Comparison of JFETs for mic applications

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Uhhmm, not yet. I understand that it is easier for you to think along in solutions if you have the schematic, but for now I will keep it to myself.

I might have have had a BMFBFOTO*.

Normally one side of the capsule terminates into a low impedance. This lowpasses the noise of the bias element.

If the microphone is single diaphragm and backplate, there is no low impedance path to "ground" (or to anywhere). So no lowpass for noise.

A capsule with dual diaphragms and a separate backplate (3 wire) with a low impedance bias supply to the backplate and a diaphragm to each input should kill the noise.

Thor

* Big Mutha Funking Blinding Flash Of The Obvious
 
I might have have had a BMFBFOTO*.

Normally one side of the capsule terminates into a low impedance. This lowpasses the noise of the bias element.

If the microphone is single diaphragm and backplate, there is no low impedance path to "ground" (or to anywhere). So no lowpass for noise.

A capsule with dual diaphragms and a separate backplate (3 wire) with a low impedance bias supply to the backplate and a diaphragm to each input should kill the noise.

Thor

* Big Mutha Funking Blinding Flash Of The Obvious
It's an externally polarized SDC capsule with a "floating" membrane and backplate (Superlux S502 MK2). So it is not your typical SDC capsule with the membrane connected to the shell.

The capsule connector's "collar", which I believe connects to the membrane, is decoupled to ground through a 22nF C0G decoupling capacitor. This capacitor connects to the polarization voltage oscillator through a 10M resistor. On the output of the CMOS oscillator is another 22nF reservoir capacitor.

The capsule backplate connects to the Gate of the JFET and to a 2G resistor, which feeds the bias voltage to the Gate. So the 2G resistor noise has a "low" impedance path through the capsule capacitance and the 22nF capacitor to ground. Maybe I have my BMFBFOTO too now and should inspect the 22nF capacitor connected to the capsule.

Thanks Thor.

Jan
 
The capsule backplate connects to the Gate of the JFET and to a 2G resistor, which feeds the bias voltage to the Gate.

Maybe I misunderstood, I was under the impression the whole circuit was balanced and the microphone connected between the halves, obviously not then.

Maybe I have my BMFBFOTO too now and should inspect the 22nF capacitor connected to the capsule.

Probably worth doing. But it seems I still fo.not understand your circuit correctly from your descriptions.

Thor
 
Maybe I misunderstood, I was under the impression the whole circuit was balanced and the microphone connected between the halves, obviously not then.



Probably worth doing. But it seems I still fo.not understand your circuit correctly from your descriptions.

Thor
Understand your confusion. One "leg" is the actual impedance buffer and sends audio to the preamp. The other "leg" copies most of the circuit of the first, but is only there for impedance balancing, balancing the phantom power supply load, and supplying the current to the CMOS oscillator. Those few SMT parts used in the 2nd "leg" are much smaller than a bunch of elcaps, allowing the circuit to fit into a very small SDC without having to couple the audio signal into the preamp through too small elcaps which would affect low-end response. The input of the 2nd "leg" is properly decoupled to ground to avoid feeding its noise into the preamp. Second BMFBFOTO: I should also check this decoupling capacitor.
 
You were quite open to doing a noise frequency analysis in #264 :( As my claim(s) were very specific, I would have thought this was important .. if not vital.
I said I'd see what we can display
Thank you. I take this to mean you are happy to bring back the noise shootout with Noise Spectrum display :)
I'll tell you what I do instead. I'll use a 2SK660 as diode, as this will match closely what was diffused on die.
I'm happy with that.
I'll illustrate various circuits of interest using the same 2SK660 fet (or 2SK170 + 1Gohm where the original specifies such) and their relative performance for noise, frequency response and distortion
Please don't change the goalposts.

My original claim is that your #245 circuit will be >10dB noisier than Zephyr's Schoeps variant with his 34mm ISK CK12 capsule at 4kHz and higher. I also claim SimpleP48 is perhaps 1dB quiter than his circuit. You issued a challenge in the same post which I accepted.

As the common version of SimpleP48 has known problems at high spls, I suggested SimpleP48RCA (the other recommended version) as it has been tested for real life spl performance. You graciously agreed to add this to the shootout in #264.

