grid stopper resistors on power tubes
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grid stopper resistors on power tubes
Why the value of 8.2k on the grid stopper resistors on the power tubes?
Is it to form an RC filter to filter oscillations of some kind? My calcs for a cut-off frequency don't make much sense:
If the total input capacitance of the EL84 is 35pF (got this from Valve Amplifiers by Morgan Jones p453), the freq = 1/(2*pi*R*C) gives a value of 554kHz.
Can anyone please clarify?
thanks
mm
Is it to form an RC filter to filter oscillations of some kind? My calcs for a cut-off frequency don't make much sense:
If the total input capacitance of the EL84 is 35pF (got this from Valve Amplifiers by Morgan Jones p453), the freq = 1/(2*pi*R*C) gives a value of 554kHz.
Can anyone please clarify?
thanks
mm
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So what Aiken is saying:
(a) used as a filter for high freq oscillations
(b) used as a lo pass filter on inputs to filter radio stations
(c) limit grid current to prevent blocking distortion.
Since the cut-off freq is 554Khz, they 8.2k in the 18W are obviously cannot be for (a)
Since this is a power stage, he says option (b) does not apply.
So are these just to limit current to prevent blocking distortion?
(a) used as a filter for high freq oscillations
(b) used as a lo pass filter on inputs to filter radio stations
(c) limit grid current to prevent blocking distortion.
Since the cut-off freq is 554Khz, they 8.2k in the 18W are obviously cannot be for (a)
Since this is a power stage, he says option (b) does not apply.
So are these just to limit current to prevent blocking distortion?
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- markh
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Well, for a guitar amp, lets see.MrMike wrote:So what Aiken is saying:
(a) used as a filter for high freq oscillations
(b) used as a lo pass filter on inputs to filter radio stations
(c) limit grid current to prevent blocking distortion.
Since the cut-off freq is 554Khz, they 8.2k in the 18W are obviously cannot be for (a)
Since this is a power stage, he says option (b) does not apply.
So are these just to limit current to prevent blocking distortion?
a. yes is used to roll off the high end responce.
b. yes, but this is more for the pre-amp gain stages.
c. yes, absolutly to limit grid current to midigate blocking distortion.
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Mooreamps wrote:Well, for a guitar amp, lets see.MrMike wrote:So what Aiken is saying:
(a) used as a filter for high freq oscillations
(b) used as a lo pass filter on inputs to filter radio stations
(c) limit grid current to prevent blocking distortion.
Since the cut-off freq is 554Khz, they 8.2k in the 18W are obviously cannot be for (a)
Since this is a power stage, he says option (b) does not apply.
So are these just to limit current to prevent blocking distortion?
a. yes is used to roll off the high end responce.
b. yes, but this is more for the pre-amp gain stages.
c. yes, absolutly to limit grid current to midigate blocking distortion.
-g
OK... back to my original question. Then why the value of 8.2k on the power tube grid?
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- markh
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Undoubtedly because the WEM Dominator has 8k2s. Now, why did Watkins choose 8k2?
I note that Mullard (in "Tube Circuits for Audio Amplifiers") used 4k7 stoppers in their example P-P EL84 amp. To quote Mullard:
"The stopper resistors...have been included as a normal measure to prevent parasitic oscillations. These resistors should not be bypassed, and a close connection should be made to the tags on the valveholders [sockets]."
I suspect these values were all derived experimentally, as opposed to by rigorous equations.
--mark
I note that Mullard (in "Tube Circuits for Audio Amplifiers") used 4k7 stoppers in their example P-P EL84 amp. To quote Mullard:
"The stopper resistors...have been included as a normal measure to prevent parasitic oscillations. These resistors should not be bypassed, and a close connection should be made to the tags on the valveholders [sockets]."
I suspect these values were all derived experimentally, as opposed to by rigorous equations.
--mark
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Well, lets do an electrical analysis. According to the data sheet for an EL-84, I see the input capacitance from grid to cathode at 10.8 pF, but if it's listed as 35 pF, then we can use that value.. and I show the Amplification Factor of the tube at 19.5. The cutoff frequency of the gain stage is calculated when the impedance of the grid circuit equals the impedance of the grid stop resistor, thus half the value of the input signal is dropped across the grid stop resistor and the other half is dropped across the impedance of the input grid circuit, otherwise referred to as the "3 db down point". So to look at this we will touch on some rf theory...
