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R/E/P => R/E/P Archives => Klaus Heyne's Mic Lab => Topic started by: R-AP.SCI on September 19, 2010, 01:16:47 AM

Title: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on September 19, 2010, 01:16:47 AM
     Good day to all. I would like to hear some opinions regarding biasing.

    In an amplifying scenario such as a tube microphone circuit there is more than one school of thought in terms of design. One of the elements of said designs is the form of biasing. While I happen to enjoy the second order harmonics, earlier breakup and "warmth" many times associated with self-biasing in my microphones, many venerable microphones of fantastic design use fixed bias (U47, U67) and some have changed over time (M49 revisions). Obviously a "good" or "great" microphone is more than just the sum of its parts (sometimes and depending upon who you ask) and the overall sonic results are dictated by the complex interactions of the entire circuit, not just the influence of one design parameter. However my inquiry will be twofold:

1) Historic: Was the choice for self or fixed (in regards to "high end" condenser tube mics...i.e. the M49's revision c switching from fixed to self) made for a particular sonic reason or was it a budgetary concern? Or both?
In my opinion, all things being equal, it must have been a total design consideration, i.e., whether or not small or large amounts of NFB was being used (if any at all), tube considerations, headroom etc. This only seems reasonable assuming the designers realized and understood it as being a whole interactive system, not separate design parameters independent of one another that theoretically "should" work in harmony. It seems to me that Neumann and A.K.G. would see it as a total design function. I am not questioning the wisdom, merely the motivation, seeing as how it does have audible results.
Or was it simply what they figured was appropriate, given the resources and knowledge of the time?

2) Design: To the designers, technicians and modifiers participating in this forum I ask this:
Why do YOU choose one biasing scheme over another? Given the wide availability of parts and manufacture and significant access to great designs of the past and hopeful self-curation of microphone advancement, it seems to me that the biasing structure would be a decision of primarily sonic considerations.

Mr.Archut: Your CS-4\
Mr.Josephson: While I cannot think of any tube microphone you currently manufacture, your knowledge and opinion is still greatly valued and desired.
Mr.Bock: Your 507
Mr.Heyne: Any particular 67 or 49 modification stand out to you in this context? Or perhaps your KHE?

While this post does have a very wide arch, I hope the answers achieve some specificity, if not then just some insight and opinions of well informed individuals, hopefully all contributing to the understanding and love of tubed microphones!

This has been an area of interest of mine since I began my wonderful trip into the wonderful world of microphones. I hope, given this forum's wealth of collective knowledge, that not only can we see into the design wisdom of the past but also into the current designing spirit.

Thank you all!
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Oliver Archut on September 19, 2010, 01:16:24 PM
There is no real tube-microphone handbook, so we are lacking the proper names for the different ways of biasing. Using the standard terms is not proper because in tube mics there is the problem of the startup current, that is shorted out via the grid leak in normal tube design.

There are only a handful of tubes that were developed for microphone use and the rest are just normal tubes operated out of their recommended range. From a technical point of view, biasing is just a way of making the grid more negative than the cathode.

This can be done via:

* External source to cathode, like U47 current bias from the filament (CS-4 is done the same way).

* External negative voltage to grid, like U67 and C12.

* Mix of both- external source to cathode in conjunction with voltage divider, like  
  the M49/M49B.

* Self biasing via cathode resistor, like M49c and the like.

* Biasing via a capacitor or battery, used as a coupling cap that is charged via the  
  grid current; not done in commercial tube mics.

At the same time the start up current of the heated cathode will produce an negative voltage that drops via the grid leak resistor, that either works with the bias configuration (self-bias), or is forced to the given bias voltage (external source).

But from a practical point of view, the biasing is responsible how a mic behaves.

