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In Reply to: RE: LM317 as a CCS , how to? posted by DAK on October 24, 2014 at 13:25:55
Sonic contribution of caps:
I was not referring to the quality of the caps, rather the value. The cathode resistor has a different AC and DC resistance value compared to a LM317, thus bypassing it with the same value cap leads to different frequency response. This should be taken into account from a wider point of view: the schematics of the amp as a whole. Nevertheless, the cap value used with a cathode resistor is most probably adequate for use with the LM317 CCS, although differences in frequency response (and phase) might induce different audible performance in frequency ranges other than bass.
If your caps are new, it might also be a break-in issue. It is not a direct comparison so the results are subjective. You can always try reversing to check whether bass deteriorates and midrange improves - and you might find that the cathode resistor solution is now totally unacceptable overall?
As for paralleling caps, I used to do that a decade ago, because I read how that was a good thing to do - so I just did it. I discovered later that I don't like the sonic results at all, and I would remove the 3uF cap from the eqution. You can try and let us know. It is probably rather large as well. My view is "simple does it".
Zener diode on g2
Zener diodes are labeled as being noisy. This noise can be seen on the scope and probably heard as well in some applications.
Nevertheless, we are using here the zener in series, not in parallel with g2. While the screen grid can be used instead of the control grid to operate a pentode/tetrode tube (I guess it is called inverted triode, with control grid tied to cathode), it is much less sensitive than the control grid, thus eventual noise injected from g2 is highly unlikely to be inaudible. No wonder you did not experience additional noise on your RH84 rev2, I never heard any added noise from any pentode/tetrode when changing from some other g2 arrangement to zener in series.
Thus I can only advice you to do it and check for yourself the quality of the result. Just measure the value of the voltage drop across the choke you are using now (your g2 voltage should be lower than your anode voltage anyway) and apply the appropriate value zener. Remove the cap and the choke from the circuit, leaving just the zener from B+ to g2.
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http://rh-amps.blogspot.com/
Follow Ups:
"Remove the cap and the choke from the circuit, leaving just the zener from B+ to g2."
Is there a reason you wouldn't want to install a cap to ground at the grid, in order to reduce any potential noise and improve short-term regulation? I'm thinking something on the order of 10uF might be beneficial.
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Buy Chinese. Bury freedom.
Yes, there are several reasons, that can all be summarized as "superfluous".
The purpose of the cap is to stabilize the voltage and provide an AC path to ground. None of those functions is necessary in this case.
With the CCS under the cathode, current draw is pretty much fixed, and in an SE amplifier this means further guarantee for little or no change in B+.
With a stable B+, and stable/fixed current draw (where the change in current draw for g2 is mere statistics from the zener's point of view), the g2 voltage needs no further stabilization.
The cap is not going to be efficient against potential noise from the zener because the zener might introduce noise that is rather high in frequency for the cap to filter. Caps are usually placed in parallel with zeners in order to try filtering the noise (something you shouldn't do with VR tubes due to the possibility of oscillation), not in series with zeners towards ground.
Last but not least, the cap and the resistor (in a usual arrangement, resistor to g2 and from g2 cap bypass to ground) present an RC filter cell: the higher the resistor value, the lower the cap can be without cutting too much low frequency content. Adding a 10uF cap from g2 to ground will most probably create an inadequate filtering cell.
More often than not, my explanations are misunderstood or not-understood. Most people find it difficult to think outside the envelope, or to think ahead when they want to do something. Zeners are not resistors, and they are solid state technology thus seldom found in old tube technology textbooks. Furthermore, they are usually used as shunt and not series devices. I guess that is the reason why it is difficult to convey those ideas to people with some previous knowledge and experience. But it is easy to check: install the zener, as advised - and check it out. OK, now you can experiment by adding the cap. Are you going to like the result? That's up to you to decide: I guess you are not going to like the result, but it seems that unless you do it, you are going to be left with doubts on your mind.
******
http://rh-amps.blogspot.com/
"The cap is not going to be efficient against potential noise from the zener because the zener might introduce noise that is rather high in frequency for the cap to filter."
I don't agree. Zener noise decreases with frequency, whereas the XC of the cap goes down. A single cap can easily reduce Zener noise by a factor of ten, and it's performance does not suffer at greater offsets. If anything, the difficulty lies in attenuating noise close-in (low frequency). I'm very familiar with this as part of my day job.
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Buy Chinese. Bury freedom.
While I remain with what I already stated - just like I stated, I have nothing against experiments and real-life trials of hypothesized solutions.
In this case, I guess it is rather easy to connect g2 to B+ via the zener diode, and try it as it is. After that, a cap can be added from g2 to ground, and the result auditioned: if one finds that is sounds better with the added cap, or that there is less noise -- I really cannot object to the solution being implemented.
From my experience, there is no relevant noise to start with - which might have been contributed by the zener diode. Once there is no noise to cancel or filter - the cap becomes redundant, or superfluous, you are free to choose the term...
Whoever wants to try it for himself, should do it, and let us know :)
******
http://rh-amps.blogspot.com/
"From my experience, there is no relevant noise to start with - which might have been contributed by the zener diode."
Yes, it may very well be that noise contributed by the Zener is insignificant in the larger picture.
"Whoever wants to try it for himself, should do it, and let us know :)"
This is a place for measurement first, listening later. The question is whether Zener noise contributes to system idle noise at the output of the amplifier. Whether a particular owner can hear it with a given system is irrelevant to optimizing the design of the amplifier. A FFT (hardware or software) is required to analyze this issue accurately.
Also, just to address one other point you raised to support the claim that the cap is superflous...
"Adding a 10uF cap from g2 to ground will most probably create an inadequate filtering cell."
The 6BQ5 G2 draws approximately 6mA. That current through the Zener, along with a 21V drop, equates to an effective impedance of 3,500 ohms. Under these conditions, a 10uF cap at the screen will decouple the grid sufficiently to create more than 45 dB attenuation at 1K. Whether this is effective at the output depends on many factors, including the AC impedance of the primary B+ supply. At the very least, I would consider this a good safeguard against degradation (likely in the form of distortion) by a screen that that might not otherwise be sufficiently regulated.
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Buy Chinese. Bury freedom.
Hi Alex , when I built the amp couple of years ago, I started with the stock circuit and tried different things to improve the sound. Bypassing the electrolytic caps with PIO was a definite improvement in this amp. With the cathode bypass cap the improvement you could say is marginal but I don't feel that it is hurting the sound to warrant removing them which would be a PITA. Right now the amp sounds great with just the LM317 added. It is a definite "thumbs up" change and I will be sure to implement that in my upcoming builds.
With the G2 supply it seems to me that different implementations, only has a subtle effect. When I installed the inductor in the circuit there was a definite improvement from the stock voltage dropping resistor with or without a supply capacitor. But as for the zeners, since they are such as easy way to supply the correct voltage I will be using them in my next build. Thank you very much for the important information and your most helpful suggestions. take care and best regards, Dak
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