This is the circuit of a 500 watt linear amplifier, based upon a design by Frits Geerligs, PA0FRI. The circuit uses four PL519 TV line output valves in a very simple circuit that will deliver over 450 watts at 3.5 MHz (350 watts at 30 MHz). PL519 (40KG6A) is a more robust replacement for the earlier PL509 (40KG6) tube. Both valves will work well in this circuit. The input drive power is about 50 - 100 watts so it is compatible with most amateur radio HF transmitters. Not shown in the circuit is the cooling fan that is required to force air around the valves to cool them. In operation the 1K0 pot is adjusted to set the total valve anode current to around 50mA to 70 mA.
All four valve heaters (40 volts each) may be wired in series and connected to the 220 volt mains via a 6uf 250vAC capacitor for 50 Hz (5uf for 60 Hz). I personally favour the use of a 40 volt transformer winding, on a home-made transformer, to run all the valves heaters (in parallel) as well as the 40 volt fan. This places less strain on the cathode/heater insulation of old tubes that may have been kicked around in junk boxes for years.
PA0FRI sugests a power supply circuit which is switcheable and delivers 325 volts, 650 volts or 1300 volts to the amplifier. The circuit is very clever, and shown below for your interest.
I myself prefer a home wound transformer. This was constructed from an old 500 watt 120/240 volt auto-transformer. Here is the circuit of my PSU (40 volt secondary not shown).
All the old wire was stripped from the transformer as this was of a poor quality (I don't even think it was copper!!). All the laminations were varnished and the 1300 volt secondary was VERY well insulated from the other windings. The windings were:
Connect the two primaries in series for 240 volt operation or in parallel for 120 volt operation. Check, with a resistance meter, that the transformer windings are isolated from each other and the case. When electrically testing the transformer, connect it to the mains without a load; the mains power in series with a mains 100 watt light-bulb. Check that the two secondaries are about 40 volts and 1100 volts. If the lightbulb lights up then you have got one of the primaries the wrong way round, or there is a fault in transformer construction.
NOTE THAT THE HIGH VOLTAGES INVOLVED WITH THIS PROJECT ARE POTENTIALLY LETHAL AND CAN KILL
A pedido del autor hemos dejado tanto su texto en inglés como sus circuitos sin redibujar. Esto responde a que el quiere mantener su diseño tal como lo hizo por lo que nosotros sólo copiamos los archivos del servidor donde se encontraban hasta ahora.