Best regards,

Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 20, 2010, 04:32:45 PM
In the very early days of "radio" (the word "electronics" was not used yet), almost everything was fixed-bias, because the cost of a resistor and a cap exceeded the cost of a bias battery. For many designers, that was the way they had been told, so they kept on.
On a purely technical standpoint, there is no significant difference of performance between fixed and self-bias on a low-level preamp stage. Since there is a cost penalty to fixed-bias,
self-bias is the logical choice.
Mic head amps have the peculiarity of operating with extremely high value grid resistors, which makes them extremely sensitive to grid current. The relative voltages between heater and cathode have a subtle but noticeable influence on grid current. Some designers have favoured the fixed-bias scheme on the assumption that the voltage relationship was a more predictable one than self-bias. In fact, both designs can be optimised equally well.
Personally, I can't hear a difference between a fixed-bias and a self-bias low level gain stage.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: David Bock on September 20, 2010, 05:35:01 PM
Testing a mic on high impact sources like drums can reveal the difference between self & fixed bias mic amps.
Fixed bias amps are generally much more sensitive to the sound of the specific individual tube being used in the mic. So flaws show up sooner.
Self bias (in the most commonly implemented cathode bypass cap method) introduces overshoot in the cathode, see Valley & Wallman chapetr 3.
The type (or brand) of cap in the cathode can affect the sound.
Since self bias is the easiest, cheapest, most forgiving to implement, & no one complained at the time, I'm guessing it was an obvious "nothing but benefits" decision to make.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on September 20, 2010, 07:00:43 PM
Thankyou Mr.Archut and very glad to see others of whom I regard highly participating as well....

    For me, while the fixed bias scheme of external negative voltage may slightly increase headroom somewhat, it still may raise odd order harmonics, that coupled with the incorporation of additional parts (me being a minimalist I naturally feel that it complicates unnecessarily) it might not be worth it. And I enjoy the softening of self bias. Unless the circuit NEEDS this type of biasing due to other circuit considerations. A great example of this type of biasing is the U67, after one considers other aspects of its design (the feedback/forward & e.q.) to get the most out of the tube its plate voltage is run higher than the "average" 120v. I am not sure of any other mic that uses an EF86 at around 200v. Being that plate dissipation at idle is set by the bias level, is it reasonable to assume its instantaneous dissipation and average dissipation is also influenced by these parameters in conjunction (plate voltage + plate dissipation being influenced by biasing)....therefor the difference revealed by highly dynamic sources as stated by Mr.Bock.

    What is your consideration of this in the context of its design? However the U47 biasing scheme from the filament sounds interesting because the tube is underheated...do you find this makes any difference in terms of headroom and harmonic distortion (pleasing or otherwise)? Is the Telefunken tube in your CS4 similarly underheated? Mr.Bock What of your 507?

    I have heard of battery/capacitor biasing but have not experimented any with it...If I can, I will do so eventually in a mic capacity. Have any of you?

    I am aware that in comparison to other considerations and implementations in a mic the audibility of this design element is small or diminished, however I do think it is important nonetheless. I also am aware that I might be "overthinking" this...however I am a bit persnickety about my mics.

    It is good that you pointed out the fact that most tubes were not developed for microphone usage. I think mic design has many other considerations and variables in the usage of its tubes opposed to power amplification and other large gain applications. I have done basic preliminary research (not as extensive as yours) into developing and having manufactured tubes specific for microphone applications...it has proved to be most daunting!

Thankyou again Mr.Archut, Mr.Bock and Mr.Geoff Emerick de Fake for your participation in this thread! I look forward to hearing some more of your and others estimation.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 20, 2010, 09:02:43 PM
There is another consideration when using self-biasing:
Self-biasing is decidedly not a linear process, but a sound and frequency-shaping one, because of the low frequency phase shift introduced by the bypass capacitor's cut-off frequency.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: David Bock on September 20, 2010, 10:55:59 PM
10Hz?
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on September 21, 2010, 03:14:46 AM
     A true assessment Mr.Heyne, one that is many times easily overlooked. (thankyou for participating as well!) and Mr.Bock both. I am glad this was mentioned because now we are entering the "marriage of compromise" and "diminishing returns" issue that all designers and technicians face!

    The consideration of these issues is exacerbated by individuals and companies who care about all aspects and facets of their products and services...(Like those currently participating in this thread...). Since we are speaking of the biasing portion of the circuit and not say... the output coupling cap to transformer, I can understand how this poses issue on many levels in terms of component selection, audibility and thusly consequence.

    As such  I offer this: Dependent upon the C (and quality of the cap) I can see how it is possible the shift can begin high enough in the low end or be drastic enough in deviation to affect the audible areas of the low end, (I believe this MIGHT be an extreme case or it might be more common than many of us realize, conversely, in a well designed circuit it might not occur audibly). My solution to this (while somewhat simplistic) is to connect a high quality film cap of a much lower value in parallel, thereby mitigating (but not completely eliminating) certain performance maladies. In my opinion this is a good practice in general as the value of the original bypass cap is normally high-ish (I've seen 50uf and more) and therefor usually an electrolytic. Size considerations warrant the usage of said electrolytic and being that it is not directly in the audio path many designers can be satisfied with it as such. However, I humbly posit that bypassing THAT cap with aforementioned film cap will address many issues...IF there are any....which would also be a total circuit consideration. What do you gentlemen think?

