings which are first taken to a tag-strip and soldered in place before the wires are taken into the control box, this help keep the windings taught. The circuit for this loop is the same as for the portable loop above except for the addition of a variable 1k resistor across the coupled output to act as a simple attenuator. Diagram of Long Wave Loop Band Coverage Two separate frame aerials will be needed to cover both Long Wave (150 to 280 kHz) and Medium Wave (510 to 1620 kHz). With the medium wave aerial the band wave may possibly need to be covered in two parts by either having 2 tuning capacitors wired in parallel (depending on their value), or by having one tuning capacitor (of about 500pF) and a fixed capacitor that can be switched in to circuit (wired in parallel) to cover the lower part of the band.  As described in the portable loop above. To get the correct coverage the trick is to set your tuning capacitor to minimum value (vanes open) and adjust the number of turns of wire wound around the frame until the top of the band (1620 kHz) can be exactly tuned in.  Then see how far down the medium wave band you can tune, it may only be down to 700KHz or 800 kHz for example.  Then you will need to experiment with the value of the fixed capacitor that you will switch into the circuit - this maybe somewhere between 200pF and 600pF (ish) but only with careful experimentation will you find the exact value for your particular loop that enables tuning down to 510 KHz. Above:  Photo of a frame aerial sent in by an MDS975 reader - A very fine example! So there you are - LOOP AERIALS - cheap and very easy to make.  The portable loop certainly looks the part, being very neat and tidy.  The larger  frame aerials are by their very nature more obtrusive, but can be even more effective at collecting radio wave energy due to their extra size.  If construction is kept neat and tidy with the rough edges rounded off and the controls housed in a neat box a big loop need not be a major eye-sore. Good Luck with YOUR loop aerial and happy LW and MW DX-ing! Next I'll take a look at Antenna Tuning Units which will help match your long random wire aerial to your radio.  ATU's, as they are known, will help with Short Wave reception as well as Long and Medium Wave too: To ATU's (ANTENNA TUNING UNITS)
AN INCONSPICUOUS LOOP AERIAL An Interesting Loop Aerial Idea by Alberto San Juan who writes: I like very much your web page (radio section), being very helpful to me. I also have a Lowe HF-150 and have installed my loop antenna around the small chest of drawers next to my desk, as you can see from the photograph below. This method of construction has many advantages: No big frames on your table. Strong support, so it never falls over. Gives you extra space. Easy to move and rotate, it also has 4 wheels! Easy to clean. Easy and quick to hide under the desk/table. You can place your radio on top of the aerial windings, or connect to receiver via cable.

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