To: | amps@contesting.com |
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Subject: | Re: [Amps] Equalising resistors with HV diodes |
From: | "Ian White, G3SEK" <G3SEK@ifwtech.co.uk> |
Reply-to: | "Ian White, G3SEK" <g3sek@ifwtech.co.uk> |
Date: | Tue, 21 Sep 2004 16:49:39 +0100 |
List-post: | <mailto:amps@contesting.com> |
Radio WC6W wrote:
I researched this for the magazine column in 1997, including direct correspondence with the author of that part of the ARRL Handbook. Here's the short version. Rectifiers can be OK for hundreds or thousands of hours, and then suddenly fail. The main reason is a sudden spike of excess mains voltage, that happens to arrive near the moment when the AC mains voltage is also at its peak. This adds to the normal reverse voltage on (half of) your rectifier diodes. In the first generation of silicon rectifiers, reverse breakdown was by surface arcing, which destroyed the diode and made it fail short-circuit. Another important factor was that diodes were expensive, so designers tended to use the minimum number in series. Then if one diode failed short, it would put significantly higher reverse voltage on the remaining diodes, so the whole string could easily unzip in a cascade failure. That is why designers used to take extreme precautions with equalizing resistors and capacitors. But modern rectifier diodes don't have that mode of arc failure any more. You may not find it on the data sheet, but all modern silicon rectifier diodes are constructed so that excess reverse voltage causes a "zener-like" avalanche breakdown at a constant voltage, which is lower than the voltage required to cause a destructive arc. If the reverse current is limited by the other diodes in series that have *not* gone into breakdown, a brief reverse-avalanche event in an individual diode is usually survivable. Diodes are now much cheaper than high-voltage resistors, so the most cost-effective design solution is to spend the money on extra diodes, so that the whole string has plenty of reserve PIV capability. For matching, I rely on branded diodes, all pulled off the same bandolier string - but plenty of 'em. The K2AW rectifier packages do very much the same. They use typically 14 of everybody's favorite 1N5408, potted in epoxy with no equalizing components. In spite of the much higher operating temperature than PCB-mounted diodes, the K2AW rectifiers have a very good reliability record - simply because they use lots of diodes. If anyone is still worried, and still can't resist the urge to throw money at the problem, then spend it on a mains filter. -- 73 from Ian G3SEK 'In Practice' columnist for RadCom (RSGB) http://www.ifwtech.co.uk/g3sek _______________________________________________ Amps mailing list Amps@contesting.com http://lists.contesting.com/mailman/listinfo/amps |
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