    The various lines of standards and considerations are at many times subjective and dependent upon many interactive variables.....however the decisions made based upon them have in many cases a practical affect, and it is important that forums such as this exist and entertain said considerations. In the hopes of curating and progressing the art of microphones.

    I am excited to hear more opinions and assessments from well informed participants! Thankyou all!
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: MagnetoSound on September 21, 2010, 08:05:15 AM
R-AP.SCI wrote on Tue, 21 September 2010 00:00

A great example of this type of biasing is the U67, after one considers other aspects of its design (the feedback/forward & e.q.) to get the most out of the tube its plate voltage is run higher than the "average" 120v. I am not sure of any other mic that uses an EF86 at around 200v.




Not sure what you're getting at here. In fact the EF86 in a U67 has approximately 75v at the plate.

The incoming HT before the plate resistor is indeed higher than usual - one of the reasons the U67 has such great headroom - but the tube is running comfortably within normal parameters.


Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on September 21, 2010, 12:04:23 PM
...oops, sorry, I meant B+!! that's what I get for not re-reading my post. (I guess my father was right about the whole "measure twice cut once" thing. Thankyou sir.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 21, 2010, 12:36:32 PM
In order to make things clearer in perspective, here are the time-delay responses of both configurations, i.e. one with the influence of the cathode cap (25uF over 2.2k, as per U49c) compred to the same without the phase-shift.
In green, with the original 25uF, in blue, with the res infinitely bypassed.
As expected, the amount of phase-shift introduced by the cathode cap is much more than the one introduced by the xfmr/coupling cap combo.
At 20 Hz, the time-smear introduced by the cathode cap is 2milliseconds, much less than the 5ms of the xfmr.

Bypassing the electrolytic with a film cap is a very common, although controversial scheme. But it has no effect whatsoever on low-frequency phase-shift. Cathode cap LF phase-shift is solely and utterly determined by the Rk.Ck product; increasing this product by a fraction of a percent is not significant.

Regarding the "unusual bias of the EF86 in U67, this is in fact very common practice. You have to remember that for negative going outputs, the tube has a relatively unlimited current capability, but for positive-going, it is determined by the plate resistor; the more positive the output goes, the less current it can draw. In order to balance the positive and negative, the quiescent current is increased, thus reducing the plate voltage. An additional benefit is that the noise performance is (very marginally) better. Both fixed and self-bias offer this possibility.

As to  "Testing a mic on high impact sources like drums can reveal the difference between self & fixed bias mic amps", one has to be extremely cautious to make sure that the "all other parameters being equal" rule is enforced.
As an example, comparing an M49 (w/ fixed-bias AC701) and an M49c (self-bias AC701) is not a proper comparison, since the 49c runs at 60% more quiescent current (0.73mA vs. 0.45), lending it a 4dB advantage.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 21, 2010, 12:46:40 PM
As an exercise, here is the time-delay introduced by the cathode-cap (green) compared to infinitely bypassed (red) (the xfmr is no more in circuit), showing 1.5ms at 20Hz.
I have favoured the time-delay display over phase-shift because it is more instinctive, methink.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 21, 2010, 01:59:11 PM
I hear the phase aberration of bypass capacitors that were not chosen carefully through hearing experimentation, and I design remedies accordingly, regardless of what one thinks what should or should not theoretically be audible.

So, I am very much insistent that, if we discuss electronic circuits or esoteric phenomena in this forum, we relate them to what we experience as audible about them (or not.) If that is not  done, the discussion cannot possibly lead to better sounding mics.

Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on September 22, 2010, 06:12:55 AM
     This is true Mr.Heyne...whilst theory should be the functioning framework, we still have to use our ears! And at many times make a subjective decision based upon a careful balance of cultivated preference and measurement, hearing and experimentation, because the goal (for some, myself included) is better SOUNDING mics! I am of the mind that while certain time and frequency based phenomena should not be audible (according to todays current standards and theories-whatever that means), I think we all have encountered an instance of audio perception upon which we hear (or think we hear) something which theoretically should not or cannot be heard.