Let's concentrate on these.

But if what you propose is in addition to our shootout, I can post Zephyr's circuit which has some noise advantage compared to the usual Schoeps circuit and is good at high spl too.

Can you tone down the trash talking please? I've not sh*t on your stuff. I made a comment about noise which is what we are testing.

We all KNOW, cos you have told us ad nauseum in 3 different languages, that you think all Chinese engineers, especially itinerant ones in Oz, are idiots and their stuff is not worth reading. I'm not sure your Supa powers allow you to claim sh*t is or isn't in there without bothering to read.

I have serious reservations about your 'noise analysis' in #249, #264 etc but there's no point in putting my $0.02 in until we have at least some sim. results.

We can discuss the reasons for the results, rationally, when we get them and attempt to relate them to 'real life'
 
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thor.zmt said:
I'll illustrate various circuits of interest using the same 2SK660 fet (or 2SK170 + 1Gohm where the original specifies such) and their relative performance for noise, frequency response and distortion
... if what you propose is in addition to our shootout, I can post Zephyr's circuit which has some noise advantage compared to the usual Schoeps circuit and is good at high spl too.
This is an excellent idea. If you analyse Zephyr's circuit and compare with your Supa circuit, we shall be investigating my first claim directly. :) ie that your circuit is >10dB noisier than Zephyrs above 4kHz.

No need to sim EVIL electrets etc to for SimpleP48. We can just model your favourite 60V polarizing voltage for both. :)

This extra sim will be double confirmation for or against my ridiculous claims.
 

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Of course Thor, I (and many MicBuilders too) would dearly love to have your expertise directed at SimpleP48 & SimpleP48RCA too

So please continue working on the sims for the original shootout :)
 
My original claim is that your #245 circuit will be >10dB noisier than Zephyr's Schoeps variant with his 34mm ISK CK12 capsule at 4kHz and higher.

That WAS NOT your original claim as far as I can remember. It was "> 10dB noisier" without qualifications. Maybe I misremembered, so please show the original post unedited.

I also claim SimpleP48 is perhaps 1dB quiter than his circuit.

So you did

As the common version of SimpleP48 has known problems at high spls, I suggested SimpleP48RCA (the other recommended version) as it has been tested for real life spl performance. You graciously agreed to add this to the shootout in #264.

Let's concentrate on these.

That would be pointless. We do want a few more interesting topologies that came up.

So simplep48 will be included, as will be "generic Schoeps" with the recommended parts.

But if what you propose is in addition to our shootout,

A "shootout" is pointless.

But, the data I will present will answer also "what are normalised noise levels (Ein) of each circuit" and if I can get a spectrum of Ein that makes sense, it will be included.

I can post Zephyr's circuit which has some noise advantage compared to the usual Schoeps circuit and is good at high spl too.

Well, why didn't you?


Can you tone down the trash talking please?

Trash talking? You mean I should stop pointing out the facts about your publication?

We all KNOW, cos you have told us ad nauseum in 3 different languages, that you think all Chinese engineers, especially itinerant ones in Oz, are idiots

I do not think Chinese engineers are idiots.

I know for a fact that those educated in mainland china only (note, this about education/country of residence, NOT ethnicity) have poor reading comprehension of technical documents including those originally written in chinese.

They completely fail to be able to apply basic laws of physics applicable to electronics, though they know those laws and can repeat them perfectly. They just cannot apply them to even the most primitive circuit in front of the.

They also have zero capability of original work and can only operate by copying and rote reptetion.

This is a result of how the Chinese education system works, focusing on rote repetition, not application.

This doesn't make them idiots or even useless.

It just means that that mainland china educated degreed engineer cannot be expected to perform tasks adequately that a western college level educated technician can.

On the other hand, if you need something copied, they do this extremely well, without the risk of trying to understand what they are copying and making "improvements" but also without spotting obvious mistakes.

As for you personally, I pointed out numerous critical flaws with one of your publication. And I questioned why, knowing all these flaws, you elected to publish what you did, in the form you did and promote that publication.

I did not call you either idiot, chinese, iterant or anything.

I appreciate that you worked with limited resources (everyone does, just limits vary) and tries to produce something useful.

