Hello Bruce 19. The reason to use tube rectifiers is that the high votage builds up slowly (versus instantly) and that avoids the schock of WHAM! all the capacitors in the unit are suddenly awakened from their fully discharged condition by the appliction of full power. This is particularly tough on the filter capacitors in the power supply. I once bought a used Adcom reciever at a very good price. I took it home and plugged it in and hit the power switch. A FLASH, a POW! and the room was FILLED WITH SMOKE. The unit had not been used in a looooong time. The electrolytic capacitors commonly used i power supplies are essentially a dead short when power is applied. The voltage causes a layer of bubbles to form inside the capacitor and that is the insulation between the "plates" of the capacitor. An old, perhaps physically dried out capacitor doesn't form the layer of bubbles quickly enough (if at all) to stop the flow of current through the capacitor. The bridge rectifier dumped all the current that could make it from the AC line, thru the fuse and into the essentially dead shorted capacitors. It takes time for a fuse to blow. Just enough time for the capacitors to explode, the solid state rectifier (diodes) to become cinders and the smoke to fill the room. Interestingly, the circuitry in the receiver never felt the operating voltage and was undamaged. I've got the power amp section running and the tuner section, but the line amp section is not working yet. It will, just as soon as I can find the time to fix it. Happy Listening.
Why tube rectification?
This question is directed at the distinguished members of the forum who design and build tube amps or those who have knowledge of tube amp design. All the tube amps I own/have built us two diodes for rectification. Diodes are cheap, compact and last the life of the amplifier in most cases. Examples include the Dynaco ST-35, the Decware Zenkit1 (which is basically a Decware SE84) and the Elekit TU-8900. All reasonably well respected amps. Yet many of the more expensive amps go with tube rectification, which obviously involves the downside of another tube, more power, more space.
These two competing solutions both supply the basic power to the audio tubes and output transformers, so only indirectly interact with the sound signal. I have not read anything that explains what tube rectification brings to the party. But it must have some upside to offset it's obvious downsides. If I changed over one of the above amps to tube from diode rectification what would I be likely to hear?