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Re: [Amps] Parasitics & Filament Sag

To: amps@contesting.com
Subject: Re: [Amps] Parasitics & Filament Sag
From: Peter Chadwick <g3rzp@g3rzp.wanadoo.co.uk>
Reply-to: g3rzp@g3rzp.wanadoo.co.uk
Date: Tue, 29 Aug 2006 10:52:12 +0200 (CEST)
List-post: <mailto:amps@contesting.com>
There are a number of things I don't understand about the parasitic suppression 
business. According to Terman, a tuned amplifier with a plate circuit tuned LF 
of the grid circuit is unconditionally stable because the grid has a positive 
input resistance. If the grid is tuned LF of the plate, it has a negative input 
resistance. On this basis then, a tube with a good short grid cone (8877?) with 
a collet type connection has a good chance of being stable without any 
suppression. A 2C39 should be pretty good, too....As an aside, why were there 
amplifiers in the 1950s with series inductors in the grid for parasitic 
suppression? That appears, on the face of it, to be ridiculous.....
The 'conventional' parasitic approach is, if I understand the various 
arguments, to lower the circuit gain at VHF by reducing the plate load 
impedance. I don't see how a resistance wire suppressor does that, since a 
resistance and inductance in series have an increasing impedance, at least 
until the parallel resonance caused by the self capacity of the inductor is 
reached. So the circuit gain would increase, while with the shunt inductance 
and resistance, it tends towards whatever the impedance of the resistor with 
its strays is. However, the plate parasitic frequency would decrease, thus 
meeting the criteria above for parasitic suppression. It would act as a sort of 
glitch resistor though....
Or do 'conventional' parasitic suppressors actually do both? The inductance 
lowers the parasitic frequency, but provides another VHF parasitic possibility, 
damped by the shunt resistors?
73
Peter G3RZP
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