You did however violate some of the basic rules about testing (validation, calibration) and publications (transparency, incusion of critical details). As a Guru surely you know all this without me telling you.

We can discuss the reasons for the results, rationally, when we get them and attempt to relate them to 'real life'

Yup, let me finish work in the bathroom and get started on putting my office/lab back together.

The results will not be quite as you claim though and you should also know why already. So I'm perplexed why you keep making these claims the way you do.

Thor
 
That WAS NOT your original claim as far as I can remember. It was "> 10dB noisier" without qualifications. Maybe I misremembered, so please show the original post unedited.
#244
That would be pointless. We do want a few more interesting topologies that came up.
Are you conceding the whole shootout? Just the noise stuff? Or are you conceding the THD stuff vs SimpleP48RCA too?

It was you who proposed the TINA shootout and also that we ADD SimpleP48RCA. So how could it be pointless?
So simplep48 will be included, as will be "generic Schoeps" with the recommended parts.
Please include SimpleP48RCA and Zephyr's circuit which I posted in #327 above. All the devices are in the LTspice library but if some are not, just ask and we'll work something out.

I'm sure everyone here considers them "interesting topologies".

Trash talking? You mean I should stop pointing out the facts about your publication? .... loadsa Thor's usual trash talking ....
You'll excuse me if I don't answer this oft repeated refrain of yours. We can have a rational technical discussion of your detailed results when they appear.

Is it convenient to post the TINA model of your #245 circuit while you work on your bathroom? Or at least the active device SPICE models?
 
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Are you conceding the whole shootout?

No, I'm declaring it pointless.

Please include SimpleP48RCA

That was not the original point.

and Zephyr's circuit which I posted in #327 above.

Will do. To be absolutely clear, it is this:

https://cdn.imagearchive.com/groupdiy/internal_data/attachments/95/95605-5af03d8087275b494b170026f9310303.data

Merged_document.jpg
Note that this circuit doesn't work with a single diaphragm capsule. And it seems the schematic contains numerous heath warnings.

All the devices are in the LTspice library but if some are not, just ask and we'll work something out.

I'm familiar how to use TINA and how to import third party models, thank you.

I'm sure everyone here considers them "interesting topologies".

Example of an interesting topology, the "bootstrap follower".

It can be made lower noise than simpleP48, lower THD that simple48Linkwitz (it's neither a charge amp nor invented by RC) and probably all around superior to to Schoeps and completely DC coupled.


Is it convenient to post the TINA model of your #245 circuit while you work on your bathroom? Or at least the active device SPICE models?

I only have a phone working now. I do not have spice simulators on my phone.

But you can easily replicate the circuit using LT Spice models of 2SK660, BSS84, BC337-40 and zener diodes.

The TINA file will be useless anyway, you can only load it and simulate in TINA, not LT-Spice.

Thor
 
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Will do. To be absolutely clear, it is this:

https://cdn.imagearchive.com/groupdiy/internal_data/attachments/95/95605-5af03d8087275b494b170026f9310303.data

View attachment 143704
Note that this circuit doesn't work with a single diaphragm capsule. And it seems the schematic contains numerous heath warnings.
My apologies, Zephyr didn't use Zap's circuit exactly. That's why page 10 of Zephyr.doc says

Modified Zapnspark SimplifiedSwitched Pattern Condensor Microphone S2PCM circuit v2.31

His marked up print is under a pile of boating, sailing & diving junk. In the meantime, please use attached, which IIRC is fully representative of the Cardioid response & noise in Zephyr.doc

He used a pot, which on the 'Cardioid' position shorts C10 to earth.

R11 may be 2G or 5G but I'm happy for you to use 1G.

When I dig up his actual marked up print, I will post & you can decide if it will materially affect your noise or THD sims. Feel free to replace his U1 & 2 voltage regulators with better stuff which I'm sure you are competent to dream up. They are responsible for the health warnings.

But keep
  • point Z at 7v8
  • total current draw 5.7mA or less
  • R4 & C8 even if your replacement regulators are SupaDupa
I'll answer your other points later but please stick to WHAT YOU AGREED TO DO.

We can do hi falutin', even more SupaDupa stuff when we have sims which we can relate to Real Life measurements.

I think you said you DO have measurements of your #245 circuitZephyrsS2PCM.PNG
 

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