The short answer is ; plug 35pF for the input grid capacitance times the amplification factor [ = 682.5 pF ] into the reactance formula, and we come up with a reactance of 8.338 K ohms at 28 kHz cycles. Therefore, with a 8.2K grid stop for an EL-84, we can calcuate the 3 db down point where the gain of the tube will begin to roll off the high frequency responce just shy of 28 kHz.
-g
The short answer is ; plug 35pF for the input grid capacitance times the amplification factor [ = 682.5 pF ] into the reactance formula, and we come up with a reactance of 8.338 K ohms at 28 kHz cycles. Therefore, with a 8.2K grid stop for an EL-84, we can calcuate the 3 db down point where the gain of the tube will begin to roll off the high frequency responce just shy of 28 kHz.
-g
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- SonnyReVerb
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Found an excellent treatise on grid stoppers. He discusses power tubes in the lower half of the page (look for "Other reasons for grid-stoppers...").
http://www1.freewebs.com/valvewizard/gridstopper.html
This page shows some of the calculations pretty clearly (look down around Eq. 3, Fig. 10, and Eq.4).
http://www.eecs.umich.edu/~mmccorq/dive ... index.html
Notice the gain has an effect on the calculation. Also, the effective capacitance is the grid to plate (or anode) capacitance.
http://www1.freewebs.com/valvewizard/gridstopper.html
This page shows some of the calculations pretty clearly (look down around Eq. 3, Fig. 10, and Eq.4).
http://www.eecs.umich.edu/~mmccorq/dive ... index.html
Notice the gain has an effect on the calculation. Also, the effective capacitance is the grid to plate (or anode) capacitance.
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- markh
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The problem is (for this EL84 discussion), all the example cited are for triodes. One of the main impetus' for inventing the tetrode and pentode was to eliminate/greatly reduce Miller capacitance -- they do so by having the intervening grid(s) act as a screen/shield (hence the name, perhaps) between the control grid and anode.
I don't know that the stock triode calcs map directly to the EL84 and other greater-than-three-electrodes tubes.
--mark
I don't know that the stock triode calcs map directly to the EL84 and other greater-than-three-electrodes tubes.
--mark
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- SonnyReVerb
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That's true, Mark. The datasheets show a mere 0.5pF capacitance from grid to plate. Referring to the Valve Wizard page:
The Brimar datasheet says:While the input of the amplifier will usually have a grid-stopper to remove radio interference, other stages in the amp- particularly the power valves- will often have grid-stoppers for different reasons. The first is that the actual wiring inside the amp will have stray inductances. In combination with the input capacitance of a valve, this will produce a resonant circuit which can cause parasitic oscillation, particularly in high gm valves like power valves. This is cured by damping the resonance with a grid-stopper, fitted directly to the valve socket if possible. Data sheets will usually list a recommended value of grid-stopper, and typical values are around 1k to 10k on power valves. If in doubt, make it bigger.
Since stray inductance is not easy to measure or calculate , I would go with the datasheet recommendation or the schematic - 8.2k sounds reasonable. Experiment to your heart's (or ear's) content...Due to the high slope of this valve, trouble may be experienced due to parasitic oscillation, and it is advised that a resistor of 10,000 ohms minimum value be connected in series with the grid, at the valve holder grid contact.
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Good treatment of this subject is given in Radio Engineering, Terman, 1937 p231-239.
In brief, oscillation can result from the combination of stray inductance in the grid circuit, and stray capacitance across the output transformer, plus interelectrode capacitance. In other words, there are stray resonances in both grid and anode, and if they coincide the sh*t hits the fan.
p238:
"If trouble is encountered from this residual grid-plate capacity... place a resistance of a few thousand ohms in series with the grid.... such a resistance introduces proportionately more loss at the higher frequencies...and thereby tends to counteract the lower input admittance as the frequency is increased."
In brief, oscillation can result from the combination of stray inductance in the grid circuit, and stray capacitance across the output transformer, plus interelectrode capacitance. In other words, there are stray resonances in both grid and anode, and if they coincide the sh*t hits the fan.
p238:
"If trouble is encountered from this residual grid-plate capacity... place a resistance of a few thousand ohms in series with the grid.... such a resistance introduces proportionately more loss at the higher frequencies...and thereby tends to counteract the lower input admittance as the frequency is increased."
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Re: grid stopper resistors on power tubes
The purpose of the grid stoppers is also to help prevent blocking distortion.
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