High-Q Coil Construction Techniques

A couple of hams have put some nice pictures on the web that result to be very instructive in explaining how to construct high-Q loading coils:

• Mark Peterse, PA3HMP came up with an elegant design for the trap coils of his wire dipole antennas, solely based on standard PVC tubing.
• Phil Salas, AD5X mastered the art of plumbing water pipe bi-conical compression couplings and nipples together to build sturdy loading coils.
• Stephen J. Babcock, VE6WZ took a different approach using cable ties and red insulating varnish.
• Theo Bemelmans, ON4AEK - OT4A had this wonderful idea of making high-Q coils out of pure-copper brake pipe. 25ft(7.62m) rolls are available in several diameter gauges.





loading coil by ON4AEK



home-made coil by AD5X




outer diameter
(inch)	(mm)
3/16	5
1/4	6
5/16	8
3/8	10



pure-copper brake pipe

Another rewarding approach to reduce losses and hence to increase Q, is to make the coil out of copper-strip material instead of round wire or copper tubing.^[1,2] David Knight, G3YNH, explains the details in his text about the skin and the proximity effect.

For the same reason, copper-tape on a plastic tube is often employed in the construction of helical antennas.

Silver Plating

Copper conductors oxidise after some time. This results in a much reduced conductivity. Silver plated conductors also oxidise, however silver oxide remains highly conductive, unlike copper oxide which is highly resistive.

Dirk, ON4AWU and member of the OT5A contest station, developed a very interesting chemical silver plating process.

At a temperature of 20°C (293.15K), silver (Ag) has a resistivity of 1.58·10^-8Ωm, which is the lowest of all metals, and a temperature coefficient of 0.0038K^-1. Silver[I] oxide (Ag₂O) at this temperature has a 500 times higher resistivity of 8·10^-6Ωm and a temperature coefficient of 0.004620K^{-1 [3]}. Nonetheless it is still considered to be a conductor, whereas both copper[I] oxide (Cu₂O) and copper[II] oxide (CuO) are semiconductors at room temperature.

Varnishing Coil Inductors

Whether a coil inductor is silver plated or not, it is still a good idea to varnish it. Silver oxide and environmental agents with etching properties result anyhow in, respectively, lower conductivities and increased path lengths. Also, cuprous or copper[I] oxide (Cu₂O) forms on silver-plated copper parts exposed to moisture when the silver layer is porous or damaged; this kind of corrosion is known as «red plague».^[4]

Since it is readily available over here in Belgium, I am using Trimetal^® Steloxin metal varnish to protect all copper, brass, aluminium and silver parts of all my antennas, with good result. Only stainless steel parts can do without this protection.