    Either way, if I replace a component and I experience a change, then I include it as a variable of some sort that might produce sonically pleasing results...(of course this goes hand in hand with some repeatable testing methodology). I also believe that we lack a total comprehension and development of methods of testing as well....in the sense of if I am constantly perceiving something that according to my measurements has not occurred or should be outside the realm of my perception, then I question BOTH my myself (expectation bias, etc...) and my test! After that, hopefully a refined sonic aesthetic born of discernment through as you put "hearing experimentation" can be a suitable guide.

    Thankyou for those measurements good sir! They are of serious consideration and really help to put things into some perspective...it also indicates that one cannot consider aspects of these designs independently of one another. Just to add another log on the fire:...You make the well informed point of the relationship between the plate resistor, positive output, current and plate voltage...which would naturally (for some) bring us to the issue of transconductance. This is an important factor when considering tubes in general and given this relationship should also be a factor when considering a biasing scheme. In my opinion this bias-transconductance factor (for many, a preference for high transconductance) could be a very good indication as to why pentodes are so favorable in many amplification applications in general (I personally have an affinity for the 6SJ7 in mics), even when sometimes connected as triodes! Even though triodes can (for some) be looked at as more universal.

    As an aside, on the issue of audibility, I at many times attribute these phenomena to something of a "black hole effect"...i.e....while something (like a black hole or phase shift at 10-20hz) may or may not be directly perceivable, it exerts changes and influences upon its surrounding environment (in a diminishing capacity relative to its distance from the "point of origin") and will have consequences and affects reaching into areas that ARE directly perceivable. And with enough information (carefully scrutinized and analyzed) one can realize, with some degree of accuracy, what the "point of origin" of these aberrations is...and propose viable solutions. But thats just my opinion and more importantly a topic for another thread.

    This was the type of exchange I always looked for in various internet fora and this reason why I joined this one....I would like to hear if Mr.Heyne or Mr.Bock (or anyone else) have any preferences towards any particular type of biasing, what they are and what their opinions are of them sonically. Have any of you experimented with say modifying a 67 to have a self bias?
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 22, 2010, 12:43:21 PM
As I mentioned in a previous thread dealing with this issue:
changing fixed bias in U67 and U47 to cathode bias is detrimental to the character of these mics. They "thin out"; and while they become quieter, they also become too sterile and listless and transparent. (Yes, too transparent can be a problem: you look right through the leaves of the tree!)

That's another reason why modifications of U47 mics to run with EF14 tubes are questionable: they often include self-biasing, due to feeding a separate heater voltage to the mic. The tube's sound is already a bit anaemic, even with fixed biasing.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: maarvold on September 22, 2010, 01:21:38 PM
Klaus Heyne wrote on Wed, 22 September 2010 09:43

...That's another reason why modifications of U47 mics to run with EF14 tubes are questionable: they often include self-biasing, due to feeding a separate heater voltage to the mic. The tube's sound is already a bit anaemic, even with fixed biasing.



According to Merriam-Webster's On Line Dictionary:

anemic (which is how I would spell it, although anaemic is also acceptable):

a : lacking force, vitality, or spirit <an anemic rendition of the song> <anemic efforts at enforcement>
b : lacking interest or savor : insipid <anemic wines>

I would never think of the word "anemic" when describing my 2 U47-inspired mics, both of which utilize EF14's.  1-2 times/week, for the past 6 weeks, I have spent several hours listening to a big, baritone voice cutting Sinatra-like vocals at Capitol on a mic that I would describe as a classic U47-type sound: maybe more so than any 47 I've come across in LA, probably close to a dozen at this point (although the actual Capitol mic is a K47-based U48).  In the midst of these sessions, I did a date with another big, baritone voice using my mic.  Was it exactly like the Capitol U48?  No.  Was it very close in overall character?  Yes.  Did it have a similarly satisfying and powerful lower midrange?  No question.  Was it lacking in "vitality" compared to the Capitol U48.  Nope.  I felt like there might be a slightly better 'see through' quality in the 1 kHz-3kHz area on the U48.  But my mic has a Thiersch PVC M7 instead of a K47 and this might be part of it.  Or maybe the coupling capacitor... or the different mic pre.  If anything I would say that my mic has a touch more character than the U48 and, if I had my 'druthers', I would sacrifice a bit of the character for a bit more of that 'see through' quality.  But lacking in force or vitality or interest are factors that don't equate in my experience.  

EDIT: According to Merriam-Webster's On Line Dictionary:

vitality:
1
a : the peculiarity distinguishing the living from the nonliving

2
b : lively and animated character

1a could maybe be equated with the see-through aspect I described that is enhanced in the U48 (compared to my mic)

2b is definitely not lacking in my mic

For the record, my engineer friend that has been doing the Capitol/U48 dates came to my date and, unsolicited, said he liked my mic a lot.  This is not something I expected to hear him say because he doesn't profess to liking much of anything generally.  I realize that this might violate the "third party" rule; please delete if you think it does.  
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 22, 2010, 06:38:20 PM
Thanks for sharing. I would not venture an argument to contradict your impressions. I am happy for you!

I take my sound impressions and "anaemic" description from U47 specimens where I personally witnessed the "before" (VF14) and "after" (EF14) and the "before" (fixed bias VF14) and "after" (cathode bias of the same mic).

There are strong, characterful mics out there of any stripes and you obviously ended up with one (though I wish you could hear your mic with a genuine M7!)

Best,
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Marik on September 23, 2010, 12:03:20 AM
Klaus Heyne wrote on Tue, 21 September 2010 18:59

I hear the phase aberration of bypass capacitors that were not chosen carefully through hearing experimentation...




Klaus,

If I remember correctly, a few years ago I already asked this question, but did not get an answer, so if I may, can I ask again--how do you hear it? How do you know that what you hear is the phase problem or any kind of other anomalies and what makes you feel to attribute the anomalies you hear specifically to phase ones?

Best, M
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: MDM, on September 23, 2010, 07:40:36 AM
I prefer a grounded cathode and fixed bias myself.

self-biasing is more of a plug-n-play thing, fixed bias has to be adjusted for each tube, ideally.

Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 23, 2010, 02:38:21 PM
Quote:

Klaus,

If I remember correctly, a few years ago I already asked this question, but did not get an answer, so if I may, can I ask again--how do you hear it? How do you know that what you hear is the phase problem or any kind of other anomalies and what makes you feel to attribute the anomalies you hear specifically to phase ones?

If I limit the variables in a comparison test to one, the changes I hear are more than likely attributable to the varied component.

In this case, I examine, let's say, the contribution to phase smear of the stock bypass capacitor in a self-biased mic set up.
When I double the cap's capacitance, or when I change out its material while retaining the same value, and if I now hear immediately an improvement (or deterioration) in sound, I can confidently assume, it's the change I effected that is responsible for the new sound, i.e. lower of higher phase aberration.

If I now repeat the same test dozens of times, and I always get the same trend-line, more or less, I can even go further in my assumptions and eliminate other possible (but hidden) variables, like the age and condition of the original capacitor, as a factor in my judgement.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: David Bock on September 25, 2010, 03:18:29 PM
Quote:

As to "Testing a mic on high impact sources like drums can reveal the difference between self & fixed bias mic amps", one has to be extremely cautious to make sure that the "all other parameters being equal" rule is enforced.
As an example, comparing an M49 (w/ fixed-bias AC701) and an M49c (self-bias AC701) is not a proper comparison, since the 49c runs at 60% more quiescent current (0.73mA vs. 0.45), lending it a 4dB advantage.
Since gain null of two channels can be a useful guide for determining differences in sound characteristics of similar devices (practically rendering 4dB difference irrelevant), can I re-state your statement as a conclusion that "any perceived difference in sound quality between an M49b fixed bias (HPF removed) and an M49c is due to the difference in plate current"?
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: MDM, on September 26, 2010, 10:23:19 AM
let's not forget that bypass caps are far from being ideal, especially in the long-run.

an electrolytic cap has a definite 'sound' to it, due to ESR and other nifty non-linear behaviour.

a more 'ideal' bypass cap is a mix of a very large value film cap which has been 'broken-in' well, say 2-4 uF, and an electrolytic.

the reasoning behind this is that the film cap will work for most of the audio band and the electrolytic will work on bass frequencies, where the film cap can't because it would be too big to fit in a mic.

just placing a small cap in parallel creates some weirdness on the top-end because there is a 'cross-over' point in the audible range.

I suspect that small caps in parallel with electrolytics may also create some problems due to the electrolytic's inductance at high frequency, but that's just a suspicion on my part.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 27, 2010, 06:04:35 PM
Indeed, the gain difference in itself is meaningless, since the signals can be normalised. But the harmonic content is different between a tube running at 0.45mA and one running at 0.73.
You cannot re-state my statement the way you've done it, because I never said that the difference is due only to the change in quiescent current, although it is certainly the paramount parameter.

Another factor is the variation of quiescent current caused by the non-linearity of the tube. because of the hyperbolic nature of the plate current to grid voltage relationship, the higher the signal, the higher the plate current, and as a consequence, the higher the cathode potential, which in turn tries to reduce current (that is why it's called automatic bias in european litterature).

A tube highly solicited by a durable signal will see its operating point drifting to a lower-current, lower gain region, with a different harmonic balance. This becomes measurable for signals whose p-to-p amplitude is a significant fraction of the bias voltage.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 27, 2010, 07:28:20 PM
I think your post's language is too esoteric for this forum. Please edit it for clarity, using language that can be understood by those not steeped in the matter as deeply as you are.

Thanks.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: mwurfl on September 27, 2010, 09:57:14 PM
Yes, I thought I was doing just fine until I got to "A tube highly solicited by a durable signal..."

Mark W
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 28, 2010, 07:25:06 AM
mwurfl wrote on Mon, 27 September 2010 20:57

Yes, I thought I was doing just fine until I got to "A tube highly solicited by a durable signal..."

Mark W
OK. I'm glad I haven't lost you at the beginning of my explanation.
So I'll rephrase.
When a self-biased tube stage is submitted to an input signal of relatively large amplitude and a duration of at least several dozens milliseconds, it produces a change in the bias condition of the tube, decreasing the quiescent current, which in turn decreases the gain slightly and moves the operating point to an area where the spectral balance of THD components is different. This phenomenon occurs with a slight delay vs. the incoming signal. This time delay is directly related to the value of the cathode cap vs. cathode resistor.
It is some kind of compression.
In microphone head amps, this would occur only with heavily sustained signals, like guitar/bass amp or Leslie micing (generally drums don't have enough sustain, double bass is not loud enough).
Pushed at the extreme, this phenomenon is the explanation of the particular nature of the overdriven sound of cathode-biased guitar amps examplified by the Vox AC30.
Hope it's clearer now.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Oliver Archut on September 28, 2010, 10:12:57 AM
I think it is easier just to say that the cathode cap will delay (shift) and reduce (limit) a signal above a certain point (input level). The bigger the cap the more pronounced this effect.

Best regards,
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 28, 2010, 01:49:04 PM
It is certainly easier, but not entirely true.
Cathode bias produces some kind of limiting, yes. The larger the cap, the longer the time it takes to limit and the longer it takes for the mic to return to its normal characteristics after being excited.
In fact an infinite cap would not limit at all (well, only after an infinite time).
To make things clearer, I'm talking of dozens of milliseconds.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Oliver Archut on September 28, 2010, 03:05:32 PM
In fact an infinite cap would not limit at all

That might be true in theory, but using something close to infinity a 1F cap will make it actual worse, the time delay is definitely audible and the limiting sounds like breathing.

The big issue is that the theoretic side still has its limitation, it is needed but can not explain everything.

Best regards,
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: David Bock on September 28, 2010, 06:04:56 PM
Quote:

You cannot re-state my statement the way you've done it, because I never said that the difference is due only to the change in quiescent current, although it is certainly the paramount parameter.

I accept this rejection. Please explain why then you chose dissimilar plate current devices as your example to illustrate the difference between fixed and self bias.
Quote:

A tube highly solicited by a durable signal will see its operating point drifting to a lower-current, lower gain region, with a different harmonic balance. This becomes measurable for signals whose p-to-p amplitude is a significant fraction of the bias voltage.

Right. So it's not really a phase issue with self bias. Myth busted.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 28, 2010, 06:24:53 PM
dbock wrote on Tue, 28 September 2010 17:04

Quote:

You cannot re-state my statement the way you've done it, because I never said that the difference is due only to the change in quiescent current, although it is certainly the paramount parameter.

I accept this rejection. Please explain why then you chose dissimilar plate current devices as your example to illustrate the difference between fixed and self bias.
It's not my choice! Neumann, in their infinite wisdom, chose to alter the operating point between the M49 and the M49C (and a different AC701).
To my knowledge, nobody has tested side-by-side a fixed bias and a self-bias M49, all other parameters being equal.  
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 29, 2010, 01:43:52 AM
Yes, I have, and the audible results are similar to the other self-and fixed bias tube mic differences where I have tested for just that one variable (see my  earlier comments.)
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Geoff Emerick de Fake on September 29, 2010, 01:41:23 PM
Klaus Heyne wrote on Wed, 29 September 2010 00:43

Yes, I have, and the audible results are similar to the other self-and fixed bias tube mic differences where I have tested for just that one variable (see my  earlier comments.)

You mean you had modified them for same tube, same current?
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 29, 2010, 03:01:56 PM
Yes,
I have, because, aside of the different biasing, I never understood why different levels of current would be run with that tube in the same mic.

I still don't understand that part, but I understand enough of the difference in sound between fixed and self that I modify according to the best sonic outcome, rather than a 'one size fits all' approach.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: David Bock on September 29, 2010, 03:53:06 PM
I found this in the "ground rules" section:
Quote:

* Please use your real name and professional affiliation, if different from your screen name. I think it makes for a better, more honest forum and audio community in the long run. Anonymous posts remove responsibility from the poster. I'd rather talk to people who have the courage to take a risk and trust that their courage will not be violated by the forum's participants.
and wondered, who is this Geoff Emerick de Fake who has, thankfully, added much valuable information to this thread. No sarcasm intended!
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: Klaus Heyne on September 29, 2010, 04:41:25 PM
David,
I agree with you in principle. But I give people a little leeway, as long as they at least use their real names in the forum's "profile" section.

In this case, Mr. de Fake's real name is Jean Luc Moncel.

I agree, it would be nice to get a bit more background about him.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: MDM, on September 29, 2010, 08:11:49 PM
Asymmetric waveforms, especially if clipping will also change the bias voltage in a self-biasing amp.. I think.

I don't like self bias on most circuits, and try to avoid it, although sometimes it's the only solution.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: J.J. Blair on October 01, 2010, 11:43:05 PM
Best thread in a long time.  I appreciate the wealth of knowledge being shared.  Much thanks to all involved.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: R-AP.SCI on October 04, 2010, 12:29:01 AM
All interesting points gentlemen (and thanks for stopping by Mr.Blair).

    I will be experimenting with different cap configurations, makes and values in my circuit and if I can accurately measure the results I will be posting them here. In the end I will simply have to choose what I think sounds best.

    Thank you all again for your insights, thoughts and opinions.
Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: volki on October 06, 2010, 11:28:20 AM
J.J. Blair wrote on Sat, 02 October 2010 05:43

Best thread in a long time.  I appreciate the wealth of knowledge being shared.  Much thanks to all involved.

That's exactly what I was just going to write...

Thanks everyone!  Thumbs Up  Thumbs Up  Thumbs Up

Title: Re: Self Bias vs. Fixed Bias (in the context of microphone design)
Post by: djosephson on October 10, 2010, 01:29:08 AM
Sorry to join this discussion late.  Indeed we have no tube mics in production but I have studied them extensively, built more than a few and thought several times about doing a tube model. Also, this question is certainly not unique to tube mics. Our standard FET first stage is precisely controlled fixed bias at the gate with the drain driven by a current source, so you can say that I'm a fan of "fixed bias."

But as Oliver mentioned, there aren't any standards for what we call things in microphone electronics, so describing the differences we're talking about as "fixed" versus "self" bias is a bit of a misnomer. Things are different than with voltage amplifier stages; the relation between the first active stage and the capsule is quite complex as the impedance the capsule sees changes according to the current drawn by the grid or gate of the first stage. This is in addition to anything that would be caused e. g. by a cathode bypass capacitor.

My design approach to date has been to get rid of as much "sound" as possible from the electronics. (Thank you Paul Klipsch, good sound is the absence of bad sound.) If I can prove to myself that the signal voltage developed across the polarize resistor is unaffected by the first amplifier stage, I'm happy (and that's hard, when it drives you to operate the input impedance in the gigohms). But, that is by no means the only possible approach. Circuits whose characteristics shift with signal level (I call this signal-history distortion) make a certain sound and this might be entirely desirable in some instances. Many historically valued mics exhibit this characteristic. I try to focus on what aspect of the transfer characteristic is judged to be advantageous (who says you can't build a magic limiter/compressor into the mic?) rather than trying to associate it with a given circuit topology. I would recommend looking at what the circuit is doing, rather than trying to hang it on presence or absence of some resistance and impedance in series with the cathode. In this case I think the real question is whether and how the grid voltage changes